Dieta hiperproteica e alterações na função renal: uma revisão integrativa de literatura

João Pedro Fernandes  Marques; Arthur Anderson Silva; Kelly Vargas Londe Ribeiro de  Almeida

doi:10.33448/rsd-v11i16.38623

Authors

João Pedro Fernandes Marques Centro Universitário de Patos de Minas https://orcid.org/0000-0003-0412-4193
Arthur Anderson Silva Centro Universitário de Patos de Minas https://orcid.org/0000-0002-6739-4492
Kelly Vargas Londe Ribeiro de Almeida Centro Universitário de Patos de Minas https://orcid.org/0000-0001-9252-559X

DOI:

https://doi.org/10.33448/rsd-v11i16.38623

Keywords:

Kidney; High-protein diet; Chronic Kidney Disease.

Abstract

Introduction: Hyperproteic diets have become increasingly common in today's society and can be defined by protein intake above 0.8 to 1 g/Kg/day. There is a strong connection between protein intake and the worsening of chronic kidney disease (CKD), which can be characterized by an estimated glomerular filtration rate (eGFR) below 60 mL/min/1.73 m². Objective: Therefore, this article seeks to elucidate the effects that following a high-protein diet has on kidney function. Methodology: The present study consists of an integrative literature review on the evaluation of a high-protein diet for kidney health, based on articles written in English published in the last 4 years, 2018 to 2022, in the following databases: Virtual Library of Health (BVS); National Library of Medicine (PubMed MEDLINE), Scientific Electronic Library Online (SCIELO), EbscoHost. Results and discussion: Among the results found, there is agreement about glomerular hyperfiltration, but disagreements about the mechanism by which it occurs, and the potential harmful effects to the kidney health caused by it, and there are also disagreements about the role of the proteins in the formation of kidney stones. However, there is a decrease in mortality in the population with regular renal function in consumption of high amounts of protein, and also in the mortality of ICU patients following high-protein diets. Final considerations: Randomized controlled clinical studies are needed to evaluate a direct comparison between the alterations caused by high and low protein intake.

References

Abais-Battad, J. M., Lund, H., Fehrenbach, D. J., Dasinger, J. H., & Mattson, D. L. (2018). Rag1-null Dahl SS rats reveal that adaptive immune mechanisms exacerbate high protein-induced hypertension and renal injury. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 315(1), R28-R35.

Avila, E. T. P., da Rosa Lima, T., Tibana, R. A., de Almeida, P. C., Fraga, G. A., de Souza Sena, M., ... & Voltarelli, F. A. (2018). Effects of high-protein diet containing isolated whey protein in rats submitted to resistance training of aquatic jumps. Nutrition, 53, 85-94.

Cho, E., Choi, S. J., Kang, D. H., Kalantar-Zadeh, K., & Ko, G. J. (2022). Revisiting glomerular hyperfiltration and examining the concept of high dietary protein-related nephropathy in athletes and bodybuilders. Current Opinion in Nephrology and Hypertension, 31(1), 18-25.

Cirillo, M., Cavallo, P., Bilancio, G., Lombardi, C., Vagnarelli, O. T., & Laurenzi, M. (2018). Low protein intake in the population: Low risk of kidney function decline but high risk of mortality. Journal of Renal Nutrition, 28(4), 235-244.

Esmeijer, K., Geleijnse, J. M., de Fijter, J. W., Kromhout, D., & Hoogeveen, E. K. (2020). Dietary protein intake and kidney function decline after myocardial infarction: the Alpha Omega Cohort. Nephrology Dialysis Transplantation, 35(1), 106-115.

Ferraro, P. M., Bargagli, M., Trinchieri, A., & Gambaro, G. (2020). Risk of kidney stones: influence of dietary factors, dietary patterns, and vegetarian–vegan diets. Nutrients, 12(3), 779.

Filho, D. R., & Suen, V.M. M. (2018). Tratado de nutrologia 2a ed. (2nd ed.). Editora Manole.

Fois, A., Chatrenet, A., Cataldo, E., Lippi, F., Kaniassi, A., Vigreux, J., ... & Piccoli, G. B. (2018). Moderate protein restriction in advanced CKD: a feasible option in an elderly, high-comorbidity population. A stepwise multiple-choice system approach. Nutrients, 11(1), 36.

Hirschbruch, M. D. (2014). Nutrição Esportiva: Uma Visão Prática (3rd ed.). Editora Manole.

Isaka, Y. (2021). Optimal protein intake in pre-dialysis chronic kidney disease patients with sarcopenia: An overview. Nutrients, 13(4), 1205.

Jhee, J. H., Kee, Y. K., Park, S., Kim, H., Park, J. T., Han, S. H., ... & Yoo, T. H. (2020). High-protein diet with renal hyperfiltration is associated with rapid decline rate of renal function: a community-based prospective cohort study. Nephrology Dialysis Transplantation, 35(1), 98-106.

Johnson, R. J. (2016). Nefrologia Clínica (5th ed.). Grupo GEN.

Kaesler, N., Baid-Agrawal, S., Grams, S., Nadal, J., Schmid, M., Schneider, M. P., ... & Saritas, T. (2021). Low adherence to CKD-specific dietary recommendations associates with impaired kidney function, dyslipidemia, and inflammation. European journal of clinical nutrition, 75(9), 1389-1397.

Kim, S. M., & Jung, J. Y. (2020). Nutritional management in patients with chronic kidney disease. The Korean Journal of Internal Medicine, 35(6), 1279.

Ko, G. J., Rhee, C. M., Kalantar-Zadeh, K., & Joshi, S. (2020). The effects of high-protein diets on kidney health and longevity. Journal of the American Society of Nephrology, 31(8), 1667-1679.

Kovesdy, C. P. (2022). Epidemiology of chronic kidney disease: an update 2022. Kidney International Supplements, 12(1), 7–11.

Kramer, H. (2019). Diet and chronic kidney disease. Advances in Nutrition, 10(Supplement_4), S367-S379.

Machado, A. D., Anjos, F. S. N. D., Domingos, M. A. M., Molina, M. D. C. B., Marchioni, D. M. L., Benseñor, I. J. M., & Titan, S. M. D. O. (2018). Dietary intake of non-dialysis chronic kidney disease patients: the PROGREDIR study. A cross-sectional study. Sao Paulo Medical Journal, 136, 208-215.

Mendes, K. D. S., Silveira, R. C. d. C. P., & Galvão, C. M. (2008). Revisão integrativa: método de pesquisa para a incorporação de evidências na saúde e na enfermagem. Texto & Contexto - Enfermagem, 17(4), 758–764.

Møller, G., Rikardt Andersen, J., Ritz, C., P. Silvestre, M., Navas-Carretero, S., Jalo, E., ... & Raben, A. (2018). Higher protein intake is not associated with decreased kidney function in pre-diabetic older adults following a one-year intervention—a preview sub-study. Nutrients, 10(1), 54.

Narasaki, Y., Okuda, Y., Moore, L. W., You, A. S., Tantisattamo, E., Inrig, J. K., ... & Rhee, C. M. (2021). Dietary protein intake, kidney function, and survival in a nationally representative cohort. The American Journal of Clinical Nutrition, 114(1), 303-313.

Narasaki, Y., Rhee, C. M., Kramer, H., & Kalantar-Zadeh, K. (2021). Protein intake and renal function in older patients. Current Opinion in Clinical Nutrition & Metabolic Care, 24(1), 10-17.

Oosterwijk, M. M., Soedamah-Muthu, S. S., Geleijnse, J. M., Bakker, S. J., Navis, G., Binnenmars, S. H., ... & Laverman, G. D. (2019). High dietary intake of vegetable protein is associated with lower prevalence of renal function impairment: results of the Dutch DIALECT-1 cohort. Kidney international reports, 4(5), 710-719.

Siener, R. (2021). Nutrition and kidney stone disease. Nutrients, 13(6), 1917.

Souza, M. T. d., Silva, M. D. d., & Carvalho, R. d. (2010). Integrative review: what is it? How to do it? Einstein (São Paulo), 8(1), 102–106.

Stremke, E. R., Biruete, A., & Hill Gallant, K. M. (2020). Dietary protein intake and bone across stages of chronic kidney disease. Current osteoporosis reports, 18(3), 247-253.

Suzuki, G., Ichibayashi, R., Yamamoto, S., Serizawa, H., Nakamichi, Y., Watanabe, M., & Honda, M. (2020). Effect of high-protein nutrition in critically ill patients: a retrospective cohort study. Clinical nutrition ESPEN, 38, 111-117.

Tidmas, V., Brazier, J., Hawkins, J., Forbes, S. C., Bottoms, L., & Farrington, K. (2022). Nutritional and non-nutritional strategies in bodybuilding: impact on kidney function. International journal of environmental research and public health, 19(7), 4288.

van der Aart‐van der Beek, A. B., Cherney, D., Laverman, G. D., Stefansson, B., van Raalte, D. H., Hoogenberg, K., ... & Heerspink, H. J. (2021). Renal haemodynamic response to sodium‐glucose cotransporter‐2 inhibition does not depend on protein intake: An analysis of three randomized controlled trials. Diabetes, Obesity and Metabolism, 23(8), 1961-1967.

Vasconcelos, Q. D. J. S., Bachur, T. P. R., & Aragão, G. F. (2021). Whey protein supplementation and its potentially adverse effects on health: a systematic review. Applied Physiology, Nutrition, and Metabolism, 46(1), 27-33.

Wei, J., Zhang, J., Jiang, S., Wang, L., Persson, A. E. G., & Liu, R. (2019). High-protein diet–induced glomerular hyperfiltration is dependent on neuronal nitric oxide synthase β in the macula densa via tubuloglomerular feedback response. Hypertension, 74(4), 864-871.

High-protein diet and changes in kidney function: an integrative literature review

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

JOURNAL METRICS

Language

Make a Submission