Xiaolong Chang scite author profile

Background: The application of non-invasive proton magnetic resonance spectroscopy ( 1 H-MRS) could potentially identify changes in cerebral metabolites in the patients with Alzheimer's disease (AD). However, whether these metabolites can serve as biomarkers for the diagnosis of AD remains unclear. Objective: Using meta-analysis, we aimed to investigate the patterns of cerebral metabolite changes in several cerebral regions that are strongly associated with cognitive decline in AD patients. Methods: Using Hedges' g effect size, a systematic search was performed in PubMed, Cochrane Library, Ovid, Embase, and EBSCO, and 38 studies were integrated into the final meta-analysis. Results: According to the observational studies, N-acetyl aspartate (NAA) in AD patients was significantly reduced in the posterior cingulate (PC) (effect size (ES) = −0.924, p < 0.005) and bilateral hippocampus (left hippocampus: ES = −1.329, p < 0.005; right hippocampus: ES = −1.287, p < 0.005). NAA/Cr (creatine) ratio decreased markedly in the PC (ES = −1.052, p < 0.005). Simultaneously, significant elevated myo-inositol (mI)/Cr ratio was found not only in the PC but also in the parietal gray matter. For lack of sufficient data, we failed to elucidate the efficacy of pharmacological interventions with the metabolites changes. Conclusion:The available data indicates that NAA, mI, and the NAA/Cr ratio might be potential biomarkers of brain dysfunction in AD subjects. Choline (Cho)/Cr and mI/NAA changes might also contribute toward the diagnostic process. Thus, large, welldesigned studies correlated with cerebral metabolism are needed to better estimate the cerebral extent of alterations in brain metabolite levels in AD patients.

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The Role of TDP-43 in Alzheimer’s Disease

Chang

Tan

et al. 2015

Mol Neurobiol

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The transactive response DNA binding protein (TDP-43) has long been characterized as a main hallmark of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration with ubiquitin-positive inclusions (FTLD-U, also known as FTLD-TDP). Several studies have indicated TDP-43 deposits in Alzheimer's disease (AD) brains and have robust connection with AD clinical phenotype. FTLD-U, which was symptomatically connected with AD, may be predictable for the comprehension of the role TDP-43 in AD. TDP-43 may contribute to AD through both β-amyloid (Aβ)-dependent and Aβ-independent pathways. In this article, we summarize the latest studies concerning the role of TDP-43 in AD and explore TDP-43 modulation as a potential therapeutic strategy for AD. However, to date, little of pieces of the research on TDP-43 have been performed to investigate the role in AD; more investigations need to be confirmed in the future.

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Accuracy of the Blend Sign on Computed Tomography as a Predictor of Hematoma Growth after Spontaneous Intracerebral Hemorrhage: A Systematic Review

Lei

Geng

Chen

et al. 2018

Journal of Stroke and Cerebrovascular Diseases

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Xiaolong Chang

Magnetic Resonance Spectroscopy in Alzheimer’s Disease: Systematic Review and Meta-Analysis

The Role of TDP-43 in Alzheimer’s Disease

Accuracy of the Blend Sign on Computed Tomography as a Predictor of Hematoma Growth after Spontaneous Intracerebral Hemorrhage: A Systematic Review

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