Serotonin in Chronic Fatigue Syndrome & Fibromyalgia by Melvyn R.Werbach
http://www.findarticles.com/p/articles/mi_m0ISW/is_2001_Nov/ai_79757264
Townsend Letter for Doctors & Patients
publishes a print magazine about alternative medicine. It is written by researchers,
health practitioners and patients. As a forum for the entire alternative
medicine community, we present scientific information (pro and con) on a wide
variety of alternative medicine topics.
Editor-in-Chief and Publisher Jonathan Collin, M.D.
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While the picture is far from clear, serotonin metabolism appears to play a
role in both chronic fatigue syndrome (CFS) and fibromyalgia -- although the
nature of that role appears to differ.
Tryptophan is the dietary precursor to serotonin and, for fibromyalgia, there
is some evidence that tryptophan levels are depressed.
For example, in a study of fibromyalgia
patients suffering from severe pain, plasma free tryptophan levels were
inversely related to the severity of their pain. [1] Moreover, when
fibromyalgia patients were compared to normals, plasma tryptophan levels tended
to be lower in the patient group, and their transport ratio of tryptophan to
the other competing amino acids was significantly decreased, suggesting that
brain serotonin levels may also be depressed. [2]
Does the administration of a serotonin precursor help patients with
fibromyalgia? In the general population, tryptophan supplementation usually
provides a mild degree of analgesia. Moreover, it may be especially effective
for the subset of chronic pain patients with a disorder of serotonergic
transmission. [3]
As to fibromyalgia, a group of 50 patients received 100 mg 3 times daily of 5-
hydroxytryptophan, the metabolite of tryptophan and immediate precursor of
serotonin, in an open trial. After 3 months, nearly half of the group had a
fair to good degree of overall improvement. There were highly significant
improvements in fatigue, the number of tender points, pain intensity, anxiety
and sleep quality. [4] These results were similar to those of an earlier
double- blind study by the same group of investigators, [5] and suggest that
fibromyalgia patients may respond to L-tryptophan supplementation similarly to
other patients suffering from anxiety, depression, insomnia and pain.
Turning to CFS, at least 3 studies have found L-tryptophan to be depressed in
the plasma of CFS patients [6-8] -- a finding already noted in Fibromyalgia
patients. However, in contrast to fibromyalgia, there is evidence that OFS is
marked by serotonergic hyperactivity. One study found not only that CFS
patients had higher baseline plasma tryptophan levels, but also that these
levels failed to rise and fall normally during exercise, causing the
researchers
to speculate that an abnormally high level of brain serotonin may cause the
persistent central fatigue. [9] (In healthy subjects, L-tryptophan
administration can cause central fatigue. [10]) Moreover, several other studies
have also found evidence of increased serotonergic activity in CFS
patients." [11-14]
If CFS is marked by serotonergic hyperactivity, then medications that block
serotonin receptors may be beneficial. Indeed, a small pilot study found that
the use of serotonin (5-HT3) receptor antagonists was followed by at least a
35% improvement in about one-third of patients. [15]
Would nutritional supplements be equally effective while having less danger of
adverse side effects? The efficacy of nicotinamide adenine dinucleotide (NADH),
the reduced coenzyme form of niacin, has been investigated in a double-blind
crossover study. At baseline, CFS patients were found to have elevated urinary
concentrations of 5-hydroxyindoleacetic acid, the major metabolite of the
neurotransmitter serotonin. They received 10 mg daily of NADH or placebo. Not
only was NADH significantly more effective in reducing CFS symptoms than
placebo, but the elevated 5-HIAA levels dropped to normal - suggesting that the
efficacy of NADH could well be due to an ability to normalize serotonergic
hyperactivity. [16]
Perhaps other nutritional approaches that reduce brain serotonin levels would
also be effective. For example, CFS patients could be placed on a low-
ryptophan diet, or they could be supplemented with the essential amino acids
that compete with tryptophan for brain uptake (phenylalanine, tyrosine,leucine,
isoleucine, and valine). Hopefully, researchers will ventually
pursue these lines of investigation.
Doctor Werbach cautions that the nutritional treatment of illness should be supervised
by physicians or practitioners whose training prepares them to recognize
serious illness and to integrate nutritional interventions safely into
the treatment plan.
References
(1.) Moldofsky H, warsh JJ. Plasma tryptophan and musculoskeletal pain in
non-articular rheumatism ('fibrositis syndrome'). Pain 5(1):65-71, 1978
(2.) Yunus MB et al. Plasma tryptophan and other amino acids in primary
fibromyalgia: a controlled study. J Rheumatol 19(1):90-4, 1992
(3.) Liberman HR et al. Mood, performance and pain sensitivity: Changes
induced by food constituents. J Psychiatr Res 17(2):135-45, 1982-3
(4.) Puttini PS, Caruso I. Primary fibromyalgia syndrome and 5-hydroxy.L-
tryptophan: a 90-day open study. J Int Med Res 20(2):182-9, 1992
(5.) Caruso I et al. Double-blind study of 5-hydroxytryptophan versus placebo
in the treatment of primary fibromyalgia syndrome. J Int Med Res 18(3):201-9,
1990
(6.) Bralley JA, Lord RS. Treatment of chronic fatigue syndrome with specific
amino acid supplementation. J Appl Nutr 46(3):74-8, 1994
(7.) Rigden S. Entero-hepatic resuscitation program for CFIDS. The CFIDS
chronicle, Spring, 1995:46-8
(8.) Vassallo CM et al. Decreased tryptophan availability but normal poot-
synaptic 5-HT2c receptor sensitivity in chronic fatigue syndrome. Psychol Med
31(4):585.91, 2001
(9.) Castell LM et al. The role of tryptophan in fatigue in different
conditions of
stress. Adv Exp Med Biol 467:697-704, 1999
(10.) Cunliffe A et al. A placebo controlled investigation of the effects of
tryptophan or placebo on subjective and objective measures of fatigue. Eur J
Clin Nutr 52:425-30, 1998
(11.) Bakheit AM et al. Possible upregulation of hypothalantic 5-
hydroxytryptamine receptors in patients with postviral fatigue syndrome. BMJ
304:1010-12, 1992
(12.) Cleare AJ et al. Contrasting neuroendocrine responses in depression
and chronic fatigue syndrome. J Affect Disard 34:283-9, 1995
(13.) Sharpe M et al. Increased brain serotonin function in men with chronic
fatigue syndrome. BMJ 315:164-5, 1997
(14.) Demitrack MA et al. Plasma and cerebrospinal fluid monoamine
metabolism in patients with chronic fatigue syndrome: preliminary findings.
Biol Psychiatry 32:1066-77, 1992
(15.) Spath M et al. Treatment of chronic fatigue syndrome with 5-HT3
receptor antagonists -- preliminary results. Stand J Rheumatol Suppl 113:72-
7, 2000
(16.) Forsyth LM et al. Therapeutic effects of oral NADH on the symptoms of
patients with chronic fatigue syndrome. Ann Allergy
Asthma Immunol 82:185-
91, 1999
Source: The Townsend Letter Group