HIV 感染后脑结构变化：荟萃分析。

Brain Structural Changes following HIV Infection: Meta-Analysis.

机构信息

From the Department of Radiology (E.E.O.), University of Maryland Medical System, Baltimore, Maryland

Neurometrika (Timothy A. Zeffiro, Thomas A. Zeffiro), Potomac, Maryland.

出版信息

AJNR Am J Neuroradiol. 2018 Jan;39(1):54-62. doi: 10.3174/ajnr.A5432. Epub 2017 Nov 2.

DOI:10.3174/ajnr.A5432

PMID:29097412

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7410705/

Abstract

BACKGROUND

Numerous studies have used structural neuroimaging to measure HIV effects on brain macroarchitecture. While many have reported changes in total brain volume, gray matter volume, white matter volume, CSF volume, and basal ganglia volume following HIV infection, quantitative inconsistencies observed across studies are large.

PURPOSE

Our aim was to evaluate the consistency and temporal stability of serostatus effects on a range of structural neuroimaging measures.

DATA SOURCES

PubMed, reference lists, and corresponding authors.

STUDY SELECTION

The meta-analysis included 19 cross-sectional studies reporting HIV effects on cortical and subcortical volume from 1993 to 2016.

DATA ANALYSIS

Random-effects meta-analysis was used to estimate individual study standardized mean differences and study heterogeneity. Meta-regression was used to examine the effects of the study publication year.

DATA SYNTHESIS

Meta-analysis revealed standardized mean differences related to the serostatus of -0.65 ( = .002) for total brain volume, -0.28 for gray matter volume ( = .008), -0.24 ( = .076) for white matter volume, and 0.56 ( = .001) for CSF volume. Basal ganglia volume differences related to serostatus were not significant. Nevertheless, estimates of between-study heterogeneity suggested that much of the observed variance was between studies. Publication year was associated with recent reductions in many neurostructural effects.

LIMITATIONS

Many studies pooled participants with varying durations of treatment, disease, and comorbidities. Image-acquisition methods changed with time.

CONCLUSIONS

While published studies of HIV effects on brain structure had substantial variations that are likely to result from changes in HIV treatment practice during the study period, quantitative neurostructural measures can reliably detect the effects of HIV infection during treatment, serving as reliable biomarkers.

摘要

背景

大量研究采用结构神经影像学来测量 HIV 对大脑宏观结构的影响。虽然许多研究报告了 HIV 感染后总脑容量、灰质容量、白质容量、CSF 容量和基底节容量的变化，但观察到的跨研究定量不一致性很大。

目的

我们旨在评估一系列结构神经影像学测量中血清状态对其的一致性和时间稳定性。

数据来源

PubMed、参考文献列表和相应的作者。

研究选择

荟萃分析包括 19 项从 1993 年到 2016 年报道 HIV 对皮质和皮质下体积影响的横断面研究。

数据分析

使用随机效应荟萃分析来估计个体研究的标准化均数差和研究异质性。使用元回归来检验研究发表年份的影响。

数据综合

荟萃分析显示，与血清状态相关的标准化均数差异为 -0.65（ =.002），全脑容量为 -0.28（ =.008），灰质容量为 -0.24（ =.076），CSF 容量为 0.56（ =.001）。基底节容量与血清状态的差异无统计学意义。然而，研究间异质性的估计表明，观察到的大部分差异是在研究之间。发表年份与许多神经结构效应的近期减少有关。

局限性

许多研究将不同治疗时间、疾病和合并症的参与者进行了混合。图像采集方法随时间而变化。

结论

尽管发表的关于 HIV 对大脑结构影响的研究存在很大的差异，这可能是由于研究期间 HIV 治疗实践的变化，但定量神经结构测量可以可靠地检测治疗期间 HIV 感染的影响，作为可靠的生物标志物。

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