UMLS:C0004352 - FACTA Search

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Query: UMLS:C0004352 (autism)
32,579 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Comparison of the properties of blood platelets and serotonergic synaptosomes suggests that the human platelet can serve as an appropriate model for the transport, metabolism, and release of serotonin (5-HT) by CNS serotonergic neurons. The study of blood 5-HT levels and platelet 5-HT pharmacodynamics in patients with a variety of psychiatric and neurologic disorders has generated interesting leads into possible abnormalities of CNS 5-HT neurons in these patients. This article reviews the experimental evidence, which uses the human platelet model to investigate neurotransmitter-related abnormalities in Down syndrome, mental retardation, infantile autism, hyperactivity syndromes (minimal brain dysfunction), schizophrenia, affective disorders, Duchenne muscular dystrophy, Parkinson disease, Huntington chorea, and migraine headaches.
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PMID:The human platelet. A diagnostic and research tool for the study of biogenic amines in psychiatric and neurologic disorders. 14 Jun 32

Behavioral effects of L-5-Hydroxytrophan (L-5-HTP), administered in combination with carbidopa, were evaluated in three autistic children using direct behavioral observation and parent ratings. Children were assessed under each of four experimental conditions: Baseline, Placebo I, L-5-HTP plus carbidopa, and Placebo II. During the 20-week study two children showed behavioral change that appeared to be unrelated to drug treatment. The findings did not support the hypothesis that a functional deficit in brain 5-HT underlies the autistic syndrome.
J Autism Child Schizophr 1978 Jun
PMID:Effects of L-5-hydroxytryptophan in autistic children. 30 46

Blood platelet serotonin content was measured in 30 children with early infantile autism, as defined by Kanner, 30 age-matched normal subjects, and 45 children with various neurological and psychiatric disorders. Serotonin content in the autistic group was 980 +/- 357 ng/mg platelet protein (mean +/- standard deviation), a value significantly higher than that for normal children, 807 +/- 202 ng/mg (p less than .025). Autistic children under school age had higher platelet serotonin concentrations than other older autistic individuals. There was little correlation between age and serotonin levels in the normal children. Elevated serotonin was also seen in some of the non-autistic pathological group, who were disturbed and hyperactive. Elevated serotonin levels are not necessarily a specific biochemical finding for autistic children, but seem to be due to their behavioral distinction.
J Autism Child Schizophr 1976 Dec
PMID:Reassessment of elevated serotonin levels in blood platelets in early infantile autism. 103 38

In infantile autism, the serotoninergic (5-HT) hypothesis is corroborated by biological dosages and therapeutic effects of fenfluramine which decrease blood serotonin. However other drugs, such as dopaminergic agonists or antagonists, have therapeutic effects. Therefore, we tested the hypothesis that two dopaminergic (DA) drugs have a similar 5-HT effect underlying the therapeutic efficiency. We evaluated in a randomized, double-blind and cross-over study, the effects of a DA agonist (bromocriptine) and a DA antagonist (amisulpride) on platelet 5-HT in infantile autism. The prolactinemia, reflecting the DA action, has been also measured. Nine children, aged from 4 to 13 years, according to the DSM III for infantile autism, received either drug in a random order during four weeks with an in-between placebo period of six weeks. The dosages of platelet 5-HT and serum prolactin were carried out at the beginning and at the end of every phase of treatment (active or placebo) with radioenzymology and radioimmunoassay methods respectively. The principal results on serum prolactin show neither order x treatment interaction, nor order effect but a significant treatment effect (p < 0.01): amisulpride increases serum prolactin whereas bromocriptine decreases according to the usual data. About platelet 5-HT, there is neither order x treatment interaction, nor treatment effect but a significant order effect (p < 0.01). Both drugs increase platelet 5-HT in the first phase of treatment. This order effect could be explained by a remanent effect of amisulpride after 6 wash-out weeks.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Platelet serotonin in infantile autism. Cross-over effects of a dopamine agonist and an antagonist]. 136 54

We examined platelet serotonin2 [5-hydroxytryptamine2 (5-HT2)] receptor binding sites, whole blood serotonin (5-HT), and plasma norepinephrine (NE) in male autistic children and their first-degree relatives. Saturation studies utilizing 125I-spiroperidol labeled the 5-HT2 sites with an affinity of 224.6 +/- 84.4 pmol/L (Kd). No group differences, i.e., autistic (n = 12), siblings (n = 6), parents (n = 22), control (adult; n = 7: child; n = 10), were seen for either the Kd or the total number of sites (Bmax: 14.3 +/- 10.9 fmol/mg protein). No correlations were found in any group between binding parameters (Kd or Bmax) and whole blood 5-HT. For the parental group, inverse correlations were found between NE and Bmax (standing NE, rs = -0.67, n = 21, p = 0.001; supine NE, rs = -0.49, n = 22, p = 0.021). In the autistic group, no correlation was seen between plasma NE and Bmax. A correlation between the autistic boys' Bmax and their fathers' Bmax was observed (rs = 0.79, n = 11, p = 0.004). These findings suggest (1) circulating NE may be involved in heterologous regulation of 5-HT2 receptors in the platelet and (2) genetic (paternal-filial) factors may play a role in the expression of 5-HT2 binding sites in the platelet. These preliminary findings are discussed in relation to heterologous receptor regulation. The relationships between these findings and either the pathophysiology of autism or hyperserotonemia in autism are unknown.
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PMID:Platelet 5-HT2 serotonin receptor binding sites in autistic children and their first-degree relatives. 191 4

Serotonin (5HT) levels in platelet-rich plasma were measured in 5 autistic subjects who had siblings with either autism or pervasive developmental disorder (PDD), 23 autistic subjects without affected siblings, and 10 normal controls. The 5HT levels of autistic subjects with affected siblings were significantly higher than probands without affected siblings, and autistic subjects without affected siblings had 5HT levels significantly higher than controls. Differences in 5HT levels remained significant after adjustment for sex, age, and IQ. These results suggest that 5HT level in autistic subjects may be associated with genetic liability to autism.
J Autism Dev Disord 1991 Mar
PMID:Platelet serotonin, a possible marker for familial autism. 203 49

A novel biochemical model for autism is presented, which proposes that a subgroup of autistic individuals may have a hypersecretion of pineal melatonin that produces a cascade of biochemical effects including a corresponding hyposecretion of pituitary proopiomelanocortin (POMC) peptides and a hypersecretion of hypothalamic opioid peptides and serotonin (5-HT). The model is reviewed, and supporting animal and clinical research, is summarized. The first arm of the model suggests that increases in pineal melatonin results in hypersecretion of 5-HT in hypothalamus and blood. The second arm of the model indicates that hypersecretion of melatonin also inhibits the release of hypothalamic corticotrophin-releasing hormone (CRH). Hyposecretion of CRH may result in decreased release of both pituitary B-endorphin (B-E) and adrenocorticotrophin hormone (ACTH); this, in turn, may result in decreased plasma concentrations of B-E, ACTH, and cortisol. In autism, a genetically determined hypersecretion of hypothalamic B-E may further contribute to an inhibition of pituitary B-E because of negative feedback inhibition. Therefore, autism may reflect a dysfunction in the pineal-hypothalamic-pituitary-adrenal axis which, modulates POMC and 5-HT systems of the brain. This model is consistent with numerous clinical investigations implicating hypersecretion of brain 5-HT and opioid peptides in autism. The model may have heuristic importance in guiding future research in the biochemistry of autism.
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PMID:A novel biochemical model linking dysfunctions in brain melatonin, proopiomelanocortin peptides, and serotonin in autism. 217 18

The planned and ongoing studies of platelet function and composition should allow us to better define the alteration which we presume to be present in platelets of autistic subjects. Although much of the research focuses on serotonergic aspects, the more general research should permit a better delineation of the extent of the alteration and will protect against a premature narrowing of the inquiry. The methodological development which has been a necessary aspect of the work should contribute to an improved understanding of platelet function and composition, as well as result in improved clinical tools for the assessment of platelet functioning in neuropsychiatric disorders and hematology. As an example, improvements in short-term in vitro storage conditions to stabilize aggregation and shape change responses over time were found to be necessary, and are probably critical to an optimal comparison of these phenomena across groups. The identification of the platelet alteration which is responsible for the hyperserotonemia of autism should prove useful in several ways. It would be expected that assessment of the altered function would provide a marker with less overlap with the normal population than the multidetermined measure of blood 5-HT. Determination of the specific protein(s) involved in the altered platelet should lead directly to gene probes and chromosomal location. These, in turn, should prove useful for neonatal screening, subtyping, and more powerful genetic and family studies. Work of this sort might also allow early intervention and improved treatment. Finally, characterization of the physiological alteration would provide a basis for focusing studies of brain neurochemistry and should, as well, suggest modes of neuropharmacological intervention. The confidence that one can have in the basic finding of hyperserotonemia in autism and the potential benefits to be derived from its explication make further research in this area of great interest.
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PMID:The hyperserotonemia of autism. 225 19

Urinary 5-hydroxyindoleacetic acid (5-HIAA) excretion in two consecutive collection periods (5:00 PM-11:00 PM and 11:00 PM-8:00 AM) and whole blood serotonin (5-HT) and tryptophan (TRP) were measured in groups of unmedicated autistics (n = 16), medicated autistics (n = 20), and normal controls (n = 27). Whole blood 5-HT values were significantly higher in unmedicated autistics compared to normal controls. No significant differences were found in 5-HIAA excretion (microgram/mg creatinine, mean +/- SD) between unmedicated autistics (4.07 +/- 1.52) and normal controls (3.50 +/- 1.07), or between medicated (5.35 +/- 2.93) and drug-free autistic individuals. No correlations were found between 5-HT values and urinary 5-HIAA excretion. Urinary 5-HIAA (microgram/mg creatinine, mean +/- SD) was significantly greater in hyperserotonemic autistic subjects (4.88 +/- 0.87) compared to normal controls (3.50 +/- 1.07, total collection period; p = 0.002). The relevance of these findings to the possibility that increased gut production of 5-HT might cause the elevated whole blood 5-HT levels seen in autism is discussed.
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PMID:Urinary 5-hydroxyindoleacetic acid and whole blood serotonin and tryptophan in autistic and normal subjects. 244 Apr 83

The effects of fenfluramine were examined on 20 children with autism over a 48-week period utilizing a double-blind placebo-controlled crossover design. Blood and urine samples and psychological tests (Griffith's Developmental Scales and Real Life Rating Scale) were obtained at each crossover period. The only significant improvement was a decrease in abnormal motor behavior. We did not find any significant improvement in intellectual functioning or any correlation between good clinical response and low baseline serotonin levels or high baseline IQ. Serotonin decreased 53% after fenfluramine treatment and rebounded to a level 35% higher than baseline following a placebo period. Fenfluramine and the active metabolite norfenfluramine were determined in plasma samples.
J Autism Dev Disord 1989 Dec
PMID:Fenfluramine treatment of twenty children with autism. 260 82

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