Analysis of 200+ plant-based milk alternatives finds few contain the calcium, vitamin D, and protein of cow’s milk
More people are drinking milk alternatives made from plant sources such as oats, soy, or almonds, but do plant-based products deliver the same nutrition as cow’s milk? Results from a new study suggest that most don’t.
Cow’s milk is an important source of calcium and vitamin D, both of which are identified in the 2020-2025 Dietary Guidelines for Americans as nutrients of public health concern for underconsumption. Cow’s milk is also a major source of protein in the American diet.
To assess how the nutritional content of plant-based milk alternatives compares to that of cow’s milk, researchers examined more than 200 plant-based milk alternative products being sold in the U.S. in 2023 — many more products than were included in previous studies. Compared to cow’s milk, only 12% of the milk alternative products contained comparable or greater amounts of all three nutrients studied: calcium, vitamin D, and protein.
Abigail Johnson, assistant professor and associate director of the University of Minnesota School of Public Health Nutrition Coordinating Center, will present the findings at NUTRITION 2023, the annual flagship meeting of the American Society for Nutrition held July 22-25 in Boston.
“Our results provide evidence that many plant-based milk alternatives are not nutritionally equivalent to cow’s milk,” said Johnson. “Based on these findings, consumers should look for plant-based milk alternative products that list calcium and vitamin D as ingredients. They may also want to consider adding other sources of calcium and vitamin D to their diets.”
The University of Minnesota’s Nutrition Coordinating Center maintains a database of approximately 19,000 foods for assessing dietary intake in human research. “We know from our dietary assessments for nutrition studies that consumers are choosing more plant-based milk alternatives,” said Johnson. “This project aimed to increase the number of these milk alternatives available in the Nutrition Coordinating Center’s database of foods.”
The study included nutrition information from nutrition facts labels and ingredient information for 233 plant-based milk alternative products from 23 different manufacturers. For each product, the researchers applied a nutrient calculation program to estimate full nutrient information. They then compared the nutritional content of different products within a category — for example, almond milk, oat milk, and soy milk — to each other and to cow’s milk. Compared to dairy milk, just 28 of the plant-based alternatives had similar or more calcium, vitamin D and protein.
Almost two-thirds of the products included in the study were made from almonds, oats, or soy. The researchers found that 170 of the plant-based milk alternatives were fortified with both calcium and vitamin D and that the level of fortification tended to be similar to dairy milk. Specifically, 76% of the oat-based products, 69% of soy-based, and 66% of almond-based alternatives were fortified with both calcium and vitamin D. The median protein content was 2.0 grams (g) of protein per 240 milliliters (ml) of liquid, with a large variability that ranged from 0 to 12 g. Only 38 (16%) of the milk alternatives studied had a protein level greater than or equal to the 8 g per 240 ml found in cow’s milk. Soy- and pea-based alternatives were more likely to have higher protein.
“Our findings point to a need to ensure that consumers are aware that many plant-based milk alternative products in the marketplace today are not nutritionally equivalent to cow’s milk,” said Johnson. “Product labeling requirements and dietary guidance to the public are among the approaches that may be helpful in alerting and educating consumers.”
Next, the researchers plan to explore other nutrients in plant-based milk alternatives that make them different from cow’s milk. For example, many of these products contain fiber, suggesting that they may help meet some nutritional needs that cow’s milk doesn’t.
Johnson will present this research at 8:36 a.m. on Monday, July 24, during the Formulating for the Future: Food Science Approaches to Improving Human Nutrition Oral Session in the Sheraton Boston, Back Bay A (abstract; presentation details).
Please note that abstracts presented at NUTRITION 2023 were evaluated and selected by a committee of experts but have not generally undergone the same peer review process required for publication in a scientific journal. As such, the findings presented should be considered preliminary until a peer-reviewed publication is available.
About NUTRITION 2023
NUTRITION 2023 is the flagship meeting of the American Society for Nutrition and the premier educational event for nutritional professionals around the globe. NUTRITION brings together lab scientists, practicing clinicians, population health researchers, and community intervention investigators to identify solutions to today’s greatest nutrition challenges. Our audience also includes rising leaders in the field – undergraduate, graduate, and medical students. NUTRITION 2023 will be held July 22-25, 2023 in Boston. https://nutrition.org/N23 #Nutrition2023
About the American Society for Nutrition (ASN)
ASN is the preeminent professional organization for nutrition scientists and clinicians around the world. Founded in 1928, the society brings together the top nutrition researchers, medical practitioners, policy makers and industry leaders to advance our knowledge and application of nutrition. ASN publishes four peer-reviewed journals and provides education and professional development opportunities to advance nutrition research, practice, and education. Since 2018, the American Society of Nutrition has presented NUTRITION, the leading global annual meeting for nutrition professionals.
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