K. Panchalingam scite author profile

Studies have demonstrated alterations in brain membrane phospholipid metabolite levels in Alzheimer's disease (AD). The changes in phospholipid metabolite levels correlate with neuropathological hallmarks of the disease and measures of cognitive decline. This 31P nuclear magnetic resonance (NMR) study of Folch extracts of autopsy material reveals significant reductions in AD brain levels of phosphatidylethanolamine (PtdEtn) and phosphatidylinositol (PtdIns), and elevations in sphingomyelin (SPH) and the plasmalogen derivative of PtdEtn. In the superior temporal gyrus, there were additional reductions in the levels of diphosphatidylglycerol (DPG) and phosphatidic acid (PtdA). The findings are present in 3/3 as well as 3/4 and 4/4 apolipoprotein E (apoE) genotypes. The AD findings do not appear to reflect non-specific neurodegeneration or the presence of gliosis. The present findings could possibly contribute to an abnormal membrane repair in AD brains which ultimately results in synaptic loss and the aggregation of A beta peptide.

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Increased cerebrospinal fluid glutamine levels in depressed patients

Levine¹,

Panchalingam²,

Rapoport³

et al. 2000

Biological Psychiatry

212

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N ‐acetyl‐L‐aspartate and other amino acid metabolites in Alzheimer's disease brain

Klunk¹,

Panchalingam²,

Moossy³

et al. 1992

Neurology

167

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We used proton nuclear magnetic resonance spectroscopy in this preliminary study of perchloric acid extracts of 12 Alzheimer's disease (AD) and five control brain samples to measure the relative levels of taurine, aspartate, glutamine, glutamate, gamma-aminobutyric acid (GABA), and the putative neuronal marker, N-acetyl-L-aspartate (NAA). We found no significant changes in taurine, aspartate, or glutamine. NAA was lower in AD compared with control, and this decrease correlated with the number of senile plaques and neurofibrillary tangles in adjacent tissue sections. GABA levels also were lower in AD brain. Glutamate levels were greater in AD than control and showed a close, inverse correlation with NAA levels. These findings suggest that the decrease in NAA reflects neuronal loss and that remaining neurons could be exposed to a relative excess of glutamate and a relative lack of GABA. If present in the neurotransmitter pool, this imbalance could result in neurotoxic cell damage. This hypothesis is further supported by in vitro and in vivo phosphorus 31 nuclear magnetic resonance findings.

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A preliminary 31P MRS study of autism: Evidence for undersynthesis and increased degradation of brain membranes

Minshew¹,

Goldstein²,

Dombrowski³

et al. 1993

Biological Psychiatry

167

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Clinical and neurochemical effects of acetyl-L-carnitine in Alzheimer's disease

Pettegrew

Klunk

Panchalingam

et al. 1995

Neurobiology of Aging

125

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Correlation of Phosphorus-31 Magnetic Resonance Spectroscopy and Morphologic Findings in Alzheimer's Disease

Pettegrew

Panchalingam²,

Moossy³

et al. 1988

Archives of Neurology

138

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K. Panchalingam

Alterations of cerebral metabolism in probable Alzheimer's disease: A preliminary study

Alterations in Brain High-Energy Phosphate and Membrane Phospholipid Metabolism in First-Episode, Drug-Naive Schizophrenics

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Increased cerebrospinal fluid glutamine levels in depressed patients

N ‐acetyl‐L‐aspartate and other amino acid metabolites in Alzheimer's disease brain

A preliminary 31P MRS study of autism: Evidence for undersynthesis and increased degradation of brain membranes

Clinical and neurochemical effects of acetyl-L-carnitine in Alzheimer's disease

Correlation of Phosphorus-31 Magnetic Resonance Spectroscopy and Morphologic Findings in Alzheimer's Disease

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