[1] Ferrucci L, Levine ME, Kuo PL, Simonsick EM. Time and the metrics of aging. Circ Res 2018;123(7):7404.CrossRef
[2] Hägg S, Belsky DW, Cohen AA. Developments in molecular epidemiology of aging. Emerg Top Life Sci 2019;3(4):41121.CrossRef
[3] Belsky DW, Moffitt TE, Cohen AA, Corcoran DL, Levine ME, Prinz JA, et al. Eleven telomere, epigenetic clock, and biomarker-composite quantifications of biological aging: do they measure the same thing? Am J Epidemiol 2018;187(6):1220-30. http://dx.doi.org/10.1093/aje/kwx346.
[4] Soares S, López-Cheda A, Santos AC, Barros H, Fraga S. How do early socioeconomic circumstances impact inflammatory trajectories? Findings from generation XXI. Psychoneuroendocrinology 2020;119:104755.CrossRef
[5] Carmeli C, Kutalik Z, Mishra PP, Porcu E, Delpierre C, Delaneau O, et al. Gene regulation contributes to explain the impact of early life socioeconomic disadvantage on adult inflammatory levels in two cohort studies. Sci Rep 2021;11(1):3100.CrossRef
[6] Barton AW, Yu TY, Gong QJ, Miller GE, Chen E, Brody GH. Childhood poverty, immune cell aging, and African Americans' insulin resistance: a prospective study. Child Dev 2022;93(5):161624.CrossRef
[7] Ploubidis GB, Batty GD, Patalay P, Bann D, Goodman A. Association of early-life mental health with biomarkers in midlife and premature mortality: evidence from the 1958 British Birth Cohort. JAMA Psychiatry 2021;78(1):3846.CrossRef
[8] Mian O, Belsky DW, Cohen AA, Anderson LN, Gonzalez A, Ma JH, et al. Associations between exposure to adverse childhood experiences and biological aging: evidence from the Canadian longitudinal study on aging. Psychoneuroendocrinology 2022;142:105821.CrossRef
[9] Wang Y, Li J, Yuan JY, Zhang G, Li T, Xu Q, et al. Association of early life adversity with allostatic load in girls with precocious puberty. Chin J Sch Health 2022;43(11):16904.CrossRef
[10] Yang G, Cao XQ, Li XQ, Zhang JY, Ma C, Zhang N, et al. Association of unhealthy lifestyle and childhood adversity with acceleration of aging among UK biobank participants. JAMA Netw Open 2022;5(9):e2230690.CrossRef
[11] Rasmussen LJH, Moffitt TE, Arseneault L, Danese A, Eugen-Olsen J, Fisher HL, et al. Association of adverse experiences and exposure to violence in childhood and adolescence with inflammatory burden in young people. JAMA Pediatr 2020;174(1):3847.CrossRef
[12] Renna ME, Peng J, Shrout MR, Madison AA, Andridge R, Alfano CM, et al. Childhood abuse histories predict steeper inflammatory trajectories across time. Brain Behav Immun 2021;91:5415.CrossRef
[13] Kuzminskaite E, Vinkers CH, Elzinga BM, Wardenaar KJ, Giltay EJ, Penninx BWJH. Childhood trauma and dysregulation of multiple biological stress systems in adulthood: results from the netherlands study of depression and anxiety (NESDA). Psychoneuroendocrinology 2020;121:104835.CrossRef
[14] Nguyen JK, Thurston RC. Association of childhood trauma exposure with inflammatory biomarkers among midlife women. J Womens Health (Larchmt) 2020;29(12):15406.CrossRef
[15] Wang W, Jiang X, Wan YH, Xu HQ, Zeng HJ, Yang R, et al. Associations among childhood abuse experience and Interleukin-6 in middle school students. Chin J Sch Health 2019;40(3):3847,391.CrossRef
[16] Li L, Pinto Pereira SM, Power C. Childhood maltreatment and biomarkers for cardiometabolic disease in mid-adulthood in a prospective British birth cohort: associations and potential explanations. BMJ Open 2019;9(3):e024079.CrossRef
[17] O'Shields J, Patel D, Mowbray OP. Childhood maltreatment and inflammation: Leveraging structural equation modeling to test the social signal transduction theory of depression. J Affect Disord 2022;311:17380.CrossRef
[18] John-Henderson NA, Henderson-Matthews B, Ollinger SR, Racine J, Gordon MR, Higgins AA, et al. Adverse childhood experiences and immune system inflammation in adults residing on the blackfeet reservation: the moderating role of sense of belonging to the community. Ann Behav Med 2020;54(2):8793.CrossRef
[19] Trotta A, Arseneault L, Danese A, Mondelli V, Rasmussen LJH, Fisher HL. Associations between childhood victimization, inflammatory biomarkers and psychotic phenomena in adolescence: a longitudinal cohort study. Brain Behav Immun 2021;98:7485.CrossRef
[20] Bourassa KJ, Rasmussen LJH, Danese A, Eugen-Olsen J, Harrington H, Houts R, et al. Linking stressful life events and chronic inflammation using suPAR (soluble urokinase plasminogen activator receptor). Brain Behav Immun 2021;97:7988.CrossRef
[21] Rasmussen LJH, Moffitt TE, Eugen-Olsen J, Belsky DW, Danese A, Harrington H, et al. Cumulative childhood risk is associated with a new measure of chronic inflammation in adulthood. J Child Psychol Psychiatry 2019;60(2):199208.CrossRef
[22] Sun Y, Fang J, Xu YX, Xu LP, Su PY, Zhang ZH, et al. Association between prolonged separation from parents and allostatic load among children in China. Psychoneuroendocrinology 2020;118:104715.CrossRef
[23] Niño MD, Cai TJ. Timing of parental incarceration and allostatic load: a developmental life course approach. Ann Epidemiol 2020;43:1824.CrossRef
[24] Richmond-Rakerd LS, Caspi A, Ambler A, d'Arbeloff T, de Bruine M, Elliott M, et al. Childhood self-control forecasts the pace of midlife aging and preparedness for old age. Proc Natl Acad Sci USA 2021;118(3):e2010211118.CrossRef
[25] Steptoe A, Zaninotto P. Lower socioeconomic status and the acceleration of aging: an outcome-wide analysis. Proc Natl Acad Sci USA, 2020;117(26):149117.CrossRef
[26] Ding XJ, Barban N, Mills MC. Educational attainment and allostatic load in later life: evidence using genetic markers. Prev Med 2019;129:105866.CrossRef
[27] Karimi M, Castagné R, Delpierre C, Albertus G, Berger E, Vineis P, et al. Early-life inequalities and biological ageing: a multisystem Biological Health Score approach in Understanding Society. J Epidemiol Community Health 2019;73(8):693702.CrossRef
[28] Wahrendorf M, Chandola T, Goldberg M, Zins M, Hoven H, Siegrist J. Adverse employment histories and allostatic load: associations over the working life. J Epidemiol Community Health 2022;76(4):37481.CrossRef
[29] Cao XQ, Yang G, Li XQ, Fu JJ, Mohedaner M, Danzengzhuoga N, et al. Weight change across adulthood and accelerated biological aging in middle-aged and older adults. Am J Clin Nutr 2023;117(1):111.CrossRef
[30] Rehkopf DH, Duong A, Dow WH, Rosero-Bixby L. Life-course BMI and biomarkers in persons aged 60 years or older: a comparison of the USA and Costa Rica. Public Health Nutr 2019;22(2):31423.CrossRef
[31] Wang CM, Guan X, Bai YS, Feng Y, Wei W, Li H, et al. A machine learning-based biological aging prediction and its associations with healthy lifestyles: the Dongfeng-Tongji cohort. Ann N Y Acad Sci 2022;1507(1):10820.CrossRef
[32] McCrory C, Fiorito G, Ni Cheallaigh C, Polidoro S, Karisola P, Alenius H, et al. How does socio-economic position (SEP) get biologically embedded? A comparison of allostatic load and the epigenetic clock(s). Psychoneuroendocrinology 2019;104:6473.CrossRef
[33] van Deurzen I, Vanhoutte B. A longitudinal study of allostatic load in later life: the role of sex, birth cohorts, and risk accumulation. Res Aging 2019;41(5):41942.CrossRef
[34] Graf GHJ, Zhang YL, Domingue BW, Harris KM, Kothari M, Kwon D, et al. Social mobility and biological aging among older adults in the United States. PNAS Nexus 2022;1(2):pgac029.CrossRef
[35] Schrempft S, Belsky DW, Draganski B, Kliegel M, Vollenweider P, Marques-Vidal P, et al. Associations between life-course socioeconomic conditions and the pace of aging. J Gerontol A Biol Sci Med Sci 2022;77(11):225764.CrossRef
[36] Liu ZY, Chen X, Gill TM, Ma C, Crimmins EM, Levine ME. Associations of genetics, behaviors, and life course circumstances with a novel aging and healthspan measure: evidence from the Health and Retirement Study. PLoS Med 2019;16(6):e1002827.CrossRef
[37] Yang YC, Schorpp K, Boen C, Johnson M, Harris KM. Socioeconomic status and biological risks for health and illness across the life course. J Gerontol Ser B 2020;75(3):61324.CrossRef
[38] Surachman A, Rice C, Bray B, Gruenewald T, Almeida D. Association between socioeconomic status mobility and inflammation markers among white and black adults in the United States: a latent class analysis. Psychosom Med 2020;82(2):22433.CrossRef
[39] Lam PH, Chiang JJ, Chen E, Miller GE. Race, socioeconomic status, and low-grade inflammatory biomarkers across the lifecourse: a pooled analysis of seven studies. Psychoneuroendocrinology 2021;123:104917.CrossRef
[40] Thomas Tobin CS, Hargrove TW. Race, lifetime SES, and allostatic load among older adults. J Gerontol Ser A 2022;77(2):34756.CrossRef
[41] Ong AD, Williams DR. Lifetime discrimination, global sleep quality, and inflammation burden in a multiethnic sample of middle-aged adults. Cultur Divers Ethnic Minor Psychol 2019;25(1):8290.CrossRef
[42] Cao XQ, Zhang JY, Ma C, Li XQ, Kuo CL, Levine ME, et al. Life course traumas and cardiovascular disease-the mediating role of accelerated aging. Ann N Y Acad Sci 2022;1515(1):20818.CrossRef
[43] Cao XQ, Ma C, Zheng ZT, He L, Hao M, Chen X, et al. Contribution of life course circumstances to the acceleration of phenotypic and functional aging: a retrospective study. eClinicalMedicine 2022;51:101548.CrossRef
[44] Langevin S, Caspi A, Barnes JC, Brennan G, Poulton R, Purdy SC, et al. Life-course persistent antisocial behavior and accelerated biological aging in a longitudinal birth cohort. Int J Environ Res Public Health 2022;19(21):14402.CrossRef