Covers issues surrounding success on the job for adults with ADHD and/or LD adults.

Luck or intuition? Some adults with ADHD (Attention Deficit Hyperactivity Disorder) or a LD (Learning Disability) have created enormously successful careers. Do you know any? Others have struggled because it is often our work that places the greatest demands on our capacities for planning, memory, organization, teamwork and precision.

Many ADHD adults have checkered resumes because they have left jobs out of boredom, poor working relationships or difficulties meeting the demands of a job. For many ADHD adults, work life has been far from ideal, resulting in chronic feelings of discouragement and dissatisfaction.

In this article I will discuss many issues surrounding success on the job for ADHD and/or LD adults. Although ADHD and LD are separate disabilities, they tend to co-occur, and have similar struggles.

Problems and Strategies:

• Successfully Coping with ADHD/LD Issues on the Job
• Organisation Difficulty
• Do you have difficulty getting places on time, figuring out how much you can do in a day or an hour, organising your physical workspace, keeping track of time? If so, every part of your life is affected.

Time

Typically, if something is interesting, you probably get caught up in that activity and just keep going. An ADHD mind does not naturally think in terms of minutes or hours.

Helpers

a. Auditory aids--buzzers or alarms. b. Visual aids-digital timers, post-it notes. c. Kinesthetic aids--vibrating timers/pagers. d. Ask a co-worker to give you a reminder. e. Create a partnership with a co-worker. f. Build in rewards for yourself.

Workspace

Keeping baskets or boxes to hold information and set aside a certain amount of time daily to go through these. Sticky notes, daily reminder charts/calendars, write to do list daily. Set aside 10-15 minutes at beginning of work day to organise yourself. Learn your own way to be organised--try a few things to see what works the best.

Hyperactivity

Are you drawn to jobs that allow freedom of movement? Do you become restless easily? Here are some techniques to try:

a. Look for work that allows for high degree of physical movement (delivery person, sales person, etc.).
b. Take frequent breaks - trip to get some water or walk outside.
c. Bring lunch to work so you can take a walk at lunch-known to increase productivity.
d. The more sedentary your job (like mine), the more important it is to get regular exercise before or after work.
e. Carry small unobtrusive object in pocket or hand during long meetings.
f. In meetings, take pad and pen to take notes. Even with the small amount of movement involved in writing can help contain restlessness. You can also write down the things that may be distracting you, such as what you are going to do after the meeting, what you need at the grocery store, where you're going on vacation this summer, etc.

Distractibility

Most workplaces have a high degree of distractibility.

a. Whenever possible, arrange workday to have blocks of uninterrupted time.
b. Let voicemail answer phone calls during certain times of the day. And, return calls only during specific times of the day.
c. If you have a private office, shut the door during certain times of the day. If not, look for unused space (conference room, empty office) that you can work on projects that require a lot of concentration.
d. Experiment with earplugs or head phones to reduce distractions.
e. Use flex-time to provide yourself with an hour at the beginning or end of the day when less people are in the office.
f. Keep your work surface clean and clear. Visual distractions can reduce productivity.

Procrastination

May resultfrom not knowing where to begin, feeling overwhelmed or disliking certain tasks. It may mean that you need a little assistance to get started.

a. Give yourself deadlines.
b Ask your supervisor for specific deadlines. Anytime becomes never.
c. When facing a boring or tedious task, break it into small pieces and reward yourself.
d. Work on a team with someone else.
e. Look for work that involves short-term tasks with definite deadlines.

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Memory Problems

Forgetfulness or absentmindedness can get the best of us.

a. Use tape recorders or take notes during conferences/meetings.
b. Take your planner with you so you can refer to events and tasks of the day.
c. Use your day planner as a constant reminder pad.
d. Keep a written record of all requests made of you (in your day planner or special notebook for this purpose).
e. Ask people to send you info by fax or email so that you have it in writing.
f. Place objects or things you need to take home/work by your keys.
g. Use sticky notes.
h. Get in the habit of reviewing your day, the upcoming week, and month to remind yourself of upcoming events.

Employer Accommodations for Adults with ADHD - LD

A combination of your strategies and employer accommodations works best. It is important to look at on a case-by-case basis.

1. Provide a non-distracting workplace.
2. Allow employee to do some work at home.
3. Provide employee with computer software to assist with planning and time management-also teach hands-on how to use this software.
4. Provide employee with audio tape equipment to tape meetings/conferences.
5. Provide employee with checklists to structure tasks that require many steps.
6. Give instructions slowly and clearly, preferably orally and written.
7. Excuse employee from non-essential tasks to allow more time on essential tasks.
8. Restructure job to match employee's strengths.
9. Provide more frequent performance appraisals.
10. Reassign employee to vacant position that better matches strengths.
11. Provide extra clerical support.
12. Allow flex-time (4 ten hour days, or flex time each day)
13. Establish frequent brief meetings to assist with keeping on track.
14. Establish multiple short-term deadlines.
15. Provide assistance setting up an organized filing system.
16. Communicate by email and memos.
17. Provide assistance setting priorities.

DDA and ADHD - LD

ADHD qualifies as a disability under the Disability Act if it can be shown that it substantially impairs your ability to function in. You must be able to perform your essential job functions with reasonable accommodation.

a. No legal cases have yet set standards for what is reasonable under the ADA.

b. ADA only applies to organizations with greater than 15 employees.

Disclosure of ADHD to Employer and Self-Advocacy

Personal decision based on your particular circumstances. Can you request accommodations without disclosing? If you demonstrate an A + attitude and good motivation, letting your supervisor know what you need, without disclosing, may get you results. Think about what types of accommodations you will require. You may need to consult with an expert to help you. Hopefully some of the ideas presented today will give you a place to start. Because FEW employers pay for workplace evaluations (county), you will need to address the following:

1. A place to start is also being able to educate your employer about your ADHD or LD. Providing them with written information can be helpful (see resources). Also, sharing with them what you are planning to do for your ADHD/LD
2. Emphasize that you are taking primary responsibility to manage your ADHD problems.
3. Ask for suggestions and feedback.
4. Sometimes a change of supervisor can be a wonderful accommodation. This is NOT supported by the DDA. Supervisors who are rigid, perfectionistic and micromanagers tend to be poor matches for ADHD adults. You may need to look around for another position.

Finding the Right Job Match

Unfortunately, there is no "list" of ADHD jobs. People with ADHD are affected differently. Also, they have different personality types, levels of intelligence, abilities, skills and areas of interest. One thing we do know is that the more interesting you find your job, the more successful you will be! It is important to keep in mind three general areas

1. Strengths/Weaknesses
2. Likes/Dislikes
3. Personality Styles.

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Here are some general guidelines to keep in mind:

a. Develop a list of strengths and weaknesses. (Do this now). Think back over your life, considering summer jobs, courses in school, hobbies etc. Make a list of strengths.
b. Think about things that have been frustrating for you. Make a list of these things which tend to be your weaknesses.
c. Develop a list of likes and dislikes. Include EVERYTHING you can think of, whether it's immediately related to work, or not. What things fascinate you? What bores you? Are you a people person? Do you prefer solitary activities?
d. If you have access to an interest inventory, take it. This will help give you a sense of direction.
e. Look at personality issues - take the Myers/Briggs (on-line). Come up with profile which connects types of careers that are a good match (see book: Do What You Are).

Positive ADHD - LD Traits for Success on the Job

Paul Gerber's research: He reported that individuals who achieved a high level of success in their careers despite their LD all reported the following internal traits:

a. A very strong desire to be successful.

b. A high level of determination.

c. A strong need to control their own destiny.

d. An ability to reframe their disability in a more positive, productive manner (Mark Katz book).

e. A planned and goal oriented approach.

f. An ability to appropriately seek assistance without becoming dependent.

These successful people also reported a common set of external circumstances that they had been fortunate enough to find or resourceful enough to create for themselves:

a. A mentor for guidance and support.
b. Positive, supportive people to work among.
c. New work experiences to enhance their skills.
d. A work environment in which help was available when needed.
e. A high "goodness of fit" between their skills and the job's requirements.

Other positive ADHD traits (can ADHD them to your list that you previously created): Creative; Determined; Good in a Crisis; Seek variety; Seek stimulation; Resilient; Enthusiastic; Energetic; Love a Challenge; Think on feet; Able to hyper-focus; Good at communicating; Interact well with people Others:

Potential Stress Factors on the Job for those with ADHD - LD

a. Long hours
b. New management
c. Unrealistic demands
d. Lack of Structure
e. Long commute
f. Too frequent deadlines
g. Unclear duties
h. Fear of being fired

About the author: Amy Ellis, Ph.D. is in private practice in San Diego, CA.

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Today was one of those beautiful, serendipitous days when time just stopped and balance, peace, and serenity were all available to me in joyful abundance.

I awoke around 5:00 a.m. to the warm and loving arms of my beautiful wife. She smiled at me as we relaxed in our bed, listening to a gently falling rain outside our window.

As the sun came up, I arose and got a bite of breakfast, unhurried and uninterrupted by the usual hustle and bustle of our seven-person household. School is out now and all the kids are away visiting their other parents. It was wonderful to feel like I had the whole house to myself for a change.

So, I put some soothing, peaceful piano music on the stereo—Rick Wakeman's Romance of the Victorian Age and immersed myself in the mood set by his serene piano and strings orchestrations.

As I ate breakfast, I looked out the French doors leading to our patio and pool. The rain drops fell into the pool forming tiny ringlets in time with the music.

I felt suspended in love and grace and serenity. I felt the close presence of God in the depths of my heart and in my soul. Although I did not verbalize a prayer of thankfulness—somehow I knew that God was communicating with me, gently reminding me of His care and His plan and His purpose for my life.

Thank You, God for loving me. Thank You for the quiet moments we spend together. Thank You for consciousness and awareness and the beautiful, poetic, spiritual reality that Life can be. Amen.

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next: Options

One of recovery's principle benefits and tools is the realization that we do have options.

When life gets overwhelming and stressful, we have the option of taking a time-out, getting re-focused, and taking care of ourselves.

No matter what situation we find ourselves in, we always have the option of self-care.

Sometimes self-care means trusting God when we can't see the solution. Other times, we just pray and wait and watch. We can take minute vacations, breathe, and relax.

We can meditate in a quiet place, listening for the voice deep within us that speaks when we get still enough.

We can remember to laugh at life and its struggles and hardships. Keeping our hearts light and a smile close at hand is always good food for our souls.

We can spend time with a friend—someone who listens without judging. We need that at times to shut out the voice of self-condemnation that we co-dependents tend to let live rent-free in our heads.

We can go to a meeting and listen while others tell their stories. We can offer our strength, hope, and encouragement to them. We can get out of ourselves and our problems and focus on someone or something other than our own lives for a while. Getting a different perspective is always valuable.

We can remember not to sweat the details - and it's all details - typically the most mundane that we allow to cause us the most stress.

Most of all, we can remember that ultimately, God is in control. There is a grand design and plan to all that we experience in this life. A wonderful Grace is at work in us and in those with whom we interact. We are exactly where we need to be to grow and become the beautiful person we are becoming.

Thank you, God for being in control. Thank you for the recovery tools and the options You have given me. Help me to use them. Help me to trust You completely. Help me to remember that I am not my problems, nor my relationships, but that I am Your child and You love me and care for me, no matter what circumstances I may be experiencing. Amen.

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next: Feeling Overwhelmed

Detailed information on treatments and coping strategies for ADHD. Includes both children and adults with ADHD.

Attention Deficit Hyperactivity Disorder (ADHD, sometimes also known as AD/HD or ADD) is a diagnosis based on behavioral symptoms. The signs and symptoms of ADHD, and medications for ADHD are discussed in separate pages. This page focuses on the treatment of ADHD and the ways an individual and family members can cope with this sometimes vexing disorder.

What are the usual treatments for ADHD?

At the present time, it is generally believed that ADHD cannot be cured, and most people grow out of only some of the symptoms. There is also a minority view that ADD is caused by developmental trauma and can be successfully treated. The most commonly prescribed treatment is a combination of:

• behavioral intervention at home, in school, or in the workplace
• psychotherapy or coaching
• medication (discussed in-depth in the HealthyPlace.com ADHD medications section, which also includes a discussion of benefits and risks of medication)

Many people in the life of the person with ADHD may take part in this multi-modal treatment:

• the school or workplace
• the people who live with the person with ADHD, such as family, spouse, partner, or parents
• a psychiatrist or other medical practitioner who can prescribe drugs
• a psychologist, counselor, or coach
• most of all, the individual with ADHD who wishes to make changes in his or her life.

For most individuals with ADHD, this multi-modal treatment approach seems to work. However, some people do not respond well to the standard treatment, and some families object to the use of medications, particularly with young children. Some children object to the way the medication makes them feel.

How can an individual with ADHD cope?

Here are some suggestions for coping with ADHD. Start by viewing this condition as a difference rather than a disability and then set about to deal with the needs this difference creates.

1. Get a formal diagnosis. Choose a psychiatrist, neuropsychologist, or therapist who has knowledge and experience, including recent information about developmental trauma, which may influence the diagnosis. An exam should also rule out any other mental or physical problems that may be exacerbating or masking the ADHD.
2. Gather information about medications. If a medical practitioner recommends medications, do some research to decide if you and your family want to pursue this approach. If so, take medications as directed and notice any differences. Let your doctor know if there are any unpleasant or difficult side effects of medication so adjustments can be made. Once beginning medications, do not make changes without consulting your doctor.
3. Include therapy and/or coaching in treatment. Whether or not medications are incorporated, psychotherapy can help the individual and family deal with the feelings and tensions that accompany ADHD. Coaching can help with learning specific organizational and social skills.
4. Ask for help. Just as a blind person develops other senses more fully and learns to ask others for assistance when necessary, a person with ADHD must develop ways to compensate for a disability and learn to ask others for assistance. Ultimately, a person with ADHD will find that asking for reminders or help in organizing projects is a better solution than pretending to be able to handle everything, and then failing.

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What is the role of psychotherapy in the treatment of ADHD?

Psychotherapists can help individuals with ADHD cope with the feelings of

• having ADHD
• living with people's responses to the ADHD behaviors.

Sometimes those feelings go back to childhood, when others criticized them for their inattentiveness, impulsivity, or hyperactivity. Constant criticism can lead to low self-esteem, and a person who has been feeling self-loathing for many years is likely to respond defensively to current interactions in unhelpful ways. The therapist will explore past and current feelings and work with the individual to forge new ways of interacting.

Sometimes the therapist works with the couples or families that include the person with ADHD so that everyone can examine and change their behaviors surrounding the ADHD symptoms.

What is behavioral intervention for ADHD?

Behavioral intervention is direct negative or positive reinforcement of desired behavioral changes. For example, one intervention might be that a teacher rewards a child with ADHD for taking small steps toward learning to raise a hand to be called on before talking in class, even if the child still blurts out a comment. The theory is that rewarding the struggle toward change encourages the full new behavior.

It is important to note that individuals with ADHD are notoriously variable in their symptoms. One day, the person may behave acceptably in one realm, and, the next day, may fall back into old, unacceptable patterns. This makes behavioral intervention difficult because it seems as if the training is not working. However, over time, reinforcement has been shown to improve behavior; a person with ADHD may simply have more off-days than other individuals.

What are some alternative treatments for ADHD?

Because ADHD is largely a behavioral condition affecting children, there are many concerns in both the diagnosis and particularly in the use of medication for treatment. Although there is often controversy when less traditional approaches to treatment of any condition are suggested, some promising alternative approaches for ADHD include:

• neurofeedback (EEG biofeedback, in which electrodes attached to the scalp provide brainwave pattern information, allowing the person to see the effects of relaxation, breathing, and focused attention, and learn to slow down or speed up brain waves)
• Interactive Metronome (IM) rhythmicity training (computerized system involving sound and movement patterns to assist with focused attention)
• EFT (Emotional Freedom Technique - involves the use of tapping on specific acupressure points while speaking certain affirmations - which seems to trigger changes in the neurological system)
• "outdoor green time" (nature seems to have a calming effect on people)
• Animal Assisted Therapy (petting and caring for animals helps some children become calmer and better self-regulated)
• small specialized classroom in a multi-dimensional program (going back to the beginning to fill in gaps in learning, including frequent periods of vigorous physical activity, constant opportunities for success, attention and acknowledgment for every accomplishment, adequate sleep and proper nutrition, etc.)

How can partners and spouses cope with living with a loved one who has ADHD?

ADHD is generally very challenging for the partner and family of the affected individual. It helps if all are committed to working through the difficulties of life with ADHD. In addition to, or instead of, medication, counseling or therapy can reframe troublesome interactions:

• the individual with ADHD will begin to see which behaviors irritate or anger the partner, and how those behaviors might be interpreted as unloving
• the individual that does not have ADHD can begin to change responses to the ADHD behaviors so that the individual with ADHD can receive calm feedback.

The therapeutic process will be most successful if:

• the therapist or counselor is experienced in dealing with ADHD or developmental trauma
• the therapist or counselor can work on two levels: the feeling level and the practical level
• the partners exercise their senses of humor.

In order to sustain positive feelings and to be patient during the therapeutic process, the individual who does not have ADHD may wish to attend a support group for partners of individuals with ADHD.

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What are some strategies for parenting children with ADHD?

Parents of children with ADHD need to help their children to develop into their best selves. These parents also need to take care of themselves as they deal with the difficulties of ADHD on a daily basis.

A diagnosis is a good starting point. However, parents should be aware that the research on ADHD is evolving rapidly and both doctors and teachers may be relying on outdated information. Parents can develop a treatment plan that may include:

• parent education about ADHD (reading, watching videos, attending workshops, discussions with a therapist or coach)
• education for the child about ADHD at age-appropriate level, to develop ability to act as own advocate throughout life
• behavioral interventions at home and/or at school
• therapy or coaching
• medications
• alternative approaches to treatment.

Working to help a child change behaviors takes patience, attention to detail, and helping the child to compensate for ADHD. If one of the parents has ADHD, as is often the case, that parent will face even greater challenges to be a helpful parent to the child.

Some important guidelines for parenting children with ADHD are:

• Remember that your child's behavior is related to a disorder, and is not generally intentional.
• Manage your own frustration and anger so that you can be in a state to help your child to change daily patterns.
• Be patient with change: foster improvements and be calm about setbacks.
• Get help when you need it, either from your mate or from other substitute caretakers.
• Make a list of the positive traits of your child.
• Develop and repeat fun activities that allow your child to be at his or her best.
• Encourage athletic pursuits, if your child seems to benefit from such activities.
• Reinforce positive behavior quickly; follow through with negative consequences immediately.
• Expect only short periods of time sitting still.
• When giving instructions, stand or sit close to your child and keep the list of instructions very short.
• Be consistent.
• Provide structure.
• Be the advocate until your child can self-advocate.
• Believe in and support your child.

What can teachers do to help students with ADHD?

Teachers can educate themselves about ADHD and the accommodations they can provide for children with ADHD. In many cases, the teacher will want to work with parents to change the learning environment and monitor behaviors at home and at school. Some of the ways teachers can help a student with ADHD are:

• Help the student to remember homework assignments by giving written as well as auditory cues. Monitor the student's use of a daily planner to record homework assignments.
• Give the inattentive student a seat at the front of the room or away from distractions.
• Reward students as they try new and better behaviors in the classroom.
• Teach how to take notes.
• Teach in an interactive manner.
• Encourage the use of distinctive folders for different subjects. Suggest the use of one particular folder for papers leaving the classroom that must be returned, either signed by parents or completed by the student.
• Teach strategies for accomplishing long-term assignments.
• Provide duplicates of textbooks in the classroom so that the child can leave a set at home.
• For students who have difficulty writing neatly, allow the use of computers for written assignments, either in the classroom or at home.
• Develop a secret signal with students to indicate when they are diverging from accepted behavior.
• Allow extra time for exams if the child's attention wanders during tests.

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Sources:

(1) A American Academy of Pediatrics. AAP parent pages: ADHD and your school-aged child. October 2001.

(2) B O'Brien JM, Felt BT, Van Harrison R, Kochhar PK, Riolo SA, Shehab N. Attention-deficit hyperactivity disorder guidelines for clinical care [draft 4/26/2005 ]. University of Michigan Health System.

(3) American Academy of Pediatrics. Clinical Practice Guideline: Treatment of the School-Aged Child With Attention- Deficit/Hyperactivity Disorder. Pediatrics 2001;108:1033-1044.

(4) Wilens TE, Faraone SV, Biederman J, Gunawardene S. Does stimulant therapy of attention-deficit/hyperactivity disorder beget later substance abuse? A meta-analytic review of the literature. Pediatrics. 2003 Jan;111(1):179-85.

(5) A 14-Month Randomized Clinical Trial of Treatment Strategies for Attention-Deficit/Hyperactivity Disorder. Arch Gen Psychiatry. 1999;56:1073-86.

(6) Fuchs T, Birbaumer N, Lutzenberger W, Gruzelier JH, Kaiser J. Neurofeedback treatment for attention-deficit/hyperactivity disorder in children: a comparison with methylphenidate. Appl Psychophysiol Biofeedback. 2003 Mar;28(1):1-12.

(7) Monastra VJ, Monastra DM, George S. The effects of stimulant therapy, EEG biofeedback, and parenting style on the primary symptoms of attention-deficit/hyperactivity disorder. Appl Psychophysiol Biofeedback. 2002 Dec;27(4):231-49.

(8) Thompson L, Thompson M. Neurofeedback combined with training in metacognitive strategies: effectiveness in students with ADD. Appl Psychophysiol Biofeedback. 1998 Dec;23(4):243-63.

(9) Linden M, Habib T, Radojevic V. A controlled study of the effects of EEG biofeedback on cognition and behavior of children with attention deficit disorder and learning disabilities. Biofeedback Self Regul. 1996 Mar;21(1):35-49.

(10) Lubar JF, Swartwood MO, Swartwood JN, O'Donnell PH. Evaluation of the effectiveness of EEG neurofeedback training for ADHD in a clinical setting as measured by changes in T.O.V.A. scores, behavioral ratings, and WISC-R performance. Biofeedback Self Regul. 1995 Mar;20(1):83-99.

(11) Heinrich H, Gevensleben H, Freisleder FJ, Moll GH, Rothenberger A. Training of slow cortical potentials in attention-deficit/hyperactivity disorder: evidence for positive behavioral and neurophysiological effects. Biol Psychiatry. 2004 Apr 1;55(7):772-5.

(12) Rossiter T. The effectiveness of neurofeedback and stimulant drugs in treating AD/HD: part II. Replication. Appl Psychophysiol Biofeedback. 2004 Dec;29(4):233-43.

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It's called an elimination diet and some people believe that eliminating additives from your ADHD child's diet may improve ADHD symptoms.

People often ask us about information for E Numbers. Below is an extract from a very good source detailing which additives correspond to each of the E numbers.

This may help you decide if there is something you feel that you would like to try to eliminate from your ADHD child's diet. One thing, however, we need to make very clear is that to remove anything from a child's diet can be dangerous or have adverse effects. So we would always encourage that you seek expert advice from a professional before embarking on any form of elimination diet.

This is extracted from the book "E For Additives" about elimination diets

"First, this means cutting out all food and drink containing synthetic colours or flavours, avoiding glutamates, nitrites, nitrates, BHA, BHT and benzoic acid. Second, for the first four to six weeks, foods containing natural salicylates (like aspirin chemically) should be avoided and then re-introduced one at a time to see if they cause problems. Such foods include almonds, apples, apricots, peaches, plums, prunes, oranges, tomatoes, tangerines, cucumbers, most soft fruits, cherries, grapes and raisins.

The additives that are recommended should be avoided are:

• E102 Tartrazine
• E104 Quinoline Yellow
• E107 Yellow 2G
• E110 Sunset Yellow FCF
• E120 Cochineal
• E122 Carmoisine
• E125 Amaranth
• E124 Ponceau 4R
• E127 Erythrosine
• E128 Red 2G
• E132 Indigo Carmine
• E135 Brilliant blue FCF
• E150 Caramel
• E151 Black PN
• E154 Brown FK
• E155 Brown HT
• El60(b) Annatto
• E210 Benzoic Acid
• E211 Sodium benzoate
• E220 Sulphur dioxide
• E250 Sodium nitrate
• E251 Sodium nitrate
• E320 Butylated hydroxyanisole
• E321 Butylated hydroxytoluene

Plus another antioxidant preservative not used in the UK TBHQ (Monotertiary butylhydroxylquinone)

Additives which are either dangerous to asthmatics or aspirin-sensitive people, and could reasonably be added to the listing, or should not be used in food intended for babies or young children are:

• E212 Potassium benzoate
• E213 Calcium benzoate
• E214 Ethyl 4-hydroxybenzoate
• E215 Ethyl 4-hydroxybenzoate, sodium salt
• E216 Propyi 4-hydroxybenzoate
• E217 Propyi 4-hydroxybenzoate, sodium salt
• E218 Methyl 4-hydroxybenzoate
• E219 Methyl 4-hydroxybenzoate, sodium salt
• E310 Propyl gallate
• E311 Octyl gallate
• E312 Dodecyl gallate
• E621 Sodium hydron L-glutamate (monoSodium glutamate)
• E622 Potassium hydrogen L-glutamate (monoPotassium glutamate)
• E623 Calcium dihydrogen di-L-glutamate (calcium glutamate)
• E627 Guanosine 5'-(diSodium phosphate)
• E631 Inosine 5'-(diSodium phosphate)
• E635 Sodium 5'-ribonucleotide

Source: "E for Additives" by Maurice Hanssen with Jill Marsden"

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Aricept is a anticholinesterase medication used in the treatment of Alzheimer's Disease. Detailed info on usage, dosage, side-effects of Aricept.

Brand Name: Aricept®
Generic Name: Donepezil Hydrochloride

Aricept (Donepezil Hydrochloride) is an Anticholinesterase medication used in treatment of Alzheimer's Disease. Detailed info on uses, dosage and side-effects of Aricept below.

Contents:

Description
Pharmacology
Indications and Usage
Contraindications
Warnings
Precautions
Drug Interactions
Adverse Reactions
Overdose
Dosage
Supplied

Aricept patient information (in plain English)

Description

ARICEPT® (donepezil hydrochloride) is a reversible inhibitor of the enzyme acetylcholinesterase, known chemically as ( ±)-2,3-dihydro-5,6-dimethoxy-2-[[1-(phenylmethyl)-4-piperidinyl]methyl]-1H-inden-1-one hydrochloride. Donepezil hydrochloride is commonly referred to in the pharmacological literature as E2020. It has an empirical formula of C24H29NO3HCl and a molecular weight of 415.96. Donepezil hydrochloride is a white crystalline powder and is freely soluble in chloroform, soluble in water and in glacial acetic acid, slightly soluble in ethanol and in acetonitrile and practically insoluble in ethyl acetate and in n-hexane.

ARICEPT® is available for oral administration in film-coated tablets containing 5 or 10 mg of donepezil hydrochloride. Inactive ingredients are lactose monohydrate, corn starch, microcrystalline cellulose, hydroxypropyl cellulose, and magnesium stearate. The film coating contains talc, polyethylene glycol, hypromellose and titanium dioxide. Additionally, the 10 mg tablet contains yellow iron oxide (synthetic) as a coloring agent.

ARICEPT® ODT tablets are available for oral administration. Each ARICEPT® ODT tablet contains 5 or 10 mg of donepezil hydrochloride. Inactive ingredients are carrageenan, mannitel, colloidal silicon dioxide and polyvinyl alcohol. Additionally, the 10 mg tablet contains ferric oxide (yellow) as a coloring agent.

Clinical Pharmacology

Current theories on the pathogenesis of the cognitive signs and symptoms of Alzheimer's Disease attribute some of them to a deficiency of cholinergic neurotransmission.

Donepezil hydrochloride is postulated to exert its therapeutic effect by enhancing cholinergic function. This is accomplished by increasing the concentration of acetylcholine through reversible inhibition of its hydrolysis by acetylcholinesterase. If this proposed mechanism of action is correct, donepezil's effect may lessen as the disease process advances and fewer cholinergic neurons remain functionally intact. There is no evidence that donepezil alters the course of the underlying dementing process.

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Clinical Trial Data

The effectiveness of ARICEPT® as a treatment for Alzheimer's Disease is demonstrated by the results of two randomized, double-blind, placebo-controlled clinical investigations in patients with Alzheimer's Disease (diagnosed by NINCDS and DSM III-R criteria, Mini-Mental State Examination ≥ 10 and ≤ 26 and Clinical Dementia Rating of 1 or 2). The mean age of patients participating in ARICEPT® trials was 73 years with a range of 50 to 94. Approximately 62% of patients were women and 38% were men. The racial distribution was white 95%, black 3% and other races 2%.

Study Outcome Measures: In each study, the effectiveness of treatment with ARICEPT® was evaluated using a dual outcome assessment strategy.

The ability of ARICEPT® to improve cognitive performance was assessed with the cognitive subscale of the Alzheimer's Disease Assessment Scale (ADAS-cog), a multi-item instrument that has been extensively validated in longitudinal cohorts of Alzheimer's Disease patients. The ADAS-cog examines selected aspects of cognitive performance including elements of memory, orientation, attention, reasoning, language and praxis. The ADAS-cog scoring range is from 0 to 70, with higher scores indicating greater cognitive impairment. Elderly normal adults may score as low as 0 or 1, but it is not unusual for non-demented adults to score slightly higher.

The patients recruited as participants in each study had mean scores on the Alzheimer's Disease Assessment Scale (ADAS-cog) of approximately 26 units, with a range from 4 to 61. Experience gained in longitudinal studies of ambulatory patients with mild to moderate Alzheimer's Disease suggest that they gain 6 to 12 units a year on the ADAS-cog. However, lesser degrees of change are seen in patients with very mild or very advanced disease because the ADAS-cog is not uniformly sensitive to change over the course of the disease. The annualized rate of decline in the placebo patients participating in ARICEPT® trials was approximately 2 to 4 units per year.

The ability of ARICEPT® to produce an overall clinical effect was assessed using a Clinician's Interview Based Impression of Change that required the use of caregiver information, the CIBIC plus. The CIBIC plus is not a single instrument and is not a standardized instrument like the ADAS-cog. Clinical trials for investigational drugs have used a variety of CIBIC formats, each different in terms of depth and structure.

As such, results from a CIBIC plus reflect clinical experience from the trial or trials in which it was used and cannot be compared directly with the results of CIBIC plus evaluations from other clinical trials. The CIBIC plus used in ARICEPT® trials was a semi-structured instrument that was intended to examine four major areas of patient function: General, Cognitive, Behavioral and Activities of Daily Living. It represents the assessment of a skilled clinician based upon his/her observations at an interview with the patient, in combination with information supplied by a caregiver familiar with the behavior of the patient over the interval rated. The CIBIC plus is scored as a seven point categorical rating, ranging from a score of 1, indicating "markedly improved," to a score of 4, indicating "no change" to a score of 7, indicating "markedly worse." The CIBIC plus has not been systematically compared directly to assessments not using information from caregivers (CIBIC) or other global methods.

Thirty-Week Study

In a study of 30 weeks duration, 473 patients were randomized to receive single daily doses of placebo, 5 mg/day or 10 mg/day of ARICEPT®. The 30-week study was divided into a 24-week double-blind active treatment phase followed by a 6-week single-blind placebo washout period. The study was designed to compare 5 mg/day or 10 mg/day fixed doses of ARICEPT® to placebo. However, to reduce the likelihood of cholinergic effects, the 10 mg/day treatment was started following an initial 7-day treatment with 5 mg/day doses.

Effects on the ADAS-cog: Figure 1 illustrates the time course for the change from baseline in ADAS-cog scores for all three dose groups over the 30 weeks of the study. After 24 weeks of treatment, the mean differences in the ADAS-cog change scores for ARICEPT® treated patients compared to the patients on placebo were 2.8 and 3.1 units for the 5 mg/day and 10 mg/day treatments, respectively. These differences were statistically significant. While the treatment effect size may appear to be slightly greater for the 10 mg/day treatment, there was no statistically significant difference between the two active treatments.

Following 6 weeks of placebo washout, scores on the ADAS-cog for both the ARICEPT® treatment groups were indistinguishable from those patients who had received only placebo for 30 weeks. This suggests that the beneficial effects of ARICEPT® abate over 6 weeks following discontinuation of treatment and do not represent a change in the underlying disease. There was no evidence of a rebound effect 6 weeks after abrupt discontinuation of therapy.

Figure 2 illustrates the cumulative percentages of patients from each of the three treatment groups who had attained the measure of improvement in ADAS-cog score shown on the X axis. Three change scores, (7-point and 4-point reductions from baseline or no change in score) have been identified for illustrative purposes and the percent of patients in each group achieving that result is shown in the inset table.

The curves demonstrate that both patients assigned to placebo and ARICEPT® have a wide range of responses, but that the active treatment groups are more likely to show the greater improvements. A curve for an effective treatment would be shifted to the left of the curve for placebo, while an ineffective or deleterious treatment would be superimposed upon or shifted to the right of the curve for placebo, respectively.

Effects on the CIBIC plus: Figure 3 is a histogram of the frequency distribution of CIBIC plus scores attained by patients assigned to each of the three treatment groups who completed 24 weeks of treatment. The mean drug-placebo differences for these groups of patients were 0.35 units and 0.39 units for 5 mg/day and 10 mg/day of ARICEPT®, respectively. These differences were statistically significant. There was no statistically significant difference between the two active treatments.

Fifteen-Week Study

In a study of 15 weeks duration, patients were randomized to receive single daily doses of placebo or either 5 mg/day or 10 mg/day of ARICEPT® for 12 weeks, followed by a 3-week placebo washout period. As in the 30-week study, to avoid acute cholinergic effects, the 10 mg/day treatment followed an initial 7-day treatment with 5 mg/day doses.

Effects on the ADAS-Cog: Figure 4 illustrates the time course of the change from baseline in ADAS-cog scores for all three dose groups over the 15 weeks of the study. After 12 weeks of treatment, the differences in mean ADAS-cog change scores for the ARICEPT® treated patients compared to the patients on placebo were 2.7 and 3.0 units each, for the 5 and 10 mg/day ARICEPT® treatment groups respectively. These differences were statistically significant. The effect size for the 10 mg/day group may appear to be slightly larger than that for 5 mg/day. However, the differences between active treatments were not statistically significant.

Following 3 weeks of placebo washout, scores on the ADAS-cog for both the ARICEPT® treatment groups increased, indicating that discontinuation of ARICEPT® resulted in a loss of its treatment effect. The duration of this placebo washout period was not sufficient to characterize the rate of loss of the treatment effect, but, the 30-week study (see above) demonstrated that treatment effects associated with the use of ARICEPT® abate within 6 weeks of treatment discontinuation.

Figure 5 illustrates the cumulative percentages of patients from each of the three treatment groups who attained the measure of improvement in ADAS-cog score shown on the X axis. The same three change scores, (7-point and 4-point reductions from baseline or no change in score) as selected for the 30-week study have been used for this illustration. The percentages of patients achieving those results are shown in the inset table.

As observed in the 30-week study, the curves demonstrate that patients assigned to either placebo or to ARICEPT® have a wide range of responses, but that the ARICEPT® treated patients are more likely to show the greater improvements in cognitive performance.

Effects on the CIBIC plus: Figure 6 is a histogram of the frequency distribution of CIBIC plus scores attained by patients assigned to each of the three treatment groups who completed 12 weeks of treatment. The differences in mean scores for ARICEPT® treated patients compared to the patients on placebo at Week 12 were 0.36 and 0.38 units for the 5 mg/day and 10 mg/day treatment groups, respectively. These differences were statistically significant.

In both studies, patient age, sex and race were not found to predict the clinical outcome of ARICEPT® treatment.

Clinical Pharmacokinetics

ARICEPT® ODT is bioequivalent to ARICEPT® Tablets. Donepezil is well absorbed with a relative oral bioavailability of 100% and reaches peak plasma concentrations in 3 to 4 hours. Pharmacokinetics are linear over a dose range of 1-10 mg given once daily. Neither food nor time of administration (morning vs. evening dose) influences the rate or extent of absorption of ARICEPT® Tablets. A food effect study has not been conducted with ARICEPT® ODT, however, the effect of food with ARICEPT® ODT is expected to be minimal. ARICEPT® ODT can be taken without regard to meals.

The elimination half life of donepezil is about 70 hours and the mean apparent plasma clearance (Cl/F) is 0.13 L/hr/kg. Following multiple dose administration, donepezil accumulates in plasma by 4-7 fold and steady state is reached within 15 days. The steady state volume of distribution is 12 L/kg. Donepezil is approximately 96% bound to human plasma proteins, mainly to albumins (about 75%) and alpha1 - acid glycoprotein (about 21%) over the concentration range of 2-1000 ng/mL.

Donepezil is both excreted in the urine intact and extensively metabolized to four major metabolites, two of which are known to be active, and a number of minor metabolites, not all of which have been identified. Donepezil is metabolized by CYP 450 isoenzymes 2D6 and 3A4 and undergoes glucuronidation. Following administration of 14C-labeled donepezil, plasma radioactivity, expressed as a percent of the administered dose, was present primarily as intact donepezil (53%) and as 6-O-desmethyl donepezil (11%), which has been reported to inhibit AChE to the same extent as donepezil in vitro and was found in plasma at concentrations equal to about 20% of donepezil. Approximately 57% and 15% of the total radioactivity was recovered in urine and feces, respectively, over a period of 10 days, while 28% remained unrecovered, with about 17% of the donepezil dose recovered in the urine as unchanged drug.

Special Populations:

Hepatic Disease: In a study of 11 patients with stable alcoholic cirrhosis, the clearance of ARICEPT® was decreased by 20% relative to 11 healthy age and sex matched subjects.

Renal Disease: In a study of 11 patients with moderate to severe renal impairment (ClCr < 18 mL/min/1.73 m2) the clearance of ARICEPT® did not differ from 11 age and sex matched healthy subjects.

Age: No formal pharmacokinetic study was conducted to examine age related differences in the pharmacokinetics of ARICEPT®. However, mean plasma ARICEPT® concentrations measured during therapeutic drug monitoring of elderly patients with Alzheimer's Disease are comparable to those observed in young healthy volunteers.

Gender and Race: No specific pharmacokinetic study was conducted to investigate the effects of gender and race on the disposition of ARICEPT®. However, retrospective pharmacokinetic analysis indicates that gender and race (Japanese and Caucasians) did not affect the clearance of ARICEPT®.

Drug Interactions

Drugs Highly Bound to Plasma Proteins: Drug displacement studies have been performed in vitro between this highly bound drug (96%) and other drugs such as furosemide, digoxin, and warfarin. ARICEPT® at concentrations of 0.3-10 mg/mL did not affect the binding of furosemide (5 mg/mL), digoxin (2 ng/mL), and warfarin (3 mg/mL) to human albumin. Similarly, the binding of ARICEPT® to human albumin was not affected by furosemide, digoxin and warfarin.

Effect of ARICEPT® on the Metabolism of Other Drugs: No in vivo clinical trials have investigated the effect of ARICEPT® on the clearance of drugs metabolized by CYP 3A4 (e.g. cisapride, terfenadine) or by CYP 2D6 (e.g. imipramine). However, in vitro studies show a low rate of binding to these enzymes (mean Ki about 50-130 mM), that, given the therapeutic plasma concentrations of donepezil (164 nM), indicates little likelihood of interference.

Whether ARICEPT® has any potential for enzyme induction is not known.

Formal pharmacokinetic studies evaluated the potential of ARICEPT® for interaction with theophylline, cimetidine, warfarin, digoxin and ketoconazole. No effects of ARICEPT® on the pharmacokinetics of these drugs were observed.

Effect of Other Drugs on the Metabolism of ARICEPT®: Ketoconazole and quinidine, inhibitors of CYP450, 3A4 and 2D6, respectively, inhibit donepezil metabolism in vitro. Whether there is a clinical effect of quinidine is not known. In a 7-day crossover study in 18 healthy volunteers, ketoconazole (200 mg q.d.) increased mean donepezil (5 mg q.d.) concentration (AUC0-24 and Cmax) by 36%. The clinical relevance of this increase in concentration is unknown.

Inducers of CYP 2D6 and CYP 3A4 (e.g., phenytoin, carbamazepine, dexamethasone, rifampin, and phenobarbital) could increase the rate of elimination of ARICEPT®.

Formal pharmacokinetic studies demonstrated that the metabolism of ARICEPT® is not significantly affected by concurrent administration of digoxin or cimetidine.

Indications and Usage

ARICEPT® is indicated for the treatment of mild to moderate dementia of the Alzheimer's type.

Contraindications

ARICEPT® is contraindicated in patients with known hypersensitivity to donepezil hydrochloride or to piperidine derivatives.

Warnings

Anesthesia: ARICEPT®, as a cholinesterase inhibitor, is likely to exaggerate succinylcholine-type muscle relaxation during anesthesia.

Cardiovascular Conditions: Because of their pharmacological action, cholinesterase inhibitors may have vagotonic effects on the sinoatrial and atrioventricular nodes. This effect may manifest as bradycardia or heart block in patients both with and without known underlying cardiac conduction abnormalities. Syncopal episodes have been reported in association with the use of ARICEPT®.

Gastrointestinal Conditions: Through their primary action, cholinesterase inhibitors may be expected to increase gastric acid secretion due to increased cholinergic activity. Therefore, patients should be monitored closely for symptoms of active or occult gastrointestinal bleeding, especially those at increased risk for developing ulcers, e.g., those with a history of ulcer disease or those receiving concurrent nonsteroidal anti-inflammatory drugs (NSAIDS). Clinical studies of ARICEPT® have shown no increase, relative to placebo, in the incidence of either peptic ulcer disease or gastrointestinal bleeding.

ARICEPT®, as a predictable consequence of its pharmacological properties, has been shown to produce diarrhea, nausea and vomiting. These effects, when they occur, appear more frequently with the 10 mg/day dose than with the 5 mg/day dose. In most cases, these effects have been mild and transient, sometimes lasting one to three weeks, and have resolved during continued use of ARICEPT®.

Genitourinary: Although not observed in clinical trials of ARICEPT®, cholinomimetics may cause bladder outflow obstruction.

Neurological Conditions: Seizures: Cholinomimetics are believed to have some potential to cause generalized convulsions. However, seizure activity also may be a manifestation of Alzheimer's Disease.

Pulmonary Conditions: Because of their cholinomimetic actions, cholinesterase inhibitors should be prescribed with care to patients with a history of asthma or obstructive pulmonary disease.

Precautions

Drug-Drug Interactions (see Clinical Pharmacology: Clinical Pharmacokinetics: Drug-drug Interactions)

Effect of ARICEPT® on the Metabolism of Other Drugs: No in vivo clinical trials have investigated the effect of ARICEPT® on the clearance of drugs metabolized by CYP 3A4 (e.g. cisapride, terfenadine) or by CYP 2D6 (e.g. imipramine). However, in vitro studies show a low rate of binding to these enzymes (mean Ki about 50-130 mM), that, given the therapeutic plasma concentrations of donepezil (164 nM), indicates little likelihood of interference.

Whether ARICEPT® has any potential for enzyme induction is not known.

Formal pharmacokinetic studies evaluated the potential of ARICEPT® for interaction with theophylline, cimetidine, warfarin, digoxin and ketoconazole. No effects of ARICEPT® on the pharmacokinetics of these drugs were observed.

Effect of Other Drugs on the Metabolism of ARICEPT®: Ketoconazole and quinidine, inhibitors of CYP450, 3A4 and 2D6, respectively, inhibit donepezil metabolism in vitro. Whether there is a clinical effect of quinidine is not known. In a 7-day crossover study in 18 healthy volunteers, ketoconazole (200mg q.d.) increased mean donepezil (5mg q.d.) concentrations (AUC0-24 and Cmax) by 36%. The clinical relevance of this increase in concentration is unknown.

Inducers of CYP 2D6 and CYP 3A4 (e.g., phenytoin, carbamazepine, dexamethasone, rifampin, and phenobarbital) could increase the rate of elimination of ARICEPT®.

Formal pharmacokinetic studies demonstrated that the metabolism of ARICEPT® is not significantly affected by concurrent administration of digoxin or cimetidine.

Use with Anticholinergics: Because of their mechanism of action, cholinesterase inhibitors have the potential to interfere with the activity of anticholinergic medications.

Use with Cholinomimetics and Other Cholinesterase Inhibitors: A synergistic effect may be expected when cholinesterase inhibitors are given concurrently with succinylcholine, similar neuromuscular blocking agents or cholinergic agonists such as bethanechol.

Carcinogenesis, Mutagenesis, Impairment of Fertility

No evidence of a carcinogenic potential was obtained in an 88-week carcinogenicity study of donepezil hydrochloride conducted in CD-1 mice at doses up to 180 mg/kg/day (approximately 90 times the maximum recommended human dose on a mg/m2 basis), or in a 104-week carcinogenicity study in Sprague-Dawley rats at doses up to 30mg/kg/day (approximately 30 times the maximum recommended human dose on a mg/m2 basis).

Donepezil was not mutagenic in the Ames reverse mutation assay in bacteria, or in a mouse lymphoma forward mutation assay in vitro. In the chromosome aberration test in cultures of Chinese hamster lung (CHL) cells, some clastogenic effects were observed. Donepezil was not clastogenic in the in vivo mouse micronucleus test and was not genotoxic in an in vivo unscheduled DNA synthesis assay in rats.

Donepezil had no effect on fertility in rats at doses up to 10 mg/kg/day (approximately 8 times the maximum recommended human dose on a mg/m2 basis).

Pregnancy

Pregnancy Category C: Teratology studies conducted in pregnant rats at doses up to 16 mg/kg/day (approximately 13 times the maximum recommended human dose on a mg/m2 basis) and in pregnant rabbits at doses up to 10 mg/kg/day (approximately 16 times the maximum recommended human dose on a mg/m2 basis) did not disclose any evidence for a teratogenic potential of donepezil. However, in a study in which pregnant rats were given up to 10 mg/kg/day (approximately 8 times the maximum recommended human dose on a mg/m2 basis) from day 17 of gestation through day 20 postpartum, there was a slight increase in still births and a slight decrease in pup survival through day 4 postpartum at this dose; the next lower dose tested was 3 mg/kg/day. There are no adequate or well-controlled studies in pregnant women. ARICEPT® should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.

Nursing Mothers

It is not known whether donepezil is excreted in human breast milk. ARICEPT® has no indication for use in nursing mothers.

Pediatric Use

There are no adequate and well-controlled trials to document the safety and efficacy of ARICEPT® in any illness occurring in children.

Geriatric Use

Alzheimer's disease is a disorder occurring primarily in individuals over 55 years of age. The mean age of patients enrolled in the clinical studies with ARICEPT® was 73 years; 80% of these patients were between 65 and 84 years old and 49% of patients were at or above the age of 75. The efficacy and safety data presented in the clinical trials section were obtained from these patients. There were no clinically significant differences in most adverse events reported by patient groups ≥ 65 years old and < 65 years old.

Adverse Reactions

Adverse Events Leading to Discontinuation

The rates of discontinuation from controlled clinical trials of ARICEPT® due to adverse events for the ARICEPT 5 mg/day treatment groups were comparable to those of placebo-treatment groups at approximately 5%. The rate of discontinuation of patients who received 7-day escalations from 5 mg/day to 10 mg/day, was higher at 13%.

The most common adverse events leading to discontinuation, defined as those occurring in at least 2% of patients and at twice the incidence seen in placebo patients, are shown in Table 1.

Table 1. Most Frequent Adverse Events Leading to Withdrawal from Controlled Clinical Trials by Dose Group
Dose Group	Placebo	5 mg/day ARICEPT®	10 mg/day ARICEPT®
Patients Randomized	355	350	315
Event/%Discontinuing
Nausea	1%	1%	3%
Diarrhea	0%	<1%	3%
Vomiting	<1%	<1%	2%

Most Frequent Adverse Clinical Events Seen in Association with the Use of ARICEPT®

The most common adverse events, defined as those occurring at a frequency of at least 5% in patients receiving 10 mg/day and twice the placebo rate, are largely predicted by ARICEPT®'s cholinomimetic effects. These include nausea, diarrhea, insomnia, vomiting, muscle cramp, fatigue and anorexia. These adverse events were often of mild intensity and transient, resolving during continued ARICEPT® treatment without the need for dose modification.

There is evidence to suggest that the frequency of these common adverse events may be affected by the rate of titration. An open-label study was conducted with 269 patients who received placebo in the 15 and 30-week studies. These patients were titrated to a dose of 10 mg/day over a 6-week period. The rates of common adverse events were lower than those seen in patients titrated to 10 mg/day over one week in the controlled clinical trials and were comparable to those seen in patients on 5 mg/day.

See Table 2 for a comparison of the most common adverse events following one and six week titration regimens.

Table 2. Comparison of rates of adverse events in patients titrated to 10 mg/day over 1 and 6 weeks
	No titration		One week titration	Six week titration
Adverse Event	Placebo (n=315)	5 mg/day (n=311)	10 mg/day (n=315)		10 mg/day (n=269)
Nausea	6%	5%	19%		6%
Diarrhea	5%	8%	15%		9%
Insomnia	6%	6%	14%		6%
Fatigue	3%	4%	8%		3%
Vomiting	3%	3%	8%		5%
Muscle cramps	2%	6%	8%		3%
Anorexia	2%	3%	7%		3%

Adverse Events Reported in Controlled Trials

The events cited reflect experience gained under closely monitored conditions of clinical trials in a highly selected patient population. In actual clinical practice or in other clinical trials, these frequency estimates may not apply, as the conditions of use, reporting behavior, and the kinds of patients treated may differ. Table 3 lists treatment emergent signs and symptoms that were reported in at least 2% of patients in placebo-controlled trials who received ARICEPT® and for which the rate of occurrence was greater for ARICEPT® assigned than placebo-assigned patients. In general, adverse events occurred more frequently in female patients and with advancing age.

Table 3. Adverse Events Reported in Controlled Clinical Trials in at Least 2% of Patients Receiving ARICEPT® and at a Higher Frequencythan Placebo-treated Patients
Body System/Adverse Event	Placebo (n=355)	ARICEPT® (n=747)
Percent of Patients with any Adverse Event	72	74
Body as a Whole
Headache	9	10
Pain, various locations	8	9
Accident	6	7
Fatigue	3	5
Cardiovascular System
Syncope	1	2
Digestive System
Nausea	6	11
Diarrhea	5	10
Vomiting	3	5
Anorexia	2	4
Hemic and Lymphatic System
Ecchymosis	3	4
Metabolic and Nutritional Systems
Weight Decrease	1	3
Musculoskeletal System
Muscle Cramps	2	6
Arthritis	1	2
Nervous System
Insomnia	6	9
Dizziness	6	8
Depression	<1	3
Abnormal Dreams	0	3
Somnolence	<1	2
Urogenital System
Frequent Urination	1	2

Other Adverse Events Observed During Clinical Trials

ARICEPT® has been administered to over 1700 individuals during clinical trials worldwide. Approximately 1200 of these patients have been treated for at least 3 months and more than 1000 patients have been treated for at least 6 months. Controlled and uncontrolled trials in the United States included approximately 900 patients. In regards to the highest dose of 10 mg/day, this population includes 650 patients treated for 3 months, 475 patients treated for 6 months and 116 patients treated for over 1 year. The range of patient exposure is from 1 to 1214 days.

Treatment emergent signs and symptoms that occurred during 3 controlled clinical trials and two open-label trials in the United States were recorded as adverse events by the clinical investigators using terminology of their own choosing. To provide an overall estimate of the proportion of individuals having similar types of events, the events were grouped into a smaller number of standardized categories using a modified COSTART dictionary and event frequencies were calculated across all studies. These categories are used in the listing below. The frequencies represent the proportion of 900 patients from these trials who experienced that event while receiving ARICEPT®. All adverse events occurring at least twice are included, except for those already listed in Tables 2 or 3, COSTART terms too general to be informative, or events less likely to be drug caused. Events are classified by body system and listed using the following definitions: frequent adverse events - those occurring in 1/100 patients; infrequent adverse events - those occurring in 1/100 to 1/1000 patients. These adverse events are not necessarily related to ARICEPT® treatment and in most cases were observed at a similar frequency in placebo-treated patients in the controlled studies. No important additional adverse events were seen in studies conducted outside the United States.

Body as a Whole: Frequent: influenza, chest pain, toothache; Infrequent: fever, edema face, periorbital edema, hernia hiatal, abscess, cellulitis, chills, generalized coldness, head fullness, listlessness.

Cardiovascular System: Frequent: hypertension, vasodilation, atrial fibrillation, hot flashes, hypotension; Infrequent: angina pectoris, postural hypotension, myocardial infarction, AV block (first degree), congestive heart failure, arteritis, bradycardia, peripheral vascular disease, supraventricular tachycardia, deep vein thrombosis.

Digestive System: Frequent: fecal incontinence, gastrointestinal bleeding, bloating, epigastric pain; Infrequent: eructation, gingivitis, increased appetite, flatulence, periodontal abscess, cholelithiasis, diverticulitis, drooling, dry mouth, fever sore, gastritis, irritable colon, tongue edema, epigastric distress, gastroenteritis, increased transaminases, hemorrhoids, ileus, increased thirst, jaundice, melena, polydipsia, duodenal ulcer, stomach ulcer.

Endocrine System: Infrequent: diabetes mellitus, goiter.

Hemic and Lymphatic System: Infrequent: anemia, thrombocythemia, thrombocytopenia, eosinophilia, erythrocytopenia.

Metabolic and Nutritional Disorders: Frequent: dehydration; Infrequent: gout, hypokalemia, increased creatine kinase, hyperglycemia, weight increase, increased lactate dehydrogenase.

Musculoskeletal System: Frequent: bone fracture; Infrequent: muscle weakness, muscle fasciculation.

Nervous System: Frequent: delusions, tremor, irritability, paresthesia, aggression, vertigo, ataxia, increased libido, restlessness, abnormal crying, nervousness, aphasia; Infrequent: cerebrovascular accident, intracranial hemorrhage, transient ischemic attack, emotional lability, neuralgia, coldness (localized), muscle spasm, dysphoria, gait abnormality, hypertonia, hypokinesia, neurodermatitis, numbness (localized), paranoia, dysarthria, dysphasia, hostility, decreased libido, melancholia, emotional withdrawal, nystagmus, pacing.

Respiratory System: Frequent: dyspnea, sore throat, bronchitis; Infrequent: epistaxis, post nasal drip, pneumonia, hyperventilation, pulmonary congestion, wheezing, hypoxia, pharyngitis, pleurisy, pulmonary collapse, sleep apnea, snoring.

Skin and Appendages: Frequent: pruritus, diaphoresis, urticaria; Infrequent: dermatitis, erythema, skin discoloration, hyperkeratosis, alopecia, fungal dermatitis, herpes zoster, hirsutism, skin striae, night sweats, skin ulcer.

Special Senses: Frequent: cataract, eye irritation, vision blurred; Infrequent: dry eyes, glaucoma, earache, tinnitus, blepharitis, decreased hearing, retinal hemorrhage, otitis externa, otitis media, bad taste, conjunctival hemorrhage, ear buzzing, motion sickness, spots before eyes.

Urogenital System: Frequent: urinary incontinence, nocturia; Infrequent: dysuria, hematuria, urinary urgency, metrorrhagia, cystitis, enuresis, prostate hypertrophy, pyelonephritis, inability to empty bladder, breast fibroadenosis, fibrocystic breast, mastitis, pyuria, renal failure, vaginitis.

Postintroduction Reports

Voluntary reports of adverse events temporally associated with ARICEPT® that have been received since market introduction that are not listed above, and that there is inadequate data to determine the causal relationship with the drug include the following: abdominal pain, agitation, cholecystitis, confusion, convulsions, hallucinations, heart block (all types), hemolytic anemia, hepatitis, hyponatremia, neuroleptic malignant syndrome, pancreatitis, and rash.

Overdose

Because strategies for the management of overdose are continually evolving, it is advisable to contact a Poison Control Center to determine the latest recommendations for the management of an overdose of any drug.

As in any case of overdose, general supportive measures should be utilized. Overdosage with cholinesterase inhibitors can result in cholinergic crisis characterized by severe nausea, vomiting, salivation, sweating, bradycardia, hypotension, respiratory depression, collapse and convulsions. Increasing muscle weakness is a possibility and may result in death if respiratory muscles are involved. Tertiary anticholinergics such as atropine may be used as an antidote for ARICEPT® overdosage. Intravenous atropine sulfate titrated to effect is recommended: an initial dose of 1.0 to 2.0 mg IV with subsequent doses based upon clinical response. Atypical responses in blood pressure and heart rate have been reported with other cholinomimetics when co-administered with quaternary anticholinergics such as glycopyrrolate. It is not known whether ARICEPT® and/or its metabolites can be removed by dialysis (hemodialysis, peritoneal dialysis, or hemofiltration).

Dose-related signs of toxicity in animals included reduced spontaneous movement, prone position, staggering gait, lacrimation, clonic convulsions, depressed respiration, salivation, miosis, tremors, fasciculation and lower body surface temperature.

Dosage and Administration

The dosages of ARICEPT® shown to be effective in controlled clinical trials are 5 mg and 10 mg administered once per day.

The higher dose of 10 mg did not provide a statistically significantly greater clinical benefit than 5 mg. There is a suggestion, however, based upon order of group mean scores and dose trend analyses of data from these clinical trials, that a daily dose of 10 mg of ARICEPT® might provide additional benefit for some patients. Accordingly, whether or not to employ a dose of 10 mg is a matter of prescriber and patient preference.

Evidence from the controlled trials indicates that the 10 mg dose, with a one week titration, is likely to be associated with a higher incidence of cholinergic adverse events than the 5 mg dose. In open label trials using a 6 week titration, the frequency of these same adverse events was similar between the 5 mg and 10 mg dose groups. Therefore, because steady state is not achieved for 15 days and because the incidence of untoward effects may be influenced by the rate of dose escalation, treatment with a dose of 10 mg should not be contemplated until patients have been on a daily dose of 5 mg for 4 to 6 weeks.

ARICEPT® should be taken in the evening, just prior to retiring. ARICEPT® can be taken with or without food.

Allow ARICEPT® ODT tablet to dissolve on the tongue and follow with water.

How Supplied

ARICEPT® is supplied as film-coated, round tablets containing either 5 mg or 10 mg of donepezil hydrochloride.

The 5 mg tablets are white. The strength, in mg (5), is debossed on one side and ARICEPT is debossed on the other side.

The 10 mg tablets are yellow. The strength, in mg (10), is debossed on one side and ARICEPT is debossed on the other side.

5 mg (White)
Bottles of 30 (NDC# 62856-245-30)
Bottles of 90 (NDC# 62856-245-90)
Unit Dose Blister Package 100 (10x10) (NDC# 62856-245-41)

10 mg (Yellow)
Bottles of 30 (NDC# 62856-246-30)
Bottles of 90 (NDC# 62856-246-90)
Unit Dose Blister Package 100 (10x10) (NDC# 62856-246-41)

ARICEPT® ODT is supplied as tablets containing either 5mg or 10mg of donepezil hydrochloride.

The 5 mg orally disintegrating tablets are white. The strength, in mg (5), is embossed on one side and ARICEPT is embossed on the other side.

The 10 mg orally disintegrating tablets are yellow. The strength, in mg (10), is embossed on one side and ARICEPT is embossed on the other side.

5 mg (White)
Unit Dose Blister Package 30 (10x3) (NDC# 62856-831-30)

10 mg (Yellow)
Unit Dose Blister Package 30 (10x3) (NDC# 62856-832-30)

Storage: Store at controlled room temperature, 15°C to 30°C (59°F to 86°F).

RX only

ARICEPT® is a registered trademark of
Eisai Co., Ltd.
Manufactured and Marketed by Eisai Inc., Teaneck, NJ 07666
Marketed by Pfizer Inc., New York, NY 10017

ARICEPT® (donepezil HCl) is a registered trademark of Eisai Co., Ltd. Privacy/Legal Notices. Copyright(C) 2000 Eisai Inc. and Pfizer Inc. All rights reserved. ARICEPT® (donepezil HCl) is indicated for the treatment of symptoms of mild to moderate Alzheimer's disease.

ARICEPT® (donepezil HCl) is well tolerated but may not be for everyone. Some people may experience nausea, diarrhea, insomnia, vomiting, muscle cramps, fatigue or loss of appetite. In studies, these side effects were usually mild and temporary. Some people taking ARICEPT® (donepezil HCl) may experience fainting. People at risk for ulcers should tell their doctors because their condition may get worse.

This web site may contain information relating to various medical conditions and their treatment. Such information is provided for educational purposes only and is not meant to be a substitute for the advice of a physician or other health care professional. You should not use this information for diagnosing a health problem or disease. In order for you to make intelligent health care decisions, you should always consult with your physician or other health care provider for your personal medical needs.

Aricept patient information (in plain English)

IMPORTANT: The information in this monograph is not intended to cover all possible uses, directions, precautions, drug interactions or adverse effects. This information is generalized and is not intended as specific medical advice. If you have questions about the medicines you are taking or would like more information, check with your doctor, pharmacist, or nurse. Last updated 11/06.

Source: Pfizer, U.S. distributor of Aricept.

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Essays and Quotes for the Mind and Spirit

"I think maybe needy people are just people who don't feel needed. Well, I say to you: Feel needed. Feel needed because you are." Daniel Quinn

WORDS TO SUCCEED BY:

• "To laugh often and much;
• To win the respect of intelligent peopleand the affection of children;
• to earn the appreciation of honest criticsand endure the betrayal of false friends:
• To appreciate beauty;
• To find the best in others;
• To leave the world a bit better,whether by a healthy child, a garden patchor a redeemed social condition;
• To know even one life has breathed easierbecause you have lived;
• This is to have succeeded."

Written by Ralph Waldo Emerson

TEN LAWS OF WELL-BEING

1. Welcome
2. Engage
3. Learn
4. Laugh
5. Be
6. Express
7. Invent
8. Nurture
9. Give
10. AND LOVE

1.Welcome

Welcome every day that you possibly can as a gift. Take time to appreciate the vast and varied pleasures which make up your life - warm drinks, sunshine, music, the face of a loved one, flowers, inviting scents, a loving touch, a gentle breeze... Take a few moments to breathe deeply and to experience gratitude. Acknowledge the lessons in even painful experiences - for they are often our most powerful teachers.

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2. Engage

Engage in activities that foster emotional, physical, and spiritual well-being. Too often we allow ourselves to get so caught up in the details that we fail to provide ourselves with the necessary ingredients that make up a balanced and meaningful life. When we deprive ourselves of what we truly need, it's easy to begin to perceive life as a struggle rather than a precious journey.

Engage in meaningful contact with others, engage in the moment, and engage all your senses. To engage is to promise, promise yourself the gift of your life.

3. Learn

Life consists of one lesson after another. Pay attention to them when they present themselves, even when it hurts. When we learn - we deepen and empower ourselves, and we expand our horizons. Learning diminishes limits and widens our trail. In general, those who live to learn - live longest.

4. Laugh

Laugh often and loudly. Laughter improves the immune system, relieves stress and lightens burdens.

5. Be

Be where you are this minute, not lost in tomorrow or yesterday. While plans and goals can be important; and reflection may offer wisdom, it's the now that guarantees - only the now that pledges itself to you. The past has left you, the future eludes you, yet the now enfolds you. Embrace it. You're already in its arms, allow it to cradle you.

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6. Express

Express yourself. You're unique, imperfect, wonderful, complicated, and evolving. Allow yourself to be who you are even as you work to grow and change. Don't hide yourself away. Share your feelings and dreams with those who are trustworthy. There's so much of you - plenty to go around, and like all that exists in abundance, if it's not shared, it wastes away.

7. Invent

Life is perhaps the most magical when we choose to create. Create as many meaningful experiences as possible, look at the world with your own unique eyes, recognize and accept your ability and responsibility to shape moments, days - your life. Invent and reinvent your life story - it belongs solely to you, enliven it with spirit.

8. Nurture

Nurture your body, your mind, and your soul. Don't starve them or pollute them. Acknowledge that inside of you there exists an unimaginable world, filled with mystery and magic, one that's vast and complex, magnificent and yet vulnerable. You are truly a work of art, a miracle, honor the world which is you.

9. Give

Give to those that share your world - both the inner and outer inhabitants. Give your body what it requires, give your emotional life what it needs, give your spiritual self what it must have, and give to others what they too deserve.

Care for and share with all of your brothers and sisters. Remind yourself that just as the earth is round and can't be seen from both sides unless you're standing above it, there's also much about the world of others which eludes you, thus making it difficult for you to completely understand, and impossible to judge.

Give freely. Give without expectations. Give to yourself.

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10. Love

Love well and love long. While Love can wound it also heals. Love requires much and offers more.

Written by Tammie Byram Fowles

The Rules for Being Human

"1. You will receive a body. You may like it or hate it, but it's the only thing you are sure to keep for the rest of your life.

2. You will learn lessons. You are enrolled in a full-time informal school called, "Life on Planet Earth."

3. There are no mistakes, only lessons. Growth is a process of experimentation. "Failures" are as much a part of the process as "success."

4. A lesson is repeated until learned. It is presented to you in various forms until you learn it -- then you can go on to the next lesson.

5. If you don't learn easy lessons, they get harder. External problems are a precise reflection of your internal state. When you clear inner obstructions, your outside world changes. Pain is how the universe gets your attention.

6. You will know you've learned a lesson when your actions change. Wisdom is practice. A little of something is better than a lot of nothing.

7. "There" is no better "here." When your "there" becomes a "here" you will simply obtain another "there" that again looks better than "here."

8. Others are only mirrors of you. You cannot love or hate something about another unless it reflects something you love or hate in yourself.

9. Your life is up to you. Life provides the canvas; you do the painting. Take charge of your life -- or someone else will.

10. You always get what you want. Your subconscious rightfully determines what energies, experiences, and people you attract -- therefore, the only foolproof way to know what you want is to see what you have...

11. There is no right or wrong, but there are consequences. Moralizing doesn't help. Judgements only hold the patterns in place. Just do your best.

12. Your answers lie inside you. Children need guidance from others; as we mature, we trust our hearts, where the Laws of Spirit are written. You know more than you have heard or read or been told. All you need to do is to look, listen, and trust.

13. You will forget all this.

14. You can remember any time you wish."

author unknown

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The True Joy of Life:

"This is the true joy of life, the being used for a purpose recognized by yourself as a mighty one; the being a force of nature instead of a feverish selfish little clod of ailment and grievance complaining that the world will not devote itself to making you happy. I am of the opinion that my life belongs to the whole community and as long as I live it is my privilege to do for it what I can. I want to be used up when I die, for the harder I work the more I live, and I rejoice in life for its own sake. Life is no "brief candle" to me. It is a sort of splendid torch which I have got hold of for the moment, and I want to make it burn as brightly as possible before passing it on to future generations."

Written by George Bernard Shaw

On Hope...

Hope is a state of mind, not of the world. Either we have hope or we don't; it is a dimension of the soul, and it's not essentially dependent on some particular observation of the world or estimate of the situation. Hope is not prognostication. It is an orientation of the spirit, and orientation of the heart; it transcends the world that is immediately experienced, and is anchored somewhere beyond its horizons ...Hope, in this deep and powerful sense, is not the same as joy that things are going well, or willingness to invest in enterprises that are obviously heading for success, but rather an ability to work for something because it is good, not just because it stands a chance to succeed. The more propitious the situation in which we demonstrate hope, the deeper the hope is. Hope is definitely not the same thing as optimism. It is not the conviction that something will turn out well, but the certainty that something makes sense, regardless of how it turns out.

Written by Vaclav Havel

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ON GIVING

Then said a rich man, Speak to us of Giving.
And he answered:

You give but little when you give of your
possessions.
It is when you give of yourself that you
truly give.

For what are your possessions but things
you keep and guard
for fear you may need them tomorrow?
And tomorrow, what shall tomorrow
bring to the over prudent dog
burying bones in the trackless sand as he follows the
to the holy city?
And what if fear of need but need itself?
Is not dread of thirst when your well is full,
the thirst that is unquenchable?

There are those who give little
of the much which they have-
and they give it
for recognition and their hidden desire
makes their gifts unwholesome.
And there are those who have little and give it all.
These are the believers in life and the bounty of life,
and their coffer is never empty.
There are those who give with joy,
and their joy is their reward.
And there are those who give with pain,
and that pain is their baptism.
And there are those who give and know not
pain in giving, nor so they seek joy,
nor give with mindfulness of virtue:
They give as in yonder valley the myrtle
breathes its fragrance into space.
Through the hands of such as these God
speaks, and from behind their eyes
He smiles upon the earth.

It is well to give when when asked, but it is
better to give unasked, through understanding:
And to the open-handed the search for
one who shall receive is joy greater than giving.
And is there ought you would withhold?
All you have shall some day be given:
Therefore give now, that the season of
giving may be yours and not your inheritors`.

You often say, "I would give, but only to the deserving."
The trees in your orchard say not so,
nor the flocks in your pasture.
They give that they may live,
for to with-hold is to perish.
Surely he who is worthy to receive his
days and nights, is worthy of all else from you.
And he who has deserved to drink from
the ocean of life deserves to fill his cup from your little stream.
And what desert greater shall there be,
than that, which lies in the courage and the
confidence, nay the charity, of receiving?
And who are you that men should rend
their bosom and unveil their pride,
that you may see their worth naked and their pride unabashed?
See first that you yourself deserve to be
a giver, and an instrument of giving.

For in truth it is life that gives unto life-
while you, who deem yourself a giver are but a witness.

And you receivers- and you are all
receivers- assume no weight of gratitude,
lest you lay a yoke upon
yourself and upon he who gives.
Rather rise together with the giver on his gifts as on wings:
For to be over mindful of your debt, is
to doubt his generosity who has the
free-hearted earth for mother, and God for father

Written by Kahil Gibran

No one person has to do it all but if each one of us follow our heart and our own inclinations we will find the small things that we can do to create a sustainable future and a healthy environment.

John Denver

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Learn about therapeutic touch as a treatment option for anxiety, stress, Alzheimer's dementia and other psychiatric disorders and fibromyalgia pain.

Before engaging in any complementary medical technique, you should be aware that many of these techniques have not been evaluated in scientific studies. Often, only limited information is available about their safety and effectiveness. Each state and each discipline has its own rules about whether practitioners are required to be professionally licensed. If you plan to visit a practitioner, it is recommended that you choose one who is licensed by a recognized national organization and who abides by the organization's standards. It is always best to speak with your primary health care provider before starting any new therapeutic technique.

• Background
• Theory
• Evidence
• Unproven Uses
• Potential Dangers
• Summary
• Resources

Background

Therapeutic touch (TT) was developed by Delores Krieger, R.N., Ph.D., and Dora Kunz, a natural healer, in the early 1970s. Therapeutic touch is a modern adaptation of several religious and secular healing traditions and is most commonly used in nursing practice for a wide range of health conditions.

When administering treatment, therapeutic touch practitioners hold their hands a short distance from a patient, without making physical contact. This technique is believed to help detect a patient's energy field and allows the practitioner to correct any imbalances. A standardized technique is taught by Nurse Healers - Professional Associates, Inc., the primary training organization for therapeutic touch. The treatment protocol consists of a sequence of four steps:

• Centering — to focus attention on the patient and calm the patient's mind
• Assessing — to evaluate the patient's energy field for irregularities
• Intervention — to facilitate symmetrical flow of energy through the patient's energy field
• Evaluation/closure — to verify the effects and conclude the treatment

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Treatment sessions typically last five to 20 minutes, but they may take up to 30 minutes. To date, there is no formal certification or competency-based credentialing in therapeutic touch.

Therapeutic touch is taught as a secular approach with no religious connotations, although its core concept of "life energy" or "life force" has sometimes been compared with spiritual rather than scientific principles. Critics have argued that because of its religious roots, therapeutic touch should be treated as a religion rather than as a therapeutic intervention. Skeptics have sought to eliminate therapeutic touch as a nursing practice, based largely on perceived questions surrounding the mechanism of action. Nonetheless, positive results suggested by a few studies in humans, clinical anecdotes and case reports have led to increasing use of therapeutic touch and related practices based on an energetic paradigm.

Since therapeutic touch was first described in the 1970s, several variations have emerged from the original treatment. Healing touch was founded in the 1980s by Janet Mentgen and is based on the principles of therapeutic touch. (The terms therapeutic touch and healing touch are sometimes used interchangeably.) Healing touch focuses on several concepts in addition to those of therapeutic touch, including patient empowerment, practitioner self-care and the effect of the practitioner-patient relationship on healing.

Theory

The mechanism by which therapeutic touch may affect the body is not known. It has been theorized that healing touch affects patients through the connection of energy fields within and outside of the physical body. The treatment of symptoms is thought to occur when the movement of energy stimulates internal mechanisms. Therapeutic touch is asserted to have varying effects on different body systems, with the autonomic nervous system being particularly sensitive. The lymphatic, circulatory and musculoskeletal systems are also thought to be affected. Female endocrine disorders are believed to be more sensitive than male endocrine disorders. Anecdotally, manic and catatonic patients have been reported to respond to therapeutic touch. Most studies of therapeutic touch have examined effects on pain and anxiety.

A controversial study published in the Journal of the American Medical Association in 1998 reported that blindfolded therapeutic touch practitioners were unable to detect which of their hands was closer to the hand of an investigator. The authors concluded that this demonstrated an inability of therapeutic touch practitioners to sense energy fields. The study was later criticized by some therapeutic touch providers who thought that the study did not truly test the clinical applications of touch therapy or assess outcomes such as improved symptoms.

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Evidence

Scientists have studied therapeutic touch for the following health problems:

Pain
Several studies suggest that therapeutic touch may reduce pain and improve mobility in patients with osteoarthritis, may decrease pain and anxiety in burn patients and may improve chronic musculoskeletal pain in elderly patients. One study reported a reduced need for pain-relieving drugs after surgery, although overall pain was not reduced. This early research is suggestive. However, most studies have been poor quality, and clear comparisons have not been made with standard pain treatments such as pain-relieving drugs. Most studies have compared therapeutic touch with no therapy or with false (placebo) therapeutic touch. Further study is needed before a firm conclusion can be drawn.

Anxiety
Because of conflicting results of different studies, it is currently unclear if therapeutic touch is useful in the treatment of anxiety. A number of trials have reported benefits, whereas others have found no effects. Most studies have been poorly designed. Scientific analyses taking into account these different studies have not provided clear answers. Better research is necessary before a recommendation can be made.

Psychiatric disorders
There is preliminary evidence that therapeutic touch may help to relax premature infants, reduce anxiety in children with life-threatening illnesses, reduce anxiety in chemically dependent pregnant women, reduce stress and anxiety in the work place, and reduce stress in teen-agers with psychiatric disease. Further study is needed before a recommendation can be made.

Alzheimer's dementia
There is early evidence that therapeutic touch may reduce behavioral symptoms of dementia, such as searching and wandering, tapping and banging, vocalization, anxiety, pacing and agitation. However, larger well-designed studies are needed before a firm conclusion can be drawn.

Headache
A single study reports that therapeutic touch may reduce pain associated with tension headache. However, further research is needed before a recommendation can be made.

Well-being in cancer patients
A single study suggests that therapeutic touch may improve well-being in patients with advanced cancer. Pain, anxiety, depression, and fatigue have been reported as improved in patients receiving therapeutic massage and healing touch. Further research is needed before a recommendation can be made.

Wound healing
Results of the few studies of therapeutic touch for wound healing are mixed, with some reporting improvements, and others showing no effects. Most research has been conducted by the same author. It remains unclear if therapeutic touch has any benefits in wound healing.

Diabetes
One study reports that therapeutic touch does not have significant effects on blood sugar levels in patients with type 1 (insulin-dependent) diabetes mellitus.

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Fibromyalgia
Preliminary research suggests therapeutic touch may be an effective treatment option in relieving pain in patients with fibromyalgia. Further research is needed before a recommendation can be made.

Unproven Uses

Therapeutic touch has been suggested for many other uses, based on tradition or on scientific theories. However, these uses have not been thoroughly studied in humans, and there is limited scientific evidence about safety or effectiveness. Some of these suggested uses are for conditions that are potentially life-threatening. Consult with a health care provider before using therapeutic touch for any use.

Arthritis Bone fractures Bone healing Cardiovascular disease Carpal tunnel syndrome Childbirth preparation Chronic fatigue syndrome Depression and acute grief reaction Dystonia (muscle spasm) Epilepsy

High blood pressure Improved flow of breast milk Multiple sclerosis Parkinson's disease Phantom limb pain Rehabilitation Sarcoidosis Sinusitis Sleep enhancement Well-being during pregnancy

 

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Potential Dangers

Therapeutic touch is believed to be safe in most individuals and does not involve direct physical contact between practitioner and patient. Therapeutic touch should not be used for severe conditions in place of therapies with proven efficacy. There are anecdotal reports of restlessness, anxiety, dizziness, nausea and irritability with therapeutic touch. There is a published case of tension headache and a case of crying associated with therapeutic touch.

Some practitioners believe that therapeutic touch should not be practiced on people during the initial period of a fever or inflammation, and should not be administered to areas of the body with cancer. It is sometimes recommended that treatment sessions for children be shorter than for adults. Also, if the practitioner is emotionally upset, there may be a risk that this emotional upset will transfer from the practitioner to the patient.

Summary

There are few well-designed clinical trials of therapeutic touch. Therapeutic touch remains controversial, and research has not identified a mechanism of action that fits into standard Western models of medicine. There are some treatment areas, such as anxiety and pain, for which there is promising early research. However, there is also some negative evidence, including one study in which blindfolded therapeutic touch practitioners could not sense when they were close to another person's energy field. Better-quality research is needed, because therapeutic touch remains widely used.

The information in this monograph was prepared by the professional staff at Natural Standard, based on thorough systematic review of scientific evidence. The material was reviewed by the Faculty of the Harvard Medical School with final editing approved by Natural Standard.

Resources

1. Natural Standard: An organization that produces scientifically based reviews of complementary and alternative medicine (CAM) topics
2. National Center for Complementary and Alternative Medicine (NCCAM): A division of the U.S. Department of Health & Human Services dedicated to research

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Selected Scientific Studies: Therapeutic Touch

Natural Standard reviewed more than 370 articles to prepare the professional monograph from which this version was created.

Some of the more recent studies are listed below:

1. Astin JA, Harkness E, Ernst E. The efficacy of "distant healing": a systematic review of randomized trials. Ann Intern Med 2000;132(11):903-910.
2. Blankfield RP, Sulzmann C, Fradley LG, et al. Therapeutic touch in the treatment of carpal tunnel syndrome. J Am Board Fam Pract 2001;14(5):335-342.
3. Denison B. Touch the pain away: new research on therapeutic touch and persons with fibromyalgia syndrome. Holist Nurs Pract 2004;18(3):142-151.
4. Eckes Peck SD. The effectiveness of therapeutic touch for decreasing pain in elders with degenerative arthritis. J Holist Nurs 1997;15(2):176-198.
5. Giasson M, Bouchard L. Effect of therapeutic touch on the well-being of persons with terminal cancer. J Holist Nurs 1998;16(3):383-398.
6. Gordon A, Merenstein JH, D'Amico F, et al. The effects of therapeutic touch on patients with osteoarthritis of the knee. J Fam Pract 1998;47(4):271-277.
7. Ireland M. Therapeutic touch with HIV-infected children: a pilot study. J Assoc Nurses AIDS Care 1998;9(4):68-77.
8. Lafreniere KD, Mutus B, Cameron S, et al. Effects of therapeutic touch on biochemical and mood indicators in women. J Alt Comp Med 1999;5(4):367-370.
9. Larden CN, Palmer ML, Janssen P. Efficacy of therapeutic touch in treating pregnant inpatients who have a chemical dependency. J Holist Nurs 2004;22(4):320-332.
10. Lin Y-S, Taylor AG. Effects of therapeutic touch in reducing pain and anxiety in an elderly population. Integ Med 1998;1(4):155-162.
11. McElligott D, Holz MB, Carollo L, et al. A pilot feasibility study of the effects of touch therapy on nurses. J N Y State Nurses Assoc 2003;34(1):16-24.
12. Olson M, Sneed N, LaVia M, et al. Stress-induced immunosuppression and therapeutic touch. Altern Ther Health Med 1997;3(2):68-74. P
13. eters RM. The effectiveness of therapeutic touch: a meta-analytic review. Nurs Sci Quart 1999;12(1):52-61.
14. Post-White J, Kinney ME, Savik K, et al. Therapeutic massage and healing touch improve symptoms in cancer. Integr Cancer Ther 2003;2(4):332-344.
15. Richards K, Nagel C, Markie M, et al. Use of complementary and alternative therapies to promote sleep in critically ill patients. Crit Care Nurs Clin North Am 2003;15(3):329-340.
16. Rosa L, Rosa E, Sarner L, et al. A close look at therapeutic touch. JAMA 1998;279(13):1005-1010.
17. Samarel N, Fawcett J, Davis MM, et al. Effects of dialogue and therapeutic touch on preoperative and postoperative experiences of breast cancer surgery: an exploratory study. Oncol Nurs Forum 1998;25(8):1369-1376.
18. Smith DW, Arnstein P, Rosa KC, Wells-Federman C. Effects of integrating therapeutic touch into a cognitive behavioral pain treatment program: report of a pilot clinical trial. J Holist Nurs 2002;Dec, 20(4):367-387.
19. Smith MC, Reeder F, Daniel L, et al. Outcomes of touch therapies during bone marrow transplant. Altern Ther Health Med 2003;Jan-Feb, 9(1):40-49.
20. Turner JG, Clark AJ, Gauthier DK, et al. The effect of therapeutic touch on pain and anxiety in burn patients. J Adv Nurs 1998;28(1):10-20.
21. Weze C, Leathard HL, Grange J, et al. Evaluation of healing by gentle touch in 35 clients with cancer. Eur J Oncol Nurs 2004;8(1):40-49.
22. Winstead-Fry P, Kijek J. An integrative review and meta-analysis of therapeutic touch research. Alt Ther Health Med 1999;5(6):58-67.
23. Wirth DP, Cram JR, Chang RJ. Multisite electromyographic analysis of therapeutic touch and qigong therapy. J Alt Comp Med 1997;3(2):109-118.
24. Woods DL, Craven RF, Whitney J. The effect of therapeutic touch on behavioral symptoms of persons with dementia. Altern Ther Health Med 2005;11(1):66-74.
25. Woods DL, Whitney J. The effect of therapeutic touch on disruptive behaviours of individuals with dementia of the Alzheimer type. Alt Ther Health Med 1996;2(4):95-96.
26. Woods DL, Dimond M. The effect of therapeutic touch on agitated behavior and cortisol in persons with Alzheimer's disease. Biol Res Nurs 2002;Oct, 4(2):104-114.

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Learn about TENS (Transcutaneous Electrical Nerve Stimulation) as treatment for chronic pain, Alzheimer's disease and ADHD.

Before engaging in any complementary medical technique, you should be aware that many of these techniques have not been evaluated in scientific studies. Often, only limited information is available about their safety and effectiveness. Each state and each discipline has its own rules about whether practitioners are required to be professionally licensed. If you plan to visit a practitioner, it is recommended that you choose one who is licensed by a recognized national organization and who abides by the organization's standards. It is always best to speak with your primary health care provider before starting any new therapeutic technique.

• Background
• Theory
• Evidence
• Unproven Uses
• Potential Dangers
• Summary
• Resources

Background

Transcutaneous electrical nerve stimulation (TENS) involves the passage of low-voltage electrical current to electrodes pasted on the skin. The current is delivered through wires from a small battery-powered power unit. The frequency and intensity of this treatment depend on the specific condition and treatment goals. Accordingly, the electrode pads are placed in various sites on the body. Frequency, intensity, and site of application are believed to be pivotal to achieving optimal effects during and after stimulation.

TENS is most commonly used for pain management. There are different types of TENS:

• Conventional TENS — High- or low-frequency electrical current is applied, often near affected areas.
• Acupuncture-like TENS — Lower-frequency current is used at specific trigger points.
• Auricular TENS — Electrical current is applied to the ear

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Theory

Electricity has been used medicinally for thousands of years. Stone carvings from ancient Egypt depict electric fish being used to treat pain. In ancient Greece, electrogenic torpedo fish were used to treat arthritis and headache.

There are several proposed explanations for how TENS may work:

• It may affect the nerves that perceive pain or light touch.
• It may interfere with nerve pathways.
• It may alter the natural chemicals (such as encephalins, endorphins, opioids or substance P) that affect the way pain is perceived and transmitted.

None of these mechanisms has been clearly demonstrated in scientific research, and the basis of potential activity of TENS is controversial.

Theories traditionally used to explain acupuncture, such as effects on flow of vital energy, have also been offered to explain TENS. It is sometimes suggested that TENS may affect the cardiovascular system, increasing heart rate and reducing blood pressure.

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Evidence

Scientists have studied TENS for the following health problems:

Dental procedure pain: Several small studies report that various TENS techniques reduce pain and the need for pain medications during dental procedures. TENS may also be useful in relieving pain associated with mandibular fractures. Because of problems with the quality of these trials, this evidence can be considered only preliminary. Better research is necessary to make a strong recommendation.

Knee osteoarthritis" Multiple trials report improvements in knee stiffness, physical performance, range of motion, and pain in patients with knee osteoarthritis treated with TENS. It is not clear that TENS improves walking distance or swelling. Some of these studies are small and are not of high-quality. Better research is needed to make a strong recommendation.

Anesthesia (pain relief during surgery): Auricular TENS is sometimes used in Europe to reduce the need for anesthesia during surgical procedures. There is not enough reliable evidence to make a recommendation.

Alzheimer's disease: A small amount of early research reports that TENS may improve some symptoms of Alzheimer's disease, such as mood, memory and cycles of daily rest and activity. Better studies are necessary to make a conclusion.

Angina (chest pain from heart disease): Several small, brief studies (mostly from the 1980s and 1990s) report benefits of TENS on angina pectoris, but most were not well designed or reported. It has been suggested that TENS may improve exercise tolerance and measures of ischemia but not improve symptoms. People with heart disease or chest pain are advised to seek immediate medical attention from a licensed physician. Many well-studied drugs for heart disease are available. Further study is needed before conclusions can be drawn regarding the effectiveness of TENS in this area.

Ankylosing spondylitis: Early research does not provide enough scientific evidence to draw a firm conclusion about effectiveness.

Back pain: The use of conventional TENS or acupuncture-like TENS in people with low back pain is controversial. Studies have used a variety of TENS techniques and defined back pain in different ways. Multiple trials have been published, but most research is not well designed or reported. Overall, it remains unclear if TENS is beneficial. Better-designed research is needed to make a firm conclusion.

Burn pain: Early research does not provide enough scientific evidence to draw a firm conclusion about effectiveness of TENS for burn pain.

Cancer pain: Early research does not provide enough scientific evidence to draw a firm conclusion about effectiveness of TENS for cancer pain.

Chronic pain: The effect of TENS on chronic pain of various causes and locations is controversial. Multiple studies have been published, and even though they have reported benefits, studies have overall been of poor quality. Better-designed research is needed to make a firm conclusion.

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Dysmenorrhea (painful menstruation): Several small studies report that TENS may reduce short-term discomfort and the need for pain medications. However, this research has not been high-quality overall. Better-designed trials are needed to make a firm conclusion.

Headache: Preliminary studies report that TENS may have some benefits in patients with migraine or chronic headache. However, this research has not been high-quality overall. Better-designed trials are needed to make a firm conclusion.

Hemiplegia, hemiparesis (paralysis on one side of the body): Early research does not provide enough scientific evidence to draw a firm conclusion about effectiveness.

Labor pain: The use of TENS for labor pain is controversial. Multiple studies have been published, but even though they reported a reduced need for pain medications, studies have been small, poorly designed and without clear descriptions of results overall. Better-designed trials are needed to make a firm conclusion. It is not clear if passage of electricity using TENS has harmful effects on the fetus.

Local anesthesia during gallstone lithotripsy: Lithotripsy involves the use of sound waves to break up gallstones. Early research does not provide enough scientific evidence to draw a firm conclusion about effectiveness.

Facial pain, trigeminal neuralgia, bruxism (tooth grinding) pain: Several small studies report benefits when TENS is used to treat chronic facial pain of various causes. However, these trials are not well designed or reported, and additional research is needed to make a firm conclusion.

Myofascial pain: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness of TENS for myofascial pain.

Pregnancy-related nausea or vomiting: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness of TENS for pregnancy-related nausea or vomiting.

Neck and shoulder pain: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness of TENS for neck and shoulder pain.

Pain from broken bones, rib fracture or acute trauma: A randomized controlled trial in 100 patients with minor rib fracture showed TENS therapy to be more effective for relieving pain than were nonsteroidal anti-inflammatory drugs or placebo therapy.

Diabetic peripheral neuropathy: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness of TENS for peripheral neuropathy.

Phantom limb pain: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness of TENS in phantom limb pain.

Post-herpetic neuralgia (pain after shingles): Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness of TENS in post-herpetic neuralgia.

Postoperative ileus (bowel obstruction): Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Postoperative nausea or vomiting: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Postoperative pain: There are multiple studies of TENS being used to treat pain after different types of surgery, including abdominal surgery, heart surgery, lung surgery, gynecologic surgery and orthopedic surgery. Some studies report benefits (less pain, less pain with movement, or less need for pain medications), and others find no improvements. Better-quality research is needed to make a firm conclusion.

Post-stroke rehabilitation: One study on spastic dropped foot in subacute stroke reported that TENS had a beneficial effect. Further research is needed to draw a firm conclusion about effectiveness.

Rheumatoid arthritis: A small number of studies report improved joint function and pain in rheumatoid arthritis patients treated with TENS. However, this research is not well designed or reported, and better studies are needed to make a clear conclusion.

Skin ulcers: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Spinal cord injury: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Temporomandibular joint pain: Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Urinary incontinence, overactive bladder, detrusor instability: Several small, poorly designed studies exist. Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Spinal muscular atrophy (in children): One early study in eight children with spinal muscular atrophy reflected unfavorably on TENS therapy. Early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Pain during hysteroscopy: A randomized controlled trial in 142 women undergoing hysteroscopy showed that the group who received TENS therapy experienced a significantly lower level of pain. Further high-quality scientific evidence is needed to draw a firm conclusion about effectiveness.

Gastroparesis: One small study of 38 gastroparesis patients receiving percutaneous electrical nerve stimulation (similar to TENS) reported a reduction in nausea and vomiting and a favorable weight gain after 12 months of therapy on the stomach. It is uncertain if these results would be seen with TENS therapy. This early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Chronic obstructive pulmonary disease rehabilitation: One small randomized controlled trial involving 18 people undergoing rehabilitation for chronic obstructive pulmonary disease (COPD) showed improved muscle strength in the lower extremities as a result of TENS therapy. This suggests that TENS could be useful in adjunct to other components in a rehabilitation program for COPD. This early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Carpal tunnel syndrome: A small, well-designed trial in 11 patients with carpal tunnel syndrome reported that TENS therapy was an effective treatment for pain. This early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Soft tissue injury: A randomized controlled trial examined 60 patients with shoulder tendonitis and the effect of TENS and shock-wave therapy on pain. This study showed shock-wave therapy to be more effective than TENS for this condition. Another randomized trial evaluated burst TENS in Achilles tendon injuries. TENS appeared to be beneficial after suture of the Achilles tendon. Further research is needed to confirm these results.

Multiple sclerosis: In a small randomized controlled trial, patients with multiple sclerosis treated with TENS showed a trend toward improvement. Larger, well-designed studies are needed before conclusions can be drawn.

Intermittent claudication: A small randomized controlled trial suggests chronic electrical muscle stimulation may be beneficial for the relief of intermittent claudication symptoms. Further evidence is needed before drawing a firm conclusion.

Attention-deficit hyperactivity disorder (ADHD): A small randomized controlled trial found a moderate benefit in children with ADHD, but further research is warranted before a firm conclusion can be drawn.

Cognitive impairment: Preliminary evidence reports improvements in mood and mild cognitive impairment in elderly patients who do not suffer from Alzheimer's disease or early dementia. However, this early research does not provide enough high-quality scientific evidence to draw a firm conclusion about effectiveness.

Knee replacement pain: Preliminary evidence has found TENS not to relieve postoperative pain after knee replacement. Further research is needed to confirm these results.

 

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Unproven Uses

TENS has been suggested for many uses, based on tradition or on scientific theories. However, these uses have not been thoroughly studied in humans, and there is limited scientific evidence about safety or effectiveness. Some of these suggested uses are for conditions that are potentially life-threatening. Consult with a health care provider before using TENS for any use.

Achalasia Aging Antiviral Atopic eczema Bursitis Carpal tunnel syndrome Dementia Depression Dry mouth Dystonia Enhanced blood flow in the brain Enhanced blood perfusion of the uterus and placenta Esophageal spasm Fibromyalgia Fracture pain Guillain-Barre syndrome Hemophilia Herpes High blood pressure Hip pain Interstitial cystitis Irritable bowel syndrome Itch Joint pain Labor induction Local anesthesia

Menstrual cramps Muscle cramps Muscle spasticity Muscle strain or pain Musculoskeletal trauma Myofascial pain dysfunction syndrome Nerve damage Osteoarthritis Pain medication adjunct Pancreatitis Pruritus Raynaud's phenomenon Repetitive strain injuries Sacral pain Schizophrenia Shingles Shoulder subluxation Sickle cell anemia pain Skin flap ischemia (during plastic surgery) Sphincter of Oddi disorders Sports injuries Thrombophlebitis Tinnitus (ringing in the ear) Tremor Whiplash

Potential Dangers

In general, TENS is reported as being well tolerated, although research on safety is limited. Skin irritation and redness are the most common side effects, occurring in up to one-third of people. Electrode paste may cause hives, welts or allergic skin reactions (contact dermatitis). Electrical burns may occur with excessive use or improper technique.

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Because there is a risk of burns, TENS should be used with caution in people with decreased sensation, such as people with neuropathy. TENS should not be used in people with implanted medical devices such as cardiac defibrillators, pacemakers, intravenous infusion pumps or hepatic artery infusion pumps. Electrical shock or device malfunction may occur.

There are isolated reports of several other side effects, including fluid buildup in the lung, partial collapse of the lung, loss of sensation, pain or unpleasant sensations (near or away from the site of TENS), increased hair growth, headache, muscle aches, nausea, agitation and dizziness. It is not clear if TENS caused these problems. Seizures have been reported, and TENS should be used cautiously in people with seizure disorders. It is sometimes suggested that TENS may affect the cardiovascular system, increasing heart rate and reducing blood pressure.

Although multiple studies have used TENS for pain relief during childbirth, evidence about its safety is limited, and a theoretical risk of harm to the fetus exists. Elevations in fetal heart rate and interference with fetal heart monitoring equipment have been reported. This technique should not be used unless under the strict supervision of an experienced licensed health care practitioner. Safety of TENS is not established in children.

Summary

TENS is most commonly used to manage pain, although it has been recommended or studied for many other medical conditions. Preliminary evidence suggests that TENS may be beneficial in the control of dental procedure pain and knee osteoarthritis symptoms. Other uses of TENS have not been sufficiently studied to draw firm conclusions. Skin reactions may occur. People with implanted medical devices should avoid TENS. TENS should be used cautiously and only under medical supervision in pregnant women, children and people with seizure disorders.

The information in this monograph was prepared by the professional staff at Natural Standard, based on thorough systematic review of scientific evidence. The material was reviewed by the Faculty of the Harvard Medical School with final editing approved by Natural Standard.

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Resources

1. Natural Standard: An organization that produces scientifically based reviews of complementary and alternative medicine (CAM) topics
2. National Center for Complementary and Alternative Medicine (NCCAM): A division of the U.S. Department of Health & Human Services dedicated to research

Selected Scientific Studies: Transcutaneous Electrical Nerve Stimulation

Natural Standard reviewed more than 1,460 articles to prepare the professional monograph from which this version was created.

Some of the more recent studies are listed below:

1. Abell TL, Van Cutsem E, Abrahamsson H, et al. Gastric electrical stimulation in intractable symptomatic gastroparesis. Digestion 2002;66(4):204-212.
2. Allais G, De Lorenzo C, Quirico PE, et al. Non-pharmacological approaches to chronic headaches: transcutaneous electrical nerve stimulation, lasertherapy and acupuncture in transformed migraine treatment. Neurol Sci 2003;May, 24(Suppl 2):138-142.
3. Al-Smadi J, Warke K, Wilson, et al. A pilot investigation of the hypoalgesic effects of transcutaneous electrical nerve stimulation upon low back pain in people with multiple sclerosis. Clin Rehabil 2003;17(7):742-749.
4. Alvarez-Arenal A, Junquera LM, Fernandez JP, et al. Effect of occlusal splint and transcutaneous electric nerve stimulation on the signs and symptoms of temporomandibular disorders in patients with bruxism. J Oral Rehabil 2002;Sep, 29(9):858-863.

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1. Amarenco G, Ismael SS, Even-Schneider A, et al. Urodynamic effect of acute transcutaneous posterior tibial nerve stimulation in overactive bladder. J Urol 2003;Jun, 169(6):2210-2215.
2. Anderson SI, Whatling P, Hudlicka O, et al. Chronic transcutaneous electrical stimulation of calf muscles improves functional capacity without inducing systemic inflammation in claudicants. Eur J Vasc Endovasc Surg 2004;27(2):201-209.
3. Benedetti F, Amanzio M, Casadio C, et al. Control of postoperative pain by transcutaneous electrical nerve stimulation after thoracic operations. Ann Thorac Surg 1997;63(3):773-776.
4. Bloodworth DM, Nguyen BN, Garver W, et al. Comparison of stochastic vs. conventional transcutaneous electrical stimulation for pain modulation in patients with electromyographically documented radiculopathy. Am J Phys Med Rehabil 2004;83(8):584-5591.
5. Bodofsky E. Treating carpal tunnel syndrome with lasers and TENS. Arch Phys Med Rehabil 2003;83(12):1806-1807.
6. Bourjeily-Habr G, Rochester CL, Alermo F, et al. Randomised controlled trial of transcutaneous electrical muscle stimulation of the lower extremities in patients with chronic obstructive pulmonary disease. Thorax 2002;Dec, 57(12):1045-1049.
7. Breit R, Van der Wall H. Transcutaneous electrical nerve stimulation for postoperative pain relief after total knee arthroplasty. J Arthroplasty 2004;19(1):45-48.
8. Brosseau L, Milne S, Robinson V, et al. Efficacy of the transcutaneous electrical nerve stimulation for the treatment of chronic low back pain: a meta-analysis. Spine 2003;27(6):596-603.
9. Burssens P, Forsyth R, Steyaert A, et al. Influence of burst TENS stimulation on the healing of Achilles tendon suture in man. Acta Ortho Belg 2003;69(6):528-532.
10. Campbell TS, Ditto B. Exaggeration of blood pressure-related hypoalgesia and reduction of blood pressure with low frequency transcutaneous electrical nerve stimulation. Psychophysiology 2002;Jul, 39(4):473-481.
11. Carroll D, Moore RA, McQuay HJ, et al. Transcutaneous electrical nerve stimulation (TENS) for chronic pain (Cochrane Review). Cochrane Database of Systemic Reviews 2001;4.
12. Carroll D, Tramer M, McQuay H, et al. Transcutaneous electrical nerve stimulation in labour pain: a systematic review. Br J Obstet Gynaecol 1997;104(2):169-175.
13. Cheing GL, Hui-Chan CW, Chan KM. Does four weeks of TENS and/or isometric exercise produce cumulative reduction of osteoarthritic knee pain? Clin Rehabil 2003;16(7):749-760.
14. Cheing GL, Hui-Chan CW. Would the addition of TENS to exercise training produce better physical performance outcomes in people with knee osteoarthritis than either interventioin alone. Clin Rehabil 2004;18(5):487-497.
15. Cheing GL, Tsui AY, Lo SK, et al. Optimal stimulation duration of tens in the management of osteoarthritic knee pain. J Rehabil Med 2003;Mar, 35(2):62-68.
16. Chesterton LS, Barlas P, Foster NE, et al. Sensory stimulation (TENS): effects of parameter manipulation on mechanical pain thresholds in healthy human subjects. Pain 2002;Sep, 99(1-2):253-262.
17. Chesterton LS, Foster NE, Wright CC, et al. Effects of TENS frequency, intensity and stimulation site parameter manipulation on pressure pain thresholds in healthy human subjects. Pain 2003;106(1-2):73-80.
18. Chiu JH, Chen WS, Chen CH, et al. Effect of transcutaneous electrical nerve stimulation for pain relief on patients undergoing hemorrhoidectomy: prospective, randomized, controlled trial. Dis Colon Rectum 1999;42(2):180-185.
19. Coloma M, White PF, Ogunnaike BO, et al. Comparison of acustimulation and ondansetron for the treatment of established postoperative nausea and vomiting. Anesthesiology 2002;Dec, 97(6):1387-1392.
20. Cramp FL, McCullough GR, Lowe AS, et al. Transcutaneous electric nerve stimulation: the effect of intensity on local and distal cutaneous blood flow and skin temperature in healthy subjects. Arch Phys Med Rehabil 2002;Jan, 83(1):5-9.
21. Crevenna R, Posch M, Sochor A, et al. Optimizing electrotherapy: a comparative study of 3 different currents [Article in German]. Wien Klin Wochenschr 2002;Jun 14, 114(10-11):400-404.
22. De Angelis C, Perrone G, Santoro G, et al. Suppression of pelvic pain during hysteroscopy with a transcutaneous electrical nerve stimulation device. Fertil Steril 2003;Jun, 79(6):1422-1427.
23. de Tommaso M, Fiore P, Camporeale A, et al. High and low frequency transcutaneous electrical nerve stimulation inhibits nociceptive responses induced by CO2 laser stimulation in humans. Neurosci Lett 2003;May 15, 342(1-2):17-20.
24. Deyo RA, Walsh NE, Martin DC, et al. A controlled trial of transcutaneous electrical nerve stimulation (TENS) and exercise for chronic low back pain. N Engl J Med 1990;322(23):1627-1634.
25. Domaille M, Reeves B. TENS and pain control after coronary artery bypass surgery. Physiotherapy 1997;83(10):510-516.
26. Fagade OO, Obilade TO. Therapeutic effect of TENS on post-IMF trismus and pain. Afr J Med Med Sci 2003;32(4):391-394.
27. Fehlings DL, Kirsch S, McComas A, et al. Evaluation of therapeutic electrical stimulation to improve muscle strength and function in children with types II/III spinal muscular atrophy. Dev Med Child Neurol 2002;Nov, 44(11):741-744.
28. Forst T, Nguyen M, Forst S. Impact of low frequency transcutaneous electrical nerve stimulation on symptomatic diabetic neuropathy using a new Salutaris device. Diabetes Nutr Metab 2004;17(3):163-168.
29. Grant DJ, Bishop-Miller J, Winchester DM, et al. A randomized comparative trial of acupuncture versus transcutaneous electrical nerve stimulation for chronic back pain in the elderly. Pain 1999;82(1):9-13.
30. Guo Y, Shi X, Uchiyama H, et al. A study on the rehabilitation of cognitive function and short-term memory in patients with Alzheimer's disease using transcutaneous electrical nerve stimulation. Front Med Biol Eng 2002;11(4):237-247.
31. Hamza MA, White PF, Ahmed HE, et al. Effect of the frequency of transcutaneous electrical nerve stimulation on the post-operative opioid analgesic requirement and recovery profile. Anesth Analg 1999;88:212.
32. Hardy SG, Spaulding TB, Liu H, et al. The effect of transcutaneous electrical stimulation on spinal motor neuron excitability in people without known neuromuscular diseases: the roles of stimulus intensity and location. Phys Ther 2002;Apr, 82(4):354-363. Erratum in: Phys Ther 2002;May, 82(5):527.
33. Herman E, Williams R, Stratford P, et al. A randomized controlled trial of transcutaneous electrical nerve stimulation (CODETRON) to determine its benefits in a rehabilitation program for acute occupational low back pain. Spine 1994;19(5):561-568.
34. Hettrick HH, O'Brien K, Laznick H, et al. Effect of transcutaneous electrical nerve stimulation for the management of burn pruritus: a pilot study. J Burn Care Rehabil 2004;25(3):236-240.
35. Hou CR, Tsai LC, Cheng KF, et al. Immediate effects of various physical therapeutic modalities on cervical myofascial pain and trigger-point sensitivity. Arch Phys Med Rehabil 2002;Oct, 83(10):1406-1414.
36. Hsieh RL, Lee WC. One-shot percutaneous electrical nerve stimulation vs. transcutaneous electrical nerve stimulation for low back pain: comparison of therapeutic effects. Am J Phys Med Rehabil 2003;81(11):838-843.
37. Johansson BB, Haker E, von Arbin M, et al. Acupuncture and transcutaneous nerve stimulation in stroke rehabilitation: a randomized, controlled trial. Stroke 2001;32(3):707-713.
38. Johnson CA, Wood DE, Swain ID, et al. A pilot study to investigate the combined use of botulinum neurotoxin type a and functional electrical stimulation, with physiotherapy, in the treatment of spastic dropped foot in subacute stroke. Artif Organs 2002;Mar, 26(3):263-266.
39. Jonsdottir S, Bouma A, Sergeant JA, et al. Effects of transcutaneous electrical stimulation (TENS) on cognition, behavior, and the rest-activity rhythm in children with attention deficit hyperactivity disorder, combined type. Neurorehabil Neural Repair 2004;18(4):212-221.
40. Koke AJ, Schouten JS, Lamerichs-Geelen MJ, et al. Pain reducing effect of three types of transcutaneous electrical nerve stimulation in patients with chronic pain: a randomized crossover trial. Pain 2004;108(1-2):36-42.
41. Law PP, Cheing GL. Optimal stimulation frequency of transcutaneous electrical nerve stimulation on people with knee osteoarthritis. J Rehabil Med 2004;36 (5):220-225.
42. Luijpen MW, Swaab DF, Sergeant JA, et al. Effects of transcutaneous electrical nerve stimulation (TENS) on self-efficacy and mood in elderly with mild cognitive impairment. Neurorehabil Neural Repair 2004;18(3):166-175.
43. Meechan JG, Gowans AJ, Welbury RR. The use of patient-controlled transcutaneous electronic nerve stimulation (TENS) to decrease the discomfort of regional anaesthesia in dentistry: a randomised controlled clinical trial. J Dent 1998;26(5-6):417-420.
44. Milne S, Welch V, Brosseau L, et al. Transcutaneous electrical nerve stimulation (TENS) for chronic low back pain (Cochrane Review). Cochrane Database Syst Rev 2001;2:CD003008.
45. Munhoz RP, Hanajima R, Ashby P, et al. Acute effect of transcutaneous electrical nerve stimulation on tremor. Mov Disord 2003;18(2):191-194.
46. Murray S, Collins PD, James MA. An investigation ingo the 'carry over' effect of neurostimulation in the treatment of angina pectoris. Int J Clin Pract 2004;58(7):669-674.
47. Naeser MA, Hahn KA, Lieberman BE, Branco KF. Carpal tunnel syndrome pain treated with low-level laser and microamperes transcutaneous electric nerve stimulation: a controlled study. Arch Phys Med Rehabil 2002;Jul, 83(7):978-988. Comment in: Arch Phys Med Rehabil 2002;Dec, 83(12):1806. Author reply, 1806-1807.
48. Ng MM Leung MC, Poon DM. The effects of electro-acupuncture and transcutaneous electrical nerve stimulation on patients with painful osteoarthritic knees: a randomized controlled trial with follow-up evaluation. J Altern Complement Med 2003;9(5):641-649.
49. Okada N, Igawa Y, Ogawa A, et al. Transcutaneous electrical stimulation of thigh muscles in the treatment of detrusor overactivity. Br J Urol 1998;81(4):560-564.
50. Olyaei GR, Talebian S, Hadian MR, et al. The effect of transcutaneous electrical nerve stimulation on sympathetic skin response. Electromyogr Clin Neurophysiol 2004;44(1):23-28.
51. Oncel M, Sencan S, Yildiz H, et al. Transcutaneous electrical nerve stimulation for pain management in patients with uncomplicated minor rib fractures. Eur J Cardiothorac Surg 2003;22(1):13-17.
52. Osiri M, Welch V, V, Brosseau L, et al. Transcutaneous electrical nerve stimulation for knee osteoarthritis (Cochrane Review). Cochrane Database Syst Rev 2000;4:CD002823.
53. Pan PJ, Chou CL, Chiou HJ, et al. Extracorporeal shock wave therapy for chronic calcific tendinitis of the shoulders: a functional and sonographic study. Arch Phys Med Rehabil 2003;Jul, 84(7):988-993.
54. Peters EJ, Lavery LA, Armstrong DG, et al. Electric stimulation as an adjunct to heal diabetic foot ulcers: a randomized clinical trial. Arch Phys Med Rehabil 2001;82(6):721-725.
55. Poletto CJ, Van Doren CL. Elevating pain thresholds in humans using depolarizing prepulses. IEEE Trans Biomed Eng 2002;Oct, 49(10):1221-1224.
56. Pope MH, Phillips RB, Haugh LD, et al. A prospective randomized three-week trial of spinal manipulation, transcutaneous muscle stimulation, massage and corset in the treatment of subacute low back pain. Spine 1994;19(22):2571-2577.
57. Price CIM, Pandyan AD. Electrical stimulation for preventing and treating post-stroke shoulder pain (Cochrane Review). Cochrane Database of Systemic Reviews 2001;4:CD001698.
58. Proctor ML, Smith CA, Farquhar CM, et al. Transcutaneous electrical nerve stimulation and acupuncture for primary dysmenorrhoea. Cochrane Database Syst Rev 2003;4:CD002123. Last updated 2003-02-28.
59. Rakel B, Frantz R. Effectiveness of trancutaneous electrical nerve stimulation on postoperative pain with movement. J Pain 2003;4(8):455-464.
60. Reichelt O, Zermann DH, Wunderlich H, et al. Effective analgesia for extracorporeal shock wave lithotripsy: transcutaneous electrical nerve stimulation. Urology 1999;54(3):433-436.
61. Smart R. A prospective randomized controlled study of VAX-D and TENS for the treatment of chronic low back pain. Neurol Res 2001;23(7):780-784.
62. Sonde L, Gip C, Fernaeus SE, et al. Stimulation with low frequency (1.7 Hz) transcutaneous electric nerve stimulation (low-TENS) increases motor function of the post-stroke paretic arm. Scand J Rehabil Med 1998;30(2):95-99.
63. Sonde L, Kalimo H, Fernaeus SE, et al. Low TENS treatment on post-stroke paretic arm: a three-year follow-up. Clin Rehabil 2000;14(1):14-19.
64. Soomro NA, Khadra MH, Robson W, et al. A crossover randomized trial of transcutaneous electrical nerve stimulation and oxybutynin in patients with detrusorinstability. J Urol 2001;166(1):146-149.
65. Svihra J, Kurca E, Luptak J, et al. Neuromodulative treatment of overactive bladder: noninvasive tibial nerve stimulation. Bratisl Lek Listy 2002;103(12):480-483.
66. Takimova ME, Latfullin IA, Azin AL, et al. [Possibilities to improve the cerebral venous tonus in patients suffering of accelerated aging in blood circulation system by the nonmedicamentousal sympathocorrection method]. Adv Gerontol 2004;14:101-104.
67. Tsukayama H, Yamashita H, Amagai H, et al. Randomised controlled trial comparing the effectiveness of electroacupuncture and TENS for low back pain: a preliminary study for a pragmatic trial. Acupunct Med 2002;Dec, 20(4):175-180.
68. Tunc M, Gunal H, Bilgili T, et al. The effect of TENS on epidural patient controlled analgesia with tramadol for postthoracotomy pain relief. Turk Anesteziyoloji Ve Reanimasyon 2003;30(7):315-321.
69. van Balken MR, Vandoninck V, Messelink BJ, et al. Percutaneous tibial nerve stimulation as neuromodulative treatment of chronic pelvic pain. Eur Urol 2003;Feb, 43(2):158-163. Discussion, 163.
70. van der Ploeg JM, Vervest HA, Liem AL, et al. Transcutaneous nerve stimulation (TENS) during the first stage of labour: a randomized clinical trial. Pain 1996;68(1):75-78.
71. van der Spank JT, Cambier DC, De Paepe HM, et al. Pain relief in labour by transcutaneous electrical nerve stimulation (TENS). Arch Gynecol Obstet 2000;264(3):131-136.
72. van Dijk KR, Scherder EJ, Scheltens P, et al. Effects of transcutaneous electrical nerve stimulation (TENS) on non-pain related cognitive and behavioural functioning. Rev Neurosci 2003;13(3):257-270.
73. Vandoninck V, Van Balken MR, Finazzi Agro E, et al. Posterior tibial nerve stimulation in the treatment of urge incontinence. Neurourol Urodyn 2003;22(1):17-23.
74. Wang B, Tang J, White PF, et al. Effect of the intensity of transcutaneous acupoint electrical stimulation on the postoperative analgesic requirement. Anesth Analg 1997;85(2):406-413.
75. Wong RK, Jones GW, Sagar SM, et al. A Phase I-II study in the use of acupuncture-like transcutaneous nerve stimulation in the treatment of radiation-induced xerostomia in head-and-neck cancer patients treated with radical radiotherapy. Int J Radiat Oncol Biol Phys 2003;57(2):472-480.
76. Xiao WB, Liu YL. Rectal hypersensitivity reduced by acupoint TENS in patients with diarrhea-predominant irritable bowel syndrome: a pilot study. Dig Dis Sci 2004;49(2):312-319.
77. Yokoyama M, Sun X, Oku S, et al. Comparison of percutaneous electrical nerve stimulation with transcutaneous electrical nerve stimulation for long-term pain relief in patients with chronic low back pain. Anesth Analg 2004;98(6):1552-1556.
78. Yuan CS, Attele AS, Dey L, et al. Transcutaneous electrical acupoint stimulation potentiates analgesic effect of morphine. J Clin Pharmacol 2002;Aug, 42(8):899-903.
79. Wang B, Tang J, White PF, et al. Effect of the intensity of transcutaneous acupoint electrical stimulation on the postoperative analgesic requirement. Anesth Analg 1997;85(2):406-413.

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Yes, I've been following all the hoopla surrounding Star Wars: The Phantom Menace. Being an avid fan of the characters, the story, and the mythological connotations, I just had to be among those who saw the movie during its first week. I was quite impressed—the computer-generated graphics are as realistic as I ever seen. I definitely recommend the movie if you want to escape reality for a few hours.

I happened to pick up a copy of the April 26 Time magazine the other day, and of course, it featured an interview with the movie's creator, George Lucas. Here is a quote I took to heart:

"Heroes come in all sizes, and you don't have to be a giant hero. You can be a very small hero. It's just as important to understand that accepting self-responsibility for the things you do, having good manners, caring about other people—these are heroic acts. Everybody has the choice of being a hero or not being a hero every day of their lives. You don't have to get into a giant laser-sword fight and blow up three spaceships to become a hero."

Now that is recovery in a nutshell. As co-dependents, we tried to be giant heroes. We tried to save the universe and everyone in it. We worked hard to convince others that we had their best interests in mind as we sought to control their actions. We talked ourselves blue in the face. We wore ourselves out from all the good we did, all the help we gave so selflessly, and all the advice we dispensed unsolicited.

First, we drove ourselves (and those around us) crazy with our giant heroics. Then we got depressed because no one appreciated us. No one noticed our flashing light saber. No one listened to our words of wisdom.

But in recovery, we have learned to live quietly. We've learned the value of letting go. We detach. We rest. We save the world by saving ourselves. We admit the craziness of seeking to control what we can't. We free ourselves to be ourselves. We free others to be themselves. We revel in today, in the moment, and we let tomorrow take care of itself. We seek to live in harmony with others. We take joy from the tiny surprises of a baby's breathing, a cool breeze on our forehead, or offering a friend a backrub and a hug.

We can take care of ourselves. We can love without becoming enmeshed. We can give without being taken. We can live peacefully and serenely. We can experience serendipity in every moment.

We can be heroes.

Thank you, God for allowing me to be a hero. Amen.

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