Abstract
Pharmacological studies have implicated serotonergic (5-HT) neurons in the regulation of food intake and food preference. It has been shown that the urge to consume carbohydrate rich foods is regulated by 5-HT activity and that carbohydrate craving is triggered by 5-HT deficiency in the medial hypothalamus. Ingestion of carbohydrate foods stimulates insulin secretion which accelerates the uptake of tryptophan, the precursor of 5-HT and melatonin, into the brain and pineal gland, respectively. Thus, carbohydrate craving might be considered a form of “self medication” aimed at correcting an underlying dysfunction of cerebral 5-HT and pineal melatonin functions. A 51 year old woman with remitting-progressive MS experienced carbohydrate craving during childhood and adolescence and again in temporal association with the onset of her first neurological symptoms at the age of 45. Carbohydrate craving, which resembled the pattern observed in patients with seasonal affective disorder (SAD), was attenuated by a series of extracranial AC pulsed applications of picotesla (1CH2 Tesla) flux intensity electromagnetic fields (EMFs). It is suggested that AC pulsed EMFs applications activated retinal mechanisms which, through functional interactions with the medial hypothalamus, initiated an increased release of 5-HT and resychronization of melatonin secretion ultimately leading to a decrease in carbohydrate craving. The occurrence of carbohydrate craving in early life may have increased the patient's vulnerability to viral infection given the importance of 5-HT and melatonin in immunomodulation and the regulation of the integrity of the blood brain barrier. The recurrence of this craving in temporal relation to the onset of neurological symptoms suggests that 5-HT deficiency and impaired pineal melatonin functions are linked to the timing of onset of the clinical symptoms of the disease. The report supports the role of environmental factors in the pathophysiology of MS.