Kimberly Wells scite author profile

Glucose is the main energy fuel for the human brain. Maintenance of glucose homeostasis is therefore, crucial to meet cellular energy demands in both-normal physiological states and during stress or increased demands. Glucose is stored as glycogen primarily in the liver and skeletal muscle with a small amount stored in the brain. Liver glycogen primarily maintains blood glucose levels, while skeletal muscle glycogen is utilized during high-intensity exertion, and brain glycogen is an emergency cerebral energy source. Glycogen and glucose transform into one another through glycogen synthesis and degradation pathways. Thus, enzymatic defects along these pathways are associated with altered glucose metabolism and breakdown leading to hypoglycemia ± hepatomegaly and or liver disease in hepatic forms of glycogen storage disorder (GSD) and skeletal ± cardiac myopathy, depending on the site of the enzyme defects. Overall, defects in glycogen metabolism mainly present as GSDs and are a heterogenous group of inborn errors of carbohydrate metabolism. In this article we review the genetics, epidemiology, clinical and metabolic findings of various types of GSD, and glycolysis defects emphasizing current treatment and implications for future directions.

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Neural membrane phospholipids in alzheimer disease

Wells

et al. 1995

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Phospholipids form the backbone of neural membranes, providing fluidity and permeability. Two plasma membrane fractions, one from synaptosomes (SPM), the other from glial and neuronal cell bodies (PM), were prepared from different regions of autopsied Alzheimer disease (AD) brains. Corresponding fractions were prepared from age-matched control brains. All fractions from AD brains showed significantly lower levels of ethanolamine glycerophospholipids and significantly higher levels of serine glycerophospholipids than the control brain. No differences were observed in phosphatidylcholine levels among these membranes. These results suggest that altered phospholipid composition of plasma membranes may be involved in the abnormal signal transduction and neurodegeneration in AD.

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The Implications of Brain MRI in Autism Spectrum Disorder

et al. 2016

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Our objective was to describe the types of providers who refer children with autism spectrum disorder (ASD) for brain magnetic resonance imaging (MRI), the referral reason, and MRI results. The most common referral reasons were autism spectrum disorder with seizures (33.7%), autism spectrum disorder alone (26.3%), and autism spectrum disorder with abnormal neurologic examination or preexisting finding (24%). Neurology (62.5%), general pediatric (22.3%), and developmental/behavioral practitioners (8.9%) referred the most patients. The prevalence of definite pathology was highest in children referred for autism spectrum disorder with abnormal neurologic examination/preexisting finding (26.2%, 95% CI: 16.8%-36%), headaches (25.7%, 95% CI: 11.2%-40.2%), or seizures (22%, 95% CI: 14.6%-29.5%), and was lowest in children referred for autism spectrum disorder alone (6.5%, 95% CI: 1.5%-11.6%). We concluded that there is a low prevalence of definite pathology in children with autism spectrum disorder undergoing brain MRI. In children with abnormal neurologic examination or preexisting finding, seizures, or headaches, one may consider performing brain MRI given the higher prevalence of pathology.

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Kimberly Wells

Glycogen metabolism and glycogen storage disorders

Neural membrane phospholipids in alzheimer disease

The Implications of Brain MRI in Autism Spectrum Disorder

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