Pennington Biomedical’s Dr. Steven Heymsfield and Colleague Publish Guidance on Energy and Macronutrients Across the Lifespan
April 17, 2024 · Baton Rouge, LA
In the growing campaign positioning “Food as Medicine,” Dr. Heymsfield joins Dr. Sue
Shapses of Rutgers University to share a matrix of variables to consider when crafting
nutrient-rich diets
BATON ROUGE – In the long history of recommendations for nutritional intake, current
research is trending toward the concept of “food as medicine” – a philosophy in which
food and nutrition are positioned within interventions to support health and wellness.
In the paper – “Guidance on Energy and Macronutrients Across the Lifespan” – by Pennington Biomedical Research Center’s Dr. Steven Heymsfield, he shares the
latest clarity and recommendations in the rich and storied history of energy and macronutrient
intake.
The research paper by Dr. Heymsfield and colleague Dr. Sue Shapses, Professor of Nutritional
Sciences at Rutgers University and Director of the Next Center at the New Jersey Institute
for Food, Nutrition and Health, was recently published in the New England Journal
of Medicine, showcasing recommendations with increased clarity for protein, fat, carbohydrates,
fiber and water intake at various stages in the human lifespan.
"Couple with the amount and pattern of the foods people eat, the primary macronutrients
of protein, carbohydrates and fat can shape the major determinates of health throughout
the lifespan,” said Dr. Heymsfield, who is a professor of Metabolism & Body Composition
at Pennington Biomedical. “Even considering the incredible diversity of traits and
nutritional needs across the global population, we can potentially provide effective
care for all patients, including the growing number of patients with diet-related
diseases, so long as we recognize the subtle effects of the key macronutrients.”
Throughout the research document, the authors frequently reference the original, historic
research for which they are providing the latest incarnation and related knowledge.
Focusing primarily on energy and three macronutrients – protein, carbohydrates and
fat, and their subsequent substrates – amino acids, glucose and free fatty acids,
the paper shows how these can fuel growth and maintenance throughout life. For optimal
health, the study provides dietary reference intakes for the three micronutrients
at various stages: 0 to 6 months, 7 months to slightly less than a year old, one year
to three, four to eight years, nine to 13 years, 14 to 18 years, over 19 years, and
then additional recommendations for pregnancy and lactation.
The research goes on to provide recommendations to patients and caregivers on healthy
eating patterns consistent with the energy and macronutrient guidelines and includes
an online calculator (https://www.nal.usda.gov/human-nutrition-and-food-safety/dri-calculator). While the energy requirements and variable needs for the three main macronutrients
and multiple micronutrients vary across the nine life stage groups, there are overarching
nutritional goals for patients when choosing healthy food patterns. A variety of healthy
meal pattern examples are available, but reoccurring components feature the inclusion
of vegetables of all types, whole fruits, fat-free or low-fat dairy, lean meats, seafood,
eggs, beans, and nuts, plant- and seafood-based oils, and grains, with at least half
of those being whole grains.
The need to incorporate the three main macronutrient groups and micronutrients into
the diets of the various life stage groups is a matrix that is further complicated
as varying financial resources, personal preferences, cultural backgrounds and ethnic
food traditions are accounted for. The paper structures a priority framework, offering
better insights into those diets that can be tailored for specific diet-related chronic
conditions, such as obesity or type 2 diabetes.
“The legacy of research into dietary nutrition continues to refine what we know about
our bodies and the capacity for a tailored diet, featuring key macronutrients to support
our long-term health,” said Dr. John Kirwan, Executive Director of Pennington Biomedical
Research Center. “Dr. Heymsfield’s recent paper in the New England Journal of Medicine
is the latest contribution to this research history of contributing to the knowledge
base, and further promotes the notion of ‘food as medicine’ – delivering the potential
to improve health across the lifespan with bespoke, nutrient-rich diets.”
For more information contact:
Joe Coussan, Media Relations Manager, joe.coussan@pbrc.edu, 225-763-3049 or Ernie Ballard, Senior Director of Communications & Marketing, ernie.ballard@pbrc.edu, 225-263-2677.
About the Pennington Biomedical Research Center
The Pennington Biomedical Research Center is at the forefront of medical discovery as it relates to understanding the triggers of obesity, diabetes, cardiovascular disease, cancer and dementia. The Center conducts basic, clinical, and population research, and is a campus of the LSU System. The research enterprise at Pennington Biomedical includes over 530 employees within a network of 44 clinics and research laboratories, and 13 highly specialized core service facilities. Its scientists and physician/scientists are supported by research trainees, lab technicians, nurses, dietitians, and other support personnel. Pennington Biomedical is a state-of-the-art research facility on a 222-acre campus in Baton Rouge. For more information, see www.pbrc.edu.
Pennington Biomedical Research Center
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