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Dietary ratio of animal to vegetable protein and rate of bone loss and risk of fracture in postmenopausal women

¹ Division of Endocrinology and the General Clinical Research Center 1202 Moffitt Hospital Box 0126 University of California San Francisco, CA 94143 E-mail: sebastia{at}gcrc.ucsf.edu
² Division of Endocrinology University of California San Francisco, CA 94143
³ Department of Epidemiology and Biostatistics University of California San Francisco, CA 94143

Dear Sir:

We reported recently in the Journal that in free-living elderly white women, bone loss and hip fracture rates were greatest in those consuming diets with the highest ratio of animal to vegetable protein content (1). Those diets represented diets with the highest ratios of animal to vegetable foods consumed. Because animal foods tend to be net acid producing and vegetable foods net base producing (2), our results support the hypothesis that diet-dependent net endogenous acid production (NEAP) is a risk factor for bone loss and hip fracture in elderly white women.

In an accompanying editorial, Heaney (3) offers comments that might lead some readers to discount our findings and interpretation. He contends that opponents of the use of animal products "have had a disproportionate effect both on public consciousness and on the agenda of nutritional science itself," and that it "would be surprising if the study had not been influenced to some extent by currents in the larger society."

To allay the concerns of Journal readers, we offer a public opinion we published before having had any reason to suspect our article would be interpreted by anyone as having been unduly influenced by animal activist press:

By referring to the American diet as "protein-rich," and linking dietary protein's acid yield to bone damage, [the article entitled] "Could Diet Attack Bones? It's a Beef About Meat" [(4)] might lead some readers to believe that Americans are eating too much protein. In fact, the protein content of American diets is below the evolutionary norm for humans, and therefore may be overall nutritionally suboptimal. For bone, the problem may not be too much acid from protein, but too little acid-neutralizing base from those types of plant foods that are rich in base, such as roots, tubers, fruits, and vegetable fruits and leaves. The plant foods that Americans eat most are cereal grains, such as wheat and rice, which are unusual plant foods in that they yield acid, not base. To boot, grains crowd out base-rich plant foods from the diet, helped in that by all those empty-calorie foods Americans eat, such as refined sugars and separated fats. In the acid attack on bone, the beef therefore is not so much with meat, as with grain and empty-calorie foods.

Nevertheless, Heaney may prove to have been prescient in predicting that "it is virtually certain that [the article by Sellmeyer et al] will be used by some to ‘prove’ that animal protein is positively harmful." But if some do so, it will be because they failed to recognize that our findings speak only to the ratio of animal to vegetable foods consumed, as indexed by the ratio of animal to vegetable protein in the diet, and not specifically to the absolute amounts of animal food or protein consumed. Our hypothesis is that the rate of NEAP is a risk factor for bone loss and hip fracture. In our study, the ratio of animal to vegetable protein consumed was used as a surrogate for that risk factor because animal foods are richer in acid precursors than in base precursors and because many vegetable foods are richer in base precursors than in acid precursors (2). It would not be inconsistent with our findings or hypothesis if large increases in total animal protein intake above the range consumed by our subjects reduced rates of bone loss and fracture if those increases were accompanied by appropriate increases in the intake of vegetable protein in the form of high-base-yielding plant foods.

Heaney also takes us to task for teaching the myth that sulfuric acid yields are higher from animal than from vegetable protein. That chastisement reflects an uncritical read of our paper, however, because we neither asserted nor implied such differential acid yields. Indeed, we are on record for taking pains to disabuse followers of that myth, to the extent of even supplying a table showing overlapping values of potential sulfuric acid yields for a wide variety of animal and plant foods (per gram protein) (5). Moreover, any differences in animal compared with vegetable yields of sulfuric acid that might be obtained are only part of the picture. Another part of the picture is the differential animal and vegetable yields of bicarbonate from nonprotein constituents of the food. Many plant foods (eg, roots, tubers, leafy green vegetables, and fruit) are richer per gram protein in such bicarbonate precursors than are animal foods (2). As an index of the NEAP, the ratio of animal to vegetable protein consumed in whole-food diets reflects the differential animal compared with vegetable yields of bicarbonate as well as those of sulfuric acid.

Heaney contends that our findings are at odds with reports of a positive relation between animal protein intake and skeletal health, specifically citing the Framingham Osteoporosis Study by Hannan et al (6). However, the focus of our article was the association of the rate of bone loss (and hip fracture) with the ratio of animal to vegetable protein consumed, whereas Hannan et al did not test for that association, and the reduced data set they reported does not permit such testing. The only other reported study we know of that specifically examined the potential association of the ratio of animal to vegetable protein intake and skeletal health is a cross-cultural study by Frassetto et al (5), the results of which are consistent with those of our study.

REFERENCES

1. Sellmeyer DE, Stone KL, Sebastian A, Cummings SR, for the Study of Osteoporotic Fractures Research Group. A high ratio of dietary animal to vegetable protein increases the rate of bone loss and the risk of fracture in postmenopausal women. Am J Clin Nutr 2001;73:118–22.[Abstract/Free Full Text]
2. Remer T, Manz F. Potential renal acid load of foods and its influence on urine pH. J Am Diet Assoc 1995;95:791–7.[Medline]
3. Heaney RP. Protein intake and bone health: the influence of belief systems on the conduct of nutritional science. Am J Clin Nutr 2001;73:5–6.[Free Full Text]
4. Fox D. Could diet attack bones? It's a beef about meat. US News & World Report 2000;129:62.
5. Frassetto LA, Todd KM, Morris RC Jr, Sebastian A. Worldwide incidence of hip fracture in elderly women: relation to consumption of animal and vegetable foods. J Gerontol Med Sci 2000;55:M585–92.[Abstract/Free Full Text]
6. Hannan MT, Tucker KL, Dawson-Hughes B, Cupples LA, Felson DT, Kiel DP. Effect of dietary protein on bone loss in elderly men and women: the Framingham Osteoporosis Study. J Bone Miner Res 2000;15:2504–12.[Medline]

This article has been cited by other articles:

				L. A. Frassetto, R. C. Morris Jr., D. E. Sellmeyer, and A. Sebastian Adverse Effects of Sodium Chloride on Bone in the Aging Human Population Resulting from Habitual Consumption of Typical American Diets J. Nutr., February 1, 2008; 138(2): 419S - 422S. [Abstract] [Full Text] [PDF]

				H. Vatanparast, D. A. Bailey, A. D. G. Baxter-Jones, and S. J. Whiting The Effects of Dietary Protein on Bone Mineral Mass in Young Adults May Be Modulated by Adolescent Calcium Intake J. Nutr., December 1, 2007; 137(12): 2674 - 2679. [Abstract] [Full Text] [PDF]

				C. T. Kappagoda, D. A. Hyson, and E. A. Amsterdam Low-carbohydrate-high-protein diets: Is there a place for them in clinical cardiology? J. Am. Coll. Cardiol., March 3, 2004; 43(5): 725 - 730. [Abstract] [Full Text] [PDF]

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