Increasing protein intake beyond official recommendations has little to no benefit for bone health in healthy adults, new research in the journal Osteoporosis International reports.
In the most comprehensive study of its kind, researchers from the Department of Nutritional Sciences at the University of Surrey investigated if protein intake can impact bone health of adults and children.
Examining 127 previous studies published over a 40 year period, which scrutinised the link between protein and bone density, bone mineral content and relative risk of osteoporotic fractures, researchers discovered increasing protein intake had minimal benefit for bone health in healthy adults.
Researchers found that only 4 percent of bone density and bone mineral content in adults is dependent on protein intake with the remaining 96 percent due to other factors. These were not examined in the research but could include other nutritional factors including, age, body weight and genetics. For children a strong relationship between protein intake and bone health was identified, accounting for up to 14 percent of bone mineral content. However, in adults protein supplementation via protein shakes or tablets was also not found to reduce the risk of fractures nor improve bone health. No detrimental effect of having an increased protein intake was identified.
Confusion currently exists about the role of protein in the skeletal system and if it has a positive or negative impact. Protein is a chain of amino acid molecules and is a necessary part of our diet to help cell growth and repair. Proponents of a positive link highlight dietary protein’s known ability to increase secretion of an insulin-like growth hormone which stimulates development. They point to its role in increasing calcium absorption from the gut which is likely to be beneficial for bone mineralisation. Opponents argue that a high intake of protein, which is rich in sulphur amino acids, may be bad for bone health as it increases body acidity resulting in a rise in osteoclast activity which absorbs bone tissue during growth and healing.
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