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Query: UMLS:C0004352 (
autism
)
32,579
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A 40-year-old man was referred to our hospital because of vertical supranuclear gaze palsy, frequent sudden loss of muscle tonus and ataxia for several years. He had a history of prolonged neonatal jaundice. He was given a diagnosis of
autism
in his childhood, followed by a diagnosis of schizophrenia in his teenage. He also developed a savant skill of calendar calculating. (123)I-
IMP
-SPECT showed decreased cerebral blood flow in the left frontotemporal lobe as often seen in savant syndrome. Although genetic analysis of NPC1 and NPC2 revealed no pathogenic mutation, filipin staining of cultured fibroblasts from his biopsied skin revealed a certain amount of intracellular cholesterol storage pattern, indicating a variant biochemical phenotype of Niemann-Pick disease type C (NPC). The diagnosis of adulthood onset NPC is difficult and challenging, especially for neurologists, because the symptoms and signs are not as clear as those in the classical childhood onset NPC and this subtype is not yet widely known. However, the diagnosis can be made by a combination of filipin staining of fibroblast and/or gene analysis. As a disease-specific therapy for NPC has been approved in Japan, the diagnosis of NPC is of significance.
...
PMID:A case of variant biochemical phenotype of Niemann-Pick disease type C accompanying savant syndrome. 2718 47
Accumulating evidence has strengthened a link between dysbiotic gut microbiota and
autism
. Fecal microbiota transplant (FMT) is a promising therapy to repair dysbiotic gut microbiota. We previously performed intensive FMT called microbiota transfer therapy (MTT) for children with
autism
spectrum disorders (ASD) and observed a substantial improvement of gastrointestinal and behavioral symptoms. We also reported modulation of the gut microbiome toward a healthy one. In this study, we report comprehensive metabolite profiles from plasma and fecal samples of the children who participated in the MTT trial. With 619 plasma metabolites detected, we found that the
autism
group had distinctive metabolic profiles at baseline. Eight metabolites (nicotinamide riboside,
IMP
, iminodiacetate, methylsuccinate, galactonate, valylglycine, sarcosine, and leucylglycine) were significantly lower in the ASD group at baseline, while caprylate and heptanoate were significantly higher in the ASD group. MTT drove global shifts in plasma profiles across various metabolic features, including nicotinate/nicotinamide and purine metabolism. In contrast, for 669 fecal metabolites detected, when correcting for multiple hypotheses, no metabolite was significantly different at baseline. Although not statistically significant,
p
-cresol sulfate was relatively higher in the ASD group at baseline, and after MTT, the levels decreased and were similar to levels in typically developing (TD) controls.
p
-Cresol sulfate levels were inversely correlated with
Desulfovibrio
, suggesting a potential role of
Desulfovibrio
on
p
-cresol sulfate modulation. Further studies of metabolites in a larger ASD cohort, before and after MTT, are warranted, as well as clinical trials of other therapies to address the metabolic changes which MTT was not able to correct.
IMPORTANCE
Despite the prevalence of
autism
and its extensive impact on our society, no U.S. Food and Drug Administration-approved treatment is available for this complex neurobiological disorder. Based on mounting evidences that support a link between
autism
and the gut microbiome, we previously performed a pioneering open-label clinical trial using intensive fecal microbiota transplant. The therapy significantly improved gastrointestinal and behavioral symptoms. Comprehensive metabolomic measurements in this study showed that children with
autism
spectrum disorder (ASD) had different levels of many plasma metabolites at baseline compared to those in typically developing children. Microbiota transfer therapy (MTT) had a systemic effect, resulting in substantial changes in plasma metabolites, driving a number of metabolites to be more similar to those from typically developing children. Our results provide evidence that changes in metabolites are one mechanism of the gut-brain connection mediated by the gut microbiota and offer plausible clinical evidence for a promising
autism
treatment and biomarkers.
...
PMID:Distinct Fecal and Plasma Metabolites in Children with Autism Spectrum Disorders and Their Modulation after Microbiota Transfer Therapy. 3308 14
