Accelerated biological aging: unveiling the path to cardiometabolic multimorbidity, dementia, and mortality.

IF 3 3区 医学 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Frontiers in Public Health Pub Date : 2024-10-30 eCollection Date: 2024-01-01 DOI:10.3389/fpubh.2024.1423016
Yi He, Yu Jia, Yizhou Li, Zhi Wan, Yi Lei, Xiaoyang Liao, Qian Zhao, Dongze Li
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Abstract

Background: Cardiometabolic multimorbidity (CMM) and aging are increasing public health concerns. This prospective study used UK Biobank cohort to investigate the relationship between biological aging and the trajectory of CMM to dementia and mortality.

Methods: CMM is the coexistence of at least two cardiometabolic diseases (CMD), including stroke, ischemic heart disease, and diabetes. Biological age was calculated using the KDM-BA and PhenoAge algorithms. Accelerated aging indicated biological age advances more rapidly than chronological age.

Results: The study included 415,147 individuals with an average age of 56.5 years. During the average 11-year follow-up period, CMD-free individuals with accelerated aging had a significantly greater risk of CMD (KDM-BA, HR 1.456; PhenoAge, HR 1.404), CMM (KDM-BA, HR 1.952; PhenoAge, HR 1.738), dementia (KDM-BA, HR 1.243; PhenoAge, HR 1.212), and mortality (KDM-BA, HR 1.821; PhenoAge, HR 2.047) in fully-adjusted Cox regression models (p < 0.05 for all). Accelerated aging had adjusted HRs of 1.489 (KDM-BA) and 1.488 (PhenoAge) for CMM, 1.434 (KDM-BA) and 1.514 (PhenoAge) for dementia, and 1.943 (KDM-BA) and 2.239 (PhenoAge) for mortality in participants with CMD at baseline (p < 0.05 for all). CMM significantly mediated accelerated aging's indirect effects on dementia by 13.7% (KDM-BA, HR) and 21.6% (PhenoAge); those on mortality were 4.7% (KDM-BA) and 5.2% (PhenoAge). The population attributable-risk of Life's Essential 8 score (≥80 vs. <80) were 0.79 and 0.43 for KDM-BA and PhenoAge accelerated aging, respectively.

Conclusion: Biological aging involves the entire trajectory of CMM from a CMD-free state to CMD, to CMM, and ultimately to dementia and death. Life's Essential 8 may be a potential target to counter age acceleration.

加速生物老化:揭示通往心脏代谢多病、痴呆和死亡之路。
背景:心脏代谢多病症(CMM)和老龄化是日益严重的公共卫生问题。这项前瞻性研究利用英国生物库队列调查了生物衰老与 CMM 走向痴呆和死亡之间的关系:CMM是指至少同时患有两种心脏代谢疾病(CMD),包括中风、缺血性心脏病和糖尿病。采用 KDM-BA 和 PhenoAge 算法计算生物年龄。加速衰老表示生物年龄比计时年龄增长更快:这项研究包括 415,147 人,平均年龄为 56.5 岁。在平均 11 年的随访期间,无 CMD 的加速衰老个体患 CMD(KDM-BA,HR 1.456;PhenoAge,HR 1.404)、CMM(KDM-BA,HR 1.952;PhenoAge,HR 1.738)、痴呆(KDM-BA,HR 1.243;PhenoAge,HR 1.212)和死亡率(KDM-BA,HR 1.821;PhenoAge,HR 2.047)的完全调整 Cox 回归模型(p p 结论):生物衰老涉及从无CMD状态到CMD,再到CMM,最终到痴呆和死亡的整个CMM轨迹。生命必需 8 可能是对抗年龄加速的潜在目标。
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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来源期刊
Frontiers in Public Health
Frontiers in Public Health Medicine-Public Health, Environmental and Occupational Health
CiteScore
4.80
自引率
7.70%
发文量
4469
审稿时长
14 weeks
期刊介绍: Frontiers in Public Health is a multidisciplinary open-access journal which publishes rigorously peer-reviewed research and is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians, policy makers and the public worldwide. The journal aims at overcoming current fragmentation in research and publication, promoting consistency in pursuing relevant scientific themes, and supporting finding dissemination and translation into practice. Frontiers in Public Health is organized into Specialty Sections that cover different areas of research in the field. Please refer to the author guidelines for details on article types and the submission process.
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