Interactions between muscle volume and body mass index on brain structure in the UK Biobank.

Frontiers in dementia Pub Date : 2024-09-23 eCollection Date: 2024-01-01 DOI:10.3389/frdem.2024.1456716

Alicia Lu, Stephanie Than, Richard Beare, Alexandra La Hood, Taya Annabelle Collyer, Velandai Srikanth, Chris Moran

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Abstract

Background: Low skeletal muscle volume may increase dementia risk through mechanisms affecting brain structure. However, it is unclear whether this relationship exists outside of sarcopenia and/or varies by other factors. We aimed to study the interplay between skeletal muscle volume and factors, such as age, sex, and body mass index (BMI), in explaining brain structure at midlife in a cohort without sarcopenia.

Methods: We used abdominal and brain magnetic resonance imaging (MRI) data from a population-based cohort enrolled in the UK Biobank. The following measures were derived: thigh fat-free muscle volume (FFMV), total brain volume (TBV), gray matter volume (GMV), white matter volume (WMV), total hippocampal volume (THV), and white matter hyperintensity volume (WMHV). Participants below sex-based grip strength thresholds suggesting probable sarcopenia were excluded. Linear regression analysis was used to study the interaction or mediation effects of age, sex, and BMI on the associations between FFMV and brain volumes.

Results: Data were available for 20,353 participants (median age 64 years, 53% female). We found interactions between thigh FFMV, BMI, and age (all p < 0.05). Greater thigh FFMV was associated with better brain volumes in those aged <64 years with normal (TBV: β = 2.0 ml/L, p = 0.004; GMV: β = 0.8 ml/L, p = 0.04; WMV: β = 1.1 ml/L, p = 0.006; WMHV: β = -0.2 ml/L, p = 3.7 × 10^-5) or low BMI (TBV: β = 21.2 ml/L, p = 0.003; WMV: β = 13.3 ml/L, p = 0.002, WMHV: β = -1.1 ml/L, p = 0.04).

Conclusion: Greater thigh muscle volume correlates with better brain volumes at midlife in people without sarcopenia, but this relationship weakens with greater age and BMI. Further study is required to investigate the underlying mechanisms to understand which components of body composition are potentially modifiable risk factors for dementia.

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英国生物库中肌肉体积和体重指数对大脑结构的相互作用。

背景：骨骼肌体积过小可能会通过影响大脑结构的机制增加痴呆症风险。然而，目前还不清楚这种关系是否存在于肌肉疏松症之外和/或因其他因素而异。我们旨在研究骨骼肌体积与年龄、性别和体重指数（BMI）等因素之间的相互作用，以解释无肌肉疏松症人群中年时的大脑结构：我们使用了英国生物库中一个人群组群的腹部和脑部磁共振成像（MRI）数据。我们得出了以下测量指标：大腿无脂肪肌肉体积（FFMV）、大脑总体积（TBV）、灰质体积（GMV）、白质体积（WMV）、海马总体积（THV）和白质高密度体积（WMHV）。低于基于性别的握力阈值、提示可能患有肌肉疏松症的参与者被排除在外。线性回归分析用于研究年龄、性别和体重指数对 FFMV 和脑容量之间关系的交互或中介效应：我们获得了 20353 名参与者（中位年龄 64 岁，53% 为女性）的数据。我们发现大腿FFMV、体重指数（BMI）和年龄之间存在交互作用（均 p < 0.05）。年龄越大，大腿 FFMV 越大，脑容量越大，p = 0.004；GMV：β = 0.8 ml/L，p = 0.04；WMV：β = 1.1 ml/L，p = 0.006；WMHV：β = -0.2 ml/L，p = 3.7 × 10-5）或低体重指数（TBV：β = 21.2 ml/L，p = 0.003；WMV：β = 13.3 ml/L，p = 0.002，WMHV：β = -1.1 ml/L，p = 0.04）：结论：对于无肌肉疏松症的人来说，大腿肌肉体积越大，中年时脑容量越大，但这种关系会随着年龄和体重指数的增加而减弱。需要进一步研究其潜在机制，以了解身体成分的哪些部分可能是导致痴呆症的潜在风险因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in dementia

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