Study findings emphasize importance of taking a holistic approach to thinking about nutrients
Columbia University's Mailman School of Public Health
September 21, 2022– The answer to a relatively concise question – how does what we eat affect how we age — is unavoidably complex, according to a new study at the Butler Columbia Aging Center at Columbia University Mailman School of Public Health. While most analyses had been concerned with the effects of a single nutrient on a single outcome, a conventional, unidimensional approach to understanding the effects of diet on health and aging no longer provides us with the full picture: healthy diet needs to be considered based on the balance of ensembles of nutrients, rather than by optimizing a series of nutrients one at a time. Until now little was known about how normal variation in dietary patterns in humans affects the aging process. The findings are published online in the journal BMC Biology.
“Our ability to understand the problem has been complicated by the fact that both nutrition and the physiology of ageing are highly complex and multidimensional, involving a high number of functional interactions,” said Alan Cohen, PhD, associate professor of environmental health sciences at Columbia Mailman School. “This study therefore provides further support to the importance of looking beyond ‘a single nutrient at a time’ as the one size fits all response to the age-old question of how to live a long and healthy life.” Cohen also points that the results are also concordant with numerous studies highlighting the need for increased protein intake in older people, in particular, to offset sarcopenia and decreased physical performance associated with aging.
Using multidimensional modelling techniques to test the effects of nutrient intake on physiological dysregulation in older adults, the researchers identified key patterns of specific nutrients associated with minimal biological aging. “Our approach presents a roadmap for future studies to explore the full complexity of the nutrition-aging landscape,” observed Cohen, who is also affiliated with the Butler Columbia Aging Center.
The researchers analyzed data from 1560 older men and women, aged 67-84 years selected randomly between November 2003 and June 2005 from the Montreal, Laval, or Sherbrooke areas in Quebec, Canada, who were re-examined annually for 3 years and followed over four years to assess on a large-scale how nutrient intake associates with the aging process.
Aging and age-related loss of homeostasis (physiological dysregulation) were quantified via the integration of blood biomarkers. The effects of diet used the geometric framework for nutrition, applied to macronutrients and 19 micronutrients/nutrient subclasses. Researchers fitted a series of eight models exploring different nutritional predictors and adjusted for income, education level, age, physical activity, number of comorbidities, sex, and current smoking status.
Four broad patterns were observed:
The research team also developed an interactive tool to allow users to explore how different combinations of micronutrients affect different aspects of aging.
The results of this study are consistent with earlier experimental work in mice showing that high-protein diets may accelerate aging earlier in life, but are beneficial at older ages.
“These results are not experimental and will need to be validated in other contexts. Specific findings, such as the salience of the combination of vitamin E and vitamin C, may well not replicate in other studies. But the qualitative finding that there are no simple answers to optimal nutrition is likely to hold up: it was evident in nearly all our analyses, from a wide variety of approaches, and is consistent with evolutionary principles and much previous work,” said Cohen.
Co-authors are Alistair M. Senior, David Raubenheimer, and Stephen J. Simpson, University of Sydney; Véronique Legault and Francis B. Lavoie, University of Sherbrooke, Quebec, Canada; Nancy Presse and Valérie Turcot, CIUSSS-de-l’Estrie-CHUS, Sherbrooke, Canada; l’Institut Universitaire de Gériatrie de Montréal, Montréal, Canada, Université de Sherbrooke, Sherbrooke, Canada; Pierrette Gaudreau, Université de Montréal, Montréal, Canada; David G. Le Couteur, University of Sydney and Aging and Alzheimers Institute and ANZAC Research Institute, Concord Hospital, New South Wales, Australia.
The study was supported by the Australian Research Council (ARC DECRA: DE180101520), the Canadian Institutes of Health Research (CIHR) grants 153011 and 62842; as well as grants from Fonds de recherche du Québec(FRQ) grant #2020-VICO-279753, Quebec Network for Research on Aging.
Columbia University Mailman School of Public Health
Founded in 1922, the Columbia University Mailman School of Public Health pursues an agenda of research, education, and service to address the critical and complex public health issues affecting New Yorkers, the nation and the world. The Columbia Mailman School is the fourth largest recipient of NIH grants among schools of public health. Its nearly 300 multi-disciplinary faculty members work in more than 100 countries around the world, addressing such issues as preventing infectious and chronic diseases, environmental health, maternal and child health, health policy, climate change and health, and public health preparedness. It is a leader in public health education with more than 1,300 graduate students from 55 nations pursuing a variety of master’s and doctoral degree programs. The Columbia Mailman School is also home to numerous world-renowned research centers, including ICAP and the Center for Infection and Immunity. For more information, please visit www.mailman.columbia.edu.
BMC Biology
10.1186/s12915-022-01395-z
21-Sep-2022
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Columbia University's Mailman School of Public Health
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Columbia University's Mailman School of Public Health
Copyright © 2022 by the American Association for the Advancement of Science (AAAS)
Copyright © 2022 by the American Association for the Advancement of Science (AAAS)