Mar
29
2014

Alternative Treatment Of Hyperactivity (ADHD)

Attention Deficit Hyperactivity Disorder (ADHD or ADD, attention deficit disorder) has been in the spotlight on and off over the years. It affects 8% to 10% of school-aged children, and about 2% to 5% of adults who still have this condition.

Typically a parent receives a note from school that they must come to a teacher/parent meeting and it is discussed that the child is disruptive in class, not paying attention, interrupting the teacher inappropriately and forgetting to do their homework. The teacher suggests that this may be a sign of hyperactivity. The school nurse is also of this opinion and they suggest getting a prescription for Ritalin or Adderall (amphetamine type medications), drugs that have been shown in other kids to be fairly effective in treating the symptoms.

Next the child is seen by the doctor who confirms the diagnosis and Ritalin (methylphenidate) is prescribed.

In an attempt to quickly control the situation, the side effects of Ritalin are often not discussed in detail: agitation, insomnia, nervousness, anxiety, nausea, vomiting and loss of appetite, palpitations, dizziness, headaches, an increase in the heart rate, blood pressure elevation, and even psychosis (Ref.1).

It is easy to just write a prescription for Ritalin and hope that all is well. Had the parents heard of all the possible side effects, they may have asked whether there were alternative treatments available.

The causes of hyperactivity (ADHD)

The exact cause of ADHD remains unknown, but there is a clustering of this condition in some families, so there seems to be a clear genetic component (Ref.2). It appears that several genes are involved, namely those associated with serotonin and glutamate transporters, but also those affecting dopamine metabolism. Males are affected with ADHD more often than females (in children 3:1, in adults 1:1).

Alternative Treatment Of Hyperactivity (ADHD)

Alternative Treatment Of Hyperactivity (ADHD)

Some remarks regarding brain development are in order: Dr. Kharrazian describes that the grey matter of the brain develops before the age of 9 and the development of the white matter is completed by the age of 19 (Ref. 3, p.3). In ADHD patients the frontal brain is underdeveloped resulting in an inability to suppress unacceptable behavior, immediate desires and impulses. Prescription drugs may alter the behavior on the surface, but the frontal brain development is still lagging behind. The only thing that can influence this is behavioral/cognitive therapy and extra tutoring while the symptoms are controlled. The window of opportunity is closed by the time the ADHD patient has reached the age of 19. After that a juvenile ADHD turns into a permanent adult ADHD. The cases that had only childhood ADHD and outgrew it were the ones where the frontal lobe abnormalities had corrected themselves before the age of 19.

This review article has noted that there is an association between a Western style diet (sugar and fat rich) and ADHD.

Interestingly both Ref. 1 and 2, which I would categorize as having originated from mainstream conventional medicine circles, deny such an association. But the link also noted that a healthy diet with fiber, folate, and omega-3 fatty acids as well as supplementation with iron and zinc when these minerals are found to be low in the blood, do make a significant difference in ADHD patients towards normalization of their symptoms.

One of the under diagnosed causes of ADHD is gluten sensitivity as Dr. Perlmutter described in his book (Ref. 4, pages 150-158). This can spare the child or teenager the toxic side effects of anxiolytics, antidepressants or antipsychotics that may be inappropriately prescribed by their physicians, and a gluten free diet would allow the brain to recover very quickly in such cases. A food sensitivity history and some simple gluten sensitivity blood screening tests will diagnose this condition or rule it out.

To complicate matters even more, Dr. Amen has mentioned in several books that there are at least 7 different subcategories of ADHD that he has found in ADHD patients when studying thousands of single-photon emission computed tomography brain scans (SPECT brain scans). Dr. Amen mentions that the 7 subcategories of ADHD are the combined type ADD, the primarily inattentive ADD subtype, overfocused ADD, temporal lobe ADD, limbic ADD, ring of fire ADD and trauma induced ADD. Dr. Amen explains that each of these types needs to be treated differently and some of the treatment failures are explained by the fact that the wrong type of ADD was treated (Ref.5).

Treatment of ADHD

In the following I mention 5 steps that are useful for treating ADHD patients.

  1. A first step toward normalization of the metabolic changes in the brain metabolism of the affected child or adult is to adopt a diet that has been linked with low risk for ADHD: avoid food additives, cut out refined sugar, avoid known food allergies like gluten sensitivity and others. You may need to test the patient for food allergies using an elimination diet. Add a good amount of molecularly distilled omega-3 fatty acids (the pure form of omega-3 without mercury, lead or PCBs) as this has shown beneficial effects in ADHD patients.
  2. Involve a behavioral psychologist for behavioral/cognitive therapy treatments. This is particularly effective in the 9 to 19 year old category where the frontal region of the brain is still developing.
  3. Work together with the schoolteacher and get supplemental teaching in areas of academic weakness to reduce the frustrations in the classroom setting.
  4. In adolescent girls who just started their period, a relative lack of progesterone (estrogen dominance) may be a contributory factor. A small dose (20mg to 30 mg) of bioidentical progesterone from day 6 to 16 of the menstrual cycle may help significantly in alleviating the symptoms of ADHD. You may need to consult a naturopathic doctor or anti-aging physician to get a prescription for that.
  5. If all of this helps only marginally, then a smaller amount of Ritalin may be helpful; however, blood tests should be drawn from time to time to monitor for drug toxicity as the rate of absorption and elimination of the drug varies significantly from patient to patient.

It is interesting that studies have shown that a combination of Ritalin or Adderall with alternative treatment methods had a better outcome than either method alone.

Conclusion

It is important to think about the various possible causes of ADHD and not just get caught up in the knee-jerk reflex of treating ADHD with Ritalin (note that this was only step 5 above, if all the other things failed). In co-operation with the school system and using alternative ways at home first (change of diet, possible addition of low dose bioidentical progesterone cream in girls) and additional tutoring in weak school subjects the need for Ritalin may be avoided. If all else fails, the conservative approach is still available, but I suggest that drug monitoring (blood levels that should be done from time to time to avoid toxicity) is important.

More information about ADHD: http://nethealthbook.com/mental-illness-mental-disorders/developmental-disorders/attention-deficithyperactivity-disorder/

References

1. Ferri: Ferri’s Clinical Advisor 2014, 1st ed., © 2013 Mosby.

2. Jacobson: Psychiatric Secrets, 2nd ed., © 2001 Hanley and Belfus

3. Dr. Datis Kharrazian: “Why Isn’t My Brain Working?” © 2013, Elephant Press, Carlsbad, CA 92011

4. David Perlmutter, MD: “Grain Brain. The Surprising Truth About Wheat, Carbs, And Sugar-Your Brain’s Silent Killers.” Little, Brown and Company, New York, 2013.

5. Daniel G. Amen: “Use Your Brain To Change Your Age” © 2012, Harmony Books, An imprint of Crown Publishing.

Last edited Nov. 7, 2014

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Feb
15
2014

Melatonin More Than A Sleeping Aid

Melatonin has been available to the public in the US since 1992. It is usually used as a sleeping aid or for jet lag related sleeping problems. However, in the last decade much more data about melatonin has come out that has proven that melatonin is a major hormone. The pineal gland contains another brain hormone, serotonin, which is converted into melatonin within that gland. Melatonin is a key hormone that regulates the sleep/wake cycle. It works in concert with cortisol, which has the highest level in the morning while melatonin has its highest level in the evening and during the night. Melatonin also regulates the menstrual cycle and determines when women get into menopause.

Lately new information has come to the forefront showing that there are connections to Alzheimer’s disease, Parkinson’s disease, stroke size and recovery from strokes. Even traumatic brain injury can be minimized when enough melatonin is present. In addition melatonin is an important anti-oxidant.

Finally, there is evidence that melatonin helps to determine how well we age.

In the following I like to review some of the evidence for all of these claims.

1. Melatonin as a hormone

Melatonin levels were found to be very low in breast cancer and prostate cancer patients. It has been determined that the immune cells have melatonin hormone receptors and need melatonin for stimulation. Because of the immune stimulatory effect of melatonin, it is often given as a cancer adjuvant treatment to other cancer treating modalities. Ref. 1 describes that melatonin regulates the female hormones (LH, FSH), which then determine when a woman has her menstrual period and also when she eventually enters menopause. The pineal gland is the master gland for the diurnal hormone rhythms.

Melatonin More Than A Sleeping Aid

Melatonin More Than A Sleeping Aid

2. Melatonin levels decline with age

Melatonin levels in both men and women decline as we age. This figure shows that the highest melatonin levels are reached by the age of 10; by the age of 40 only 15% of the youthful levels remain while by the age of 55 only 5% or less of the original youthful levels are left. This explains why older people are more prone to infections (missing immune stimulation) and why the sleep pattern in older people is changed (shorter periods of sleep, less restful sleep). Ref. 1 points out that with insulin resistance (from diabetes or due to excessive sugar and starch consumption) cortisol levels are chronically elevated, which in turn inhibits melatonin production.

3. Melatonin protects from neurodegenerative diseases

A newer application of melatonin is as a preventative in the neurological field, particularly in the area of Alzheimer’s disease, Parkinson’s disease and the prevention of strokes. With respect to Alzheimer’s disease studies have shown that patients with Alzheimer’s have much lower melatonin blood levels when compared to age matched normal controls. In ischemic stroke patients it was found that stroke patients had much lower melatonin levels when compared to normal age-matched controls. Other studies have shown that pineal gland calcification was associated with low melatonin levels and a high risk for ischemic stroke. This risk was even higher when the patients had high blood pressure, diabetes and high cholesterol/triglycerides. When a stroke has occurred, it is important that the free radicals are removed as quickly as possible, which is where the antioxidant properties of melatonin fit into a rehabilitative program. The presence of melatonin enhances brain plasticity. However instead of using melatonin after a stroke, it is much better to use melatonin regularly before a possible stroke, as this gives a better chance reducing the size of the stroke. This in turn will lead to a faster and more complete recovery after a stroke.

Another important disease of the elderly is Parkinson’s disease. Melatonin helps to prevent oxidative damage to the dopamine producing cells in the basal ganglia thus preventing Parkinson’s disease. As with Alzheimer’s disease, there is a correlation of low melatonin levels and this neurodegenerative disease, which goes beyond the age-related reduction of melatonin levels. In experimental Parkinson’s disease models in mice melatonin was highly effective in preventing deterioration of Parkinson’s disease.

4. Melatonin may extend life

The combination of being a free radical scavenger, an immunostimulant and an integral key hormone allow melatonin to have beneficial effects in the aging process. When melatonin supplements are given, the stimulation of the immune system can cut down infection rates in the elderly, prevent and mitigate degenerative diseases of the brain (Alzheimer’s, Parkinson’s), re-establish sleep/waking rhythms and help reduce arthritis.

Conclusion

Melatonin is a widely used sleep aid. As it is practically absent in people beyond the age of 55, it makes sense to supplement with melatonin in that patient group. However, there are side effects particularly in people on blood thinners as coumadin competes with melatonin in getting eliminated through the cytochrome P450 liver enzyme system. This will result in longer bleeding times in patients on blood thinners who also take melatonin supplements. It is important that patients discuss this with their doctors. However, given all of the benefits described above, for the vast majority of the baby boomers melatonin supplementation would be very beneficial. Doses as a sleep aid vary between 1mg and 5mg at bedtime for most people. Cancer patients require higher doses (10 to 20 mg per day).

More information on melatonin, which is at the center of the circadian hormone rhythm as the key hormone switching from day to night and welcoming the day by switching its secretion from the pineal gland off in the morning: https://www.askdrray.com/how-to-cope-with-time-switches/

Reference

1. Datis Kharrazian: “Why isn’t my brain working?” Copyright 2013, Elephant Press, Carlsbad, CA, USA (pages 306-310).

Last edited Nov. 7, 2014