出生结局、青春期启动和肥胖作为青年期生物衰老的长期预测因素。
Birth outcomes, puberty onset, and obesity as long-term predictors of biological aging in young adulthood.
作者信息
Jáni Martin, Zacková Lenka, Piler Pavel, Andrýsková Lenka, Brázdil Milan, Marečková Klára
机构信息
Brain and Mind Research, Central European Institute of Technology, Masaryk University, Brno, Czechia.
Department of Psychiatry, Faculty of Medicine, Masaryk University and University Hospital Brno, Brno, Czechia.
出版信息
Front Nutr. 2023 Jan 10;9:1100237. doi: 10.3389/fnut.2022.1100237. eCollection 2022.
BACKGROUND
Biological aging and particularly the deviations between biological and chronological age are better predictors of health than chronological age alone. However, the predictors of accelerated biological aging are not very well understood. The aim was to determine the role of birth outcomes, time of puberty onset, body mass index (BMI), and body fat in accelerated biological aging in the third decade of life.
METHODS
We have conducted a second follow-up of the Czech part of the European Longitudinal Study of Pregnancy and Childhood (ELSPAC-CZ) prenatal birth cohort in young adulthood (52% male; age 28-30; = 262) to determine the role of birth outcomes, pubertal timing, BMI, and body fat on biological aging. Birth outcomes included birth weight, length, and gestational age at birth. Pubertal timing was determined by the presence of secondary sexual characteristics at the age of 11 and the age of first menarche in women. Biological age was estimated using the Klemera-Doubal Method (KDM), which applies 9-biomarker algorithm including forced expiratory volume in one second (FEV1), systolic blood pressure, glycated hemoglobin, total cholesterol, C-reactive protein, creatinine, urea nitrogen, albumin, and alkaline phosphatase. Accelerated/decelerated aging was determined as the difference between biological and chronological age (BioAGE).
RESULTS
The deviations between biological and chronological age in young adulthood ranged from -2.84 to 4.39 years. Accelerated biological aging was predicted by higher BMI [in both early (R = 0.05) and late 20s (R = 0.22)], subcutaneous (R = 0.21) and visceral fat (R = 0.25), puberty onset (η = 0.07), birth length (R = 0.03), and the increase of BMI over the 5-year period between the two follow-ups in young adulthood (R = 0.09). Single hierarchical model revealed that shorter birth length, early puberty onset, and greater levels of visceral fat were the main predictors, together explaining 21% of variance in accelerated biological aging.
CONCLUSION
Our findings provide comprehensive support of the Life History Theory, suggesting that early life adversity might trigger accelerated aging, which leads to earlier onset of puberty but decreasing fitness in adulthood, reflected by more visceral fat and higher BMI. Our findings also suggest that reduction of BMI in young adulthood slows down biological aging.
背景
生物衰老,尤其是生物年龄与实际年龄之间的差异,比单纯的实际年龄更能预测健康状况。然而,对于加速生物衰老的预测因素,我们还了解得不够透彻。本研究旨在确定出生结局、青春期开始时间、体重指数(BMI)和体脂在成年早期加速生物衰老过程中的作用。
方法
我们对欧洲孕期与儿童纵向研究(ELSPAC - CZ)捷克部分的产前出生队列进行了第二次随访,该队列处于青年期(男性占52%;年龄28 - 30岁;n = 262),以确定出生结局、青春期时间、BMI和体脂对生物衰老的作用。出生结局包括出生体重、身长和出生时的孕周。青春期时间通过11岁时第二性征的出现情况以及女性初潮年龄来确定。生物年龄采用克莱梅拉 - 杜巴尔方法(KDM)进行估算,该方法应用包含一秒用力呼气量(FEV1)、收缩压、糖化血红蛋白、总胆固醇、C反应蛋白、肌酐、尿素氮、白蛋白和碱性磷酸酶的9种生物标志物算法。加速/减速衰老通过生物年龄与实际年龄之差(生物年龄差值)来确定。
结果
青年期生物年龄与实际年龄的差异在 - 2.84岁至4.39岁之间。较高的BMI(在20岁出头时R = 0.05,接近30岁时R = 0.22)、皮下脂肪(R = 0.21)和内脏脂肪(R = 0.25)、青春期开始时间(η² = 0.07)、出生身长(R = 0.03)以及成年早期两次随访之间5年期间BMI的增加(R = 0.09)可预测加速生物衰老。单一层次模型显示,较短的出生身长、青春期提前开始和较高水平的内脏脂肪是主要预测因素,共同解释了加速生物衰老中21%的变异。
结论
我们的研究结果为生命史理论提供了全面支持,表明早期生活逆境可能引发加速衰老,进而导致青春期提前开始,但成年后健康状况下降,表现为更多的内脏脂肪和更高的BMI。我们的研究结果还表明,成年早期降低BMI可减缓生物衰老。
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