Diet-induced acidosis and alkali supplementation.
Study Goal
The researchers aimed to investigate the role of acid-genic diets in metabolic disorders and the potential benefits of alkali supplementation, including its impact on calcium-related conditions.
Results Summary
The study suggests that high-protein, low-vegetable diets may contribute to calcium lithiasis, bone metabolism issues, muscle wasting, and glucose deregulation, but lacks direct evidence for pathological bone loss. Alkali supplementation may offer clinical improvements.
Population
Predisposed subjects and elderly individuals.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Western diet, high in protein-rich foods and poor in vegetables | increase | a moderate acid excess | - | - | likely to be responsible for the development of | #1 |
Western diet, high in protein-rich foods and poor in vegetables | increase | metabolism deregulation | - | - | leading to | #2 |
Western diet, high in protein-rich foods and poor in vegetables | increase | the onset or worsening of chronic disturbances | - | - | leading to | #3 |
diets with high protein/vegetables ratio | increase | calcium lithiasis | predisposed subjects | - | are likely to induce the development of | #4 |
acid-genic diet consumption | increase | bone metabolism worsening | - | - | supports the hypothesis of | #5 |
acid-genic diet consumption | increase | enhanced bone loss | - | - | supports the hypothesis of | #6 |
diet-induced acidosis | increase | muscle wasting or sarcopenia | elderlies | - | is likely to induce or accelerate | #7 |
dietary acid load | increase | glucose metabolism deregulation | - | - | highlight a specific role in | #8 |
dietary acid load | increase | insulin resistance | - | - | highlight a specific role in | #9 |
alkali supplementation | increase | possible clinical improvements | - | - | exerted by | #10 |
Western diet, high in protein-rich foods and poor in vegetables, is likely to be responsible for the development of a moderate acid excess leading to metabolism deregulation and the onset or worsening of chronic disturbances. Available findings seem to suggest that diets with high protein/vegetables ratio are likely to induce the development of calcium lithiasis, especially in predisposed subjects. Moreover, some evidence supports the hypothesis of bone metabolism worsening and enhanced bone loss following acid-genic diet consumption although available literature seems to lack direct and conclusive evidence demonstrating pathological bone loss. According to other evidences, diet-induced acidosis is likely to induce or accelerate muscle wasting or sarcopenia, especially among elderlies. Furthermore, recent epidemiological findings highlight a specific role of dietary acid load in glucose metabolism deregulation and insulin resistance. The aim of this review is to investigate the role of acid-genic diets in the development of the mentioned metabolic disorders focusing on the possible clinical improvements exerted by alkali supplementation.