Reviews in Cardiovascular Medicine 2020,
Vol. 21 Issue (1): 41-56
DOI: 10.31083/j.rcm.2020.01.5102
Special Issue:
Cardiovascular disorders in chronic kidney disease
Insulin resistance underlies the elevated cardiovascular risk associated with kidney disease and glomerular hyperfiltration
María M. Adeva-Andany1, *(
), Carlos Fernández-Fernández1, Natalia Carneiro-Freire1, Elvira Castro-Quintela1, Ana Pedre-Piñeiro1, Mónica Seco-Filgueira1
1 Nephrology Division, Internal Medicine Department, Hospital General Juan Cardona, c/ Pardo Bazán s/n, 15406 Ferrol, Spain
Abstract:
The curve that describes the relationship between glomerular filtration rate (GFR) and cardiovascular risk is U-shaped, indicating that both reduced GFR (kidney failure) and elevated GFR (glomerular hyperfiltration) are equivalent cardiovascular risk factors. The elevated cardiovascular risk associated with abnormal GFR is not explained by standard cardiovascular risk factors. The relationship between GFR and all-cause mortality follows a similar pattern, so that altered GFR (either low or high) increases the risk for overall mortality. Glomerular hyperfiltration is an adaptive process that arises under conditions that demand improved kidney excretory capacity, such as animal protein ingestion and kidney failure. Unlike vegetable protein, animal protein consumption increases dietary acid load and requires an elevation of the GFR to restore acid-base balance. The loss of functioning nephrons in diseased kidneys requires a compensatory increase of the GFR in the nephrons that remain working to enhance whole-kidney GFR. A major factor that raises GFR is the pancreatic hormone glucagon. Glucagon infusion and endogenous glucagon release increase GFR in healthy subjects and patients with kidney failure. In addition to its kidney hemodynamic effect, glucagon causes insulin resistance. Like hyperglucagonemia, insulin resistance develops across the entire spectrum of abnormal GFR, from glomerular hyperfiltration to advanced kidney disease. Insulin resistance is associated with subclinical vascular injury in the general population and patients with diabetes and kidney failure, being a strong cardiovascular risk factor in these population groups. Animal protein consumption activates glucagon secretion and promotes insulin resistance, having a detrimental effect on cardiovascular disease and renal outcomes.
Submitted: 04 December 2019
Accepted: 09 March 2020
Published: 30 March 2020
*Corresponding Author(s):
María M. Adeva-Andany
E-mail: madevaa@yahoo.com
Service
E-mail this article
Add to citation manager
E-mail Alert
RSS
Articles by authors
María M. Adeva-Andany
Carlos Fernández-Fernández
Natalia Carneiro-Freire
Elvira Castro-Quintela
Ana Pedre-Piñeiro
Mónica Seco-Filgueira
Figure 1. Relationship between glucagon-induced insulin resistance and cardiovascular disease. Kidney failure and animal protein intake activate glucagon secretion, which in turn causes insulin resistance and increases glomerular filtration rate (GFR). Insulin resistance induces subclinical vascular injury and cardiovascular disease. Elevated GFR achieves optimal kidney function in patients with kidney disease and induces glomerular hyperfiltration in healthy subjects.
Table 1. Glomerular hyperfiltration is associated with increased risk of cardiovascular disease and all-cause mortality
Population / Number of subjectsType of studyGlomerular filtration rate (GFR)Main findingsSchmieder 1990Subjects with essential hypertension / 111Cross-sectionalEndogenous creatinine clearanceGlomerular hyperfiltration is associated with left ventricular hypertrophyEriksen, 2014General population (Norway) / 1,521Cross-sectionalIohexol clearanceGlomerular hyperfiltration is associated with subclinical vascular disease in healthy subjects from the general population.Choi, 2015General population (Korea) / 6,986Cross-sectionalChronic kidney disease-Epidemiology Collaboration (CKD-EPI) equationGlomerular hyperfiltration is associated with coronary artery calcification in healthy men from the general populationReboldi, 2018A total of 8,794 participants (89% hypertensive) / 8,794Prospective
Follow-up: 6.2 yearsCKD-EPI equationGlomerular hyperfiltration is associated with higher risk of cardiovascular events in a multiethnic populationAltay, 2014Subjects without kidney disease / 789Prospective
Follow-up: 3 yearsModification of diet in Renal Disease (MDRD) study equationGlomerular hyperfiltration is associated with higher risk of death and cardiovascular disease.Cox, 2008General population / 33,386Cross-sectionalMDRD equationGlomerular hyperfiltration predicts an increased mortality among community living subjectsMatsushita, 201021 general population cohorts / 105,872Meta-analysisMDRD equationAll-cause mortality risk was higher at GFR > 105 ml/min/1.73 m2 compared with at GFR 75-105 ml/min/1.73 m2.Tonelli, 2011Population-based laboratory data set /
1,526,437Cross-sectionalCKD-EPI equationAn elevated GFR predicts an elevated risk of all-cause mortalityPark, 2015General population (Korea) / 43,503
Prospective
Follow-up: 12.4 yearsCKD-EPI equationGlomerular hyperfiltration is associated with increased all-cause mortality in a healthy population.
Table 2. Association between glomerular hyperfiltration and insulin resistance in healthy subjects and obese patients
Study population / Number / Type of studyAssessment of insulin sensitivityGlomerular filtration rate (GFR)Main findingsNaderpoor, 2017Healthy subjects and obese patients / 104 / Cross-sectionalHyperinsulinemic euglycemic clampChronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equationInsulin resistance is strongly and independently associated with elevated GFRMelsom, 2011General population
(Norway) / 1,594 /
Longitudinal cohortImpaired glucose tolerance (IGT)Iohexol clearanceGlucose intolerance is independently associated with elevated GFRTomaszewski, 2007Young healthy men / 1,572 / Cross-sectionalClinical features (metabolic syndrome)Creatinine clearance (Cockcroft-Gault equation)The presence of the metabolic syndrome is independently associated with elevated GFRLee, 2017Adolescents (US) / 8,793 / Cross-sectionalHomeostasis model assessment-insulin resistance (HOMA-IR)Schwartz equation (Chronic Kidney Disease in Children study)Glomerular hyperfiltration was independently associated with insulin resistanceKelishadi, 2018Pediatric population Iran / 3,800 / Cross-sectionalClinical features (high blood pressure, obesity)Modified Schwartz equationElevated GFR is associated with clinical features of insulin resistance in childrenOkada, 2012General population (Japan) / 99,140 / Cross-sectionalClinical features (prehypertension, IGT)Modification of Diet in Kidney Disease (MDRD) equationThe prevalence of glomerular hyperfiltration increased with worsening insulin resistanceKawata, 2019General population Japan / 24,524 / Longitudinal retrospectivePrediabetes by the American Diabetes Association vs IECEquation developed for Japanese subjectsPrediabetes defined by the International Expert Committee (IEC) is an independent risk for incident glomerular hyperfiltration.Dengel, 1996Obese subjects / 10 / Cross-sectionalHyperinsulinemic euglycemic clamp99mTc-diethylenetriamine-pentaacetic acid clearanceInsulin resistance is associated with glomerular hyperfiltrationChagnac, 2000Body mass index > 38 kg/m2 /21 / Cross-sectionalOral glucose tolerance testInulin clearanceInsulin resistance is positively correlated with GFRChagnac, 2003Obese subjects / 17 / Interventional gastroplastyHyperinsulinemia, IGTInulin clearanceAfter surgery, there was a marked improvement of GFR and insulin resistance
[1]
Adeva-Andany, M.,Martinez-Rodríguez, J.,González-Lucán, M.,Fernandez-Fernandez, C. and Castro-Quintela, E. (2019)Insulin resistance is a cardiovascular risk factor in humans.Diabetes & Metabolic Syndrome 13, 1449-1455.
[2]
Adeva-Andany, M. M.,Ameneiros-Rodriguez, E.,Fernandez-Fernandez, C.,Dominguez-Montero, A. and Funcasta-Calderon, R. (2019a)Insulin resistance is associated with subclinical vascular disease in humans.World Journal of Diabetes 10, 63-77.
[3]
Adeva-Andany, M. M.,Funcasta-Calderon, R.,Fernandez-Fernandez, C.,Ameneiros-Rodriguez, E. and Dominguez-Montero, A. (2019b)Subclinical vascular disease in patients with diabetes is associated with insulin resistance.Diabetes & Metabolic Syndrome 13, 2198-2206.
[4]
Akalin, N.,Koroglu, M.,Harmankaya, O.,Akay, H. and Kumbasar, B. (2015)Comparison of insulin resistance in the various stages of chronic kidney disease and inflammation.Renal Failure 37, 237-240.
[5]
Altay, S.,Onat, A.,Ozpamuk-Karadeniz, F.,Karadeniz, Y.,Kemaloglu-Oz, T. and Can, G. (2014)Renal "hyperfiltrators" are at elevated risk of death and chronic diseases.BMC Nephrology 15, 160.
[6]
Amiel, C.,Blanchet, F.,Friedlander, G. and Nitenberg, A. (1990)Renal Functional Reserve.Nephrology, dialysis, transplantation: official publication of the European Dialysis and Transplant Association - European Renal Association 5, 763-770.
[7]
Anderson, J. W.,Smith, B. M. and Washnock, C. S. (1999)Cardiovascular and renal benefits of dry bean and soybean intake.The American Journal of Clinical Nutrition 70, 464S-474S.
[8]
Banerjee, D.,Recio-Mayoral, A.,Chitalia, N. and Kaski, J. C. (2011)Insulin resistance, inflammation, and vascular disease in nondiabetic predialysis chronic kidney disease patients.Clinical Cardiology 34, 360-365.
[9]
Banerjee, T.,Crews, D. C.,Wesson, D. E.,Tilea, A.,Saran, R.,Rios Burrows, N.,Williams, D. E. and Powe, N. R. (2014)Dietary acid load and chronic kidney disease among adults in the united states.BMC Nephrology 15, 137.
[10]
Banerjee, T.,Crews, D. C.,Wesson, D. E.,Tilea, A. M.,Saran, R.,Rios-Burrows, N.,Williams, D. E. and Powe, N. R. (2015)High dietary acid load predicts ESRD among adults with CKD.Journal of the American Society of Nephrology: JASN 26, 1693-1700.
[11]
Becker, B.,Kronenberg, F.,Kielstein, J. T.,Haller, H.,Morath, C.,Ritz, E. and Fliser, D. (2005)Renal insulin resistance syndrome, adiponectin and cardiovascular events in patients with kidney disease: the mild and moderate kidney disease study.Journal of the American Society of Nephrology: JASN 16, 1091-1098.
[12]
Benedetti, A.,Simpson, R. G.,Grodsky, G. M. and Forsham, P. H. (1967)Exaggerated insulin response to glucagon in simple obesity.Diabetes 16, 666-669.
[13]
Bergstrom, J.,Ahlberg, M. and Alvestrand, A. (1985)Influence of protein intake on renal hemodynamics and plasma hormone concentrations in normal subjects.Acta Medica Scandinavica 217, 189-196.
[14]
Bilbrey, G. L.,Faloona, G. R.,White, M. G. and Knochel, J. P. (1974)Hyperglucagonemia of renal failure.The Journal of Clinical Investigation 53, 841-847.
[15]
Bosch, J. P.,Lauer, A. and Glabman, S. (1984)Short-term protein loading in assessment of patients with renal disease.The American Journal of Medicine 77, 873-879.
[16]
Bosch, J. P.,Lew, S.,Glabman, S. and Lauer, A. (1986)Renal hemodynamic changes in humans. Response to protein loading in normal and diseased kidneys.The American Journal of Medicine 81, 809-815.
[17]
Bosch, J. P.,Saccaggi, A.,Lauer, A.,Ronco, C.,Belledonne, M. and Glabman, S. (1983)Renal functional reserve in humans. Effect of protein intake on glomerular filtration rate.The American Journal of Medicine 75, 943-950.
[18]
Bosma, R. J.,van der Heide, J. J.,Oosterop, E. J.,de Jong, P. E. and Navis, G. (2004)Body mass index is associated with altered renal hemodynamics in non-obese healthy subjects.Kidney International 65, 259-265.
[19]
Brandle, E.,Sieberth, H. G. and Hautmann, R. E. (1996)Effect of chronic dietary protein intake on the renal function in healthy subjects.European Journal of Clinical Nutrition 50, 734-740.
[20]
Brouhard, B. H.,LaGrone, L. F.,Richards, G. E. and Travis, L. B. (1987)Somatostatin limits rise in glomerular filtration rate after a protein meal.The Journal of Pediatrics 110, 729-734.
[21]
Brugts, J. J.,Knetsch, A. M.,Mattace-Raso, F. U.,Hofman, A. and Witteman, J. C. (2005)Renal function and risk of myocardial infarction in an elderly population: the Rotterdam study.Archives of Internal Medicine 165, 2659-2665.
[22]
Castellino, P.,Coda, B. and DeFronzo, R. A. (1986)Effect of amino acid infusion on renal hemodynamics in humans.The American Journal of Physiology 251, F132-140.
[23]
Castellino, P.,Levin, R.,Shohat, J. and DeFronzo, R. A. (1990)Effect of specific amino acid groups on renal hemodynamics in humans.The American Journal of Physiology 258, F992-997.
[24]
Cerletty, J. M. and Engbring, N. H. (1967)Azotemia and glucose intolerance.Annals of Internal Medicine 66, 1097-1108.
[25]
Chagnac, A.,Weinstein, T.,Herman, M.,Hirsh, J.,Gafter, U. and Ori, Y. (2003)The effects of weight loss on renal function in patients with severe obesity.Journal of the American Society of Nephrology: JASN 14, 1480-1486.
[26]
Chagnac, A.,Weinstein, T.,Korzets, A.,Ramadan, E.,Hirsch, J. and Gafter, U. (2000)Glomerular hemodynamics in severe obesity.American Journal of Physiology Renal Physiology 278, F817-822.
[27]
Chan, A. Y.,Cheng, M. L.,Keil, L. C. and Myers, B. D. (1988)Functional response of healthy and diseased glomeruli to a large, protein-rich meal.The Journal of Clinical Investigation 81, 245-254.
[28]
Chauveau, P.,Koppe, L.,Combe, C.,Lasseur, C.,Trolonge, S. and Aparicio, M. (2019)Vegetarian diets and chronic kidney disease.Nephrology, dialysis, transplantation: official publication of the European Dialysis and Transplant Association - European Renal Association 34, 199-207.
[29]
Chen, J.,Muntner, P.,Hamm, L. L.,Fonseca, V.,Batuman, V.,Whelton, P. K. and He, J. (2003)Insulin resistance and risk of chronic kidney disease in nondiabetic US adults.Journal of the American Society of Nephrology: JASN 14, 469-477.
[30]
Chen, J.,Muntner, P.,Hamm, L. L.,Jones, D. W.,Batuman, V.,Fonseca, V.,Whelton, P. K. and He, J. (2004)The metabolic syndrome and chronic kidney disease in U.S. adults.Annals of Internal Medicine 140, 167-174.
[31]
Chen, X.,Wei, G.,Jalili, T.,Metos, J.,Giri, A.,Cho, M. E.,Boucher, R.,Greene, T. and Beddhu, S. (2016)The associations of plant protein intake with all-cause mortality in CKD.American Journal of Kidney Diseases: the Official Journal of the National Kidney Foundation 67, 423-430.
[32]
Choi, H. M.,Hyun, Y. Y.,Lee, K. B. and Kim, H. (2015)High estimated glomerular filtration rate is associated with coronary artery calcification in middle-aged korean men without chronic kidney disease.Nephrology, dialysis, transplantation: official publication of the European Dialysis and Transplant Association - European Renal Association 30, 996-1001.
[33]
Chonchol, M. and Scragg, R. (2007)25-hydroxyvitamin d, insulin resistance, and kidney function in the third national health and nutrition examination survey.Kidney International 71, 134-139.
[34]
Claris-Appiani, A.,Assael, B. M.,Tirelli, A. S.,Cavanna, G.,Corbetta, C. and Marra, G. (1988)Proximal tubular function and hyperfiltration during amino acid infusion in man.American Journal of Nephrology 8, 96-101.
[35]
Cohen, B. D. (1962)Abnormal carbohydrate metabolism in renal disease. Blood glucose unresponsiveness to hypoglycemia, epinephrine, and glucagon.Annals of Internal Medicine 57, 204-213.
[36]
Correa, S.,Pena-Esparragoza, J. K.,Scovner, K. M.,Waikar, S. S. and Mc Causland, F. R. (2019)Myeloperoxidase and the risk of ckd progression, cardiovascular disease, and death in the chronic renal insufficiency cohort (cric) study.American Journal of Kidney Diseases: the Official Journal of the National Kidney Foundation
[37]
Cox, H. J.,Bhandari, S.,Rigby, A. S. and Kilpatrick, E. S. (2008)Mortality at low and high estimated glomerular filtration rate values: a 'U' shaped curve.Nephron Clinical Practice 110, c67-72.
[38]
de Boer, I. H.,Katz, R.,Chonchol, M. B.,Fried, L. F.,Ix, J. H.,Kestenbaum, B.,Mukamal, K. J.,Peralta, C. A. and Siscovick, D. S. (2012)Insulin resistance, cystatin C, and mortality among older adults.Diabetes Care 35, 1355-1360.
[39]
de Boer, I. H.,Zelnick, L.,Afkarian, M.,Ayers, E.,Curtin, L.,Himmelfarb, J.,Ikizler, T. A.,Kahn, S. E.,Kestenbaum, B. and Utzschneider, K. (2016)Impaired glucose and insulin homeostasis in moderate-severe CKD.Journal of the American Society of Nephrology: JASN 27, 2861-2871.
[40]
DeFronzo, R. A.,Alvestrand, A.,Smith, D.,Hendler, R.,Hendler, E. and Wahren, J. (1981)Insulin resistance in uremia.The Journal of Clinical Investigation 67, 563-568.
[41]
DeFronzo, R. A.,Tobin, J. D.,Rowe, J. W. and Andres, R. (1978)Glucose intolerance in uremia. Quantification of pancreatic beta cell sensitivity to glucose and tissue sensitivity to insulin.The Journal of Clinical Investigation 62, 425-435.
[42]
Dengel, D. R.,Goldberg, A. P.,Mayuga, R. S.,Kairis, G. M. and Weir, M. R. (1996)Insulin resistance, elevated glomerular filtration fraction, and renal injury.Hypertension (Dallas, Tex: 1979) 28, 127-132.
[43]
DeSanto, N. G.,Coppola, S.,Anastasio, P.,Coscarella, G.,Capasso, G.,Castellino, P.,De Mercato, R.,Bellini, L.,Strazzullo, P.,Guadagno, P.andet al. (1990)Pancreatectomy abolishes the renal hemodynamic response to a meat meal in man.Nephron 55, 85-86.
[44]
Dhaene, M.,Sabot, J. P.,Philippart, Y.,Doutrelepont, J. M. and Vanherweghem, J. L. (1987)Effects of acute protein loads of different sources on glomerular filtration rate.Kidney International Supplement 22, S25-28.
[45]
Di Angelantonio, E.,Chowdhury, R.,Sarwar, N.,Aspelund, T.,Danesh, J. and Gudnason, V. (2010)Chronic kidney disease and risk of major cardiovascular disease and non-vascular mortality: prospective population based cohort study.BMJ (Clinical research ed) 341, c4986.
[46]
Dzurik, R.,Spustova, V. and Janekova, K. (1995)The prevalence of insulin resistance in kidney disease patients before the development of renal failure.Nephron 69, 281-285.
[47]
Eidemak, I.,Feldt-Rasmussen, B.,Kanstrup, I. L.,Nielsen, S. L.,Schmitz, O. and Strandgaard, S. (1995)Insulin resistance and hyperinsulinaemia in mild to moderate progressive chronic renal failure and its association with aerobic work capacity.Diabetologia 38, 565-572.
[48]
Eriksen, B. O.,Lochen, M. L.,Arntzen, K. A.,Bertelsen, G.,Eilertsen, B. A.,von Hanno, T.,Herder, M.,Jenssen, T. G.,Mathisen, U. D.,Melsom, T.,Njolstad, I.,Solbu, M. D.,Toft, I. and Mathiesen, E. B. (2014)Subclinical cardiovascular disease is associated with a high glomerular filtration rate in the nondiabetic general population.Kidney International 86, 146-153.
[49]
Fioretto, P.,Trevisan, R.,Giorato, C.,De Riva, C.,Doria, A.,Valerio, A.,Semplicini, A.,Angeli, P.,Cipollina, M. R. and Nosadini, R. (1988)Type I insulin-dependent diabetic patients show an impaired renal hemodynamic response to protein intake.The Journal of Diabetic Complications 2, 27-29.
[50]
Fliser, D.,Pacini, G.,Engelleiter, R.,Kautzky-Willer, A.,Prager, R.,Franek, E. and Ritz, E. (1998)Insulin resistance and hyperinsulinemia are already present in patients with incipient renal disease.Kidney International 53, 1343-1347.
[51]
Fox, C. S.,Matsushita, K.,Woodward, M.,Bilo, H. J.,Chalmers, J.,Heerspink, H. J.,Lee, B. J.,Perkins, R. M.,Rossing, P.,Sairenchi, T.,Tonelli, M.,Vassalotti, J. A.,Yamagishi, K.,Coresh, J.,de Jong, P. E.,Wen, C. P. and Nelson, R. G. (2012)Associations of kidney disease measures with mortality and end-stage renal disease in individuals with and without diabetes: a meta-analysis.Lancet (London, England) 380, 1662-1673.
[52]
Fried, L. F.,Katz, R.,Sarnak, M. J.,Shlipak, M. G.,Chaves, P. H. M.,Swords, N.,Stehman-Breen, C.,Gillen, D.,Bleyer, A. J.,Hirsch, C.,Siscovick, D. and Newman, A. B. (2005)Kidney function as a predictor of noncardiovascular mortality.Journal of the American Society of Nephrology: JASN 16, 3728-3735.
[53]
Friedlander, G.,Blanchet-Benque, F.,Nitenberg, A.,Laborie, C.,Assan, R. and Amiel, C. (1990)Glucagon secretion is essential for aminoacid-induced hyperfiltration in man.Nephrology, Dialysis, Transplantation: Official Publication of the European Dialysis and Transplant Association - European Renal Association 5, 110-117.
[54]
Gin, H.,Aparicio, M.,Potaux, L.,de Precigout, V.,Bouchet, J. L. and Aubertin, J. (1987)Low protein and low phosphorus diet in patients with chronic renal failure: influence on glucose tolerance and tissue insulin sensitivity.Metabolism: Clinical and Experimental 36, 1080-1085.
[55]
Giordano, M.,Castellino, P.,McConnell, E. L. and DeFronzo, R. A. (1994)Effect of amino acid infusion on renal hemodynamics in humans: a dose-response study.The American Journal of Physiology 267, F703-708.
[56]
Go, A. S.,Chertow, G. M.,Fan, D.,McCulloch, C. E. and Hsu, C. Y. (2004)Chronic kidney disease and the risks of death, cardiovascular events, and hospitalization.The New England Journal of Medicine 351, 1296-1305.
[57]
Graf, H.,Stummvoll, H. K.,Luger, A. and Prager, R. (1983)Effect of amino acid infusion on glomerular filtration rate.The New England Journal of Medicine 308, 159-160.
[58]
Gutierrez, O. M.,Muntner, P.,Rizk, D. V.,McClellan, W. M.,Warnock, D. G.,Newby, P. K. and Judd, S. E. (2014)Dietary patterns and risk of death and progression to esrd in individuals with CKD: a cohort study.American Journal of Kidney Diseases: the Official Journal of the National Kidney Foundation 64, 204-213.
[59]
Hallan, S.,Astor, B.,Romundstad, S.,Aasarod, K.,Kvenild, K. and Coresh, J. (2007)Association of kidney function and albuminuria with cardiovascular mortality in older vs younger individuals: the hunt II study.Archives of Internal Medicine 167, 2490-2496.
[60]
Hallan, S. I.,Matsushita, K.,Sang, Y.,Mahmoodi, B. K.,Black, C.,Ishani, A.,Kleefstra, N.,Naimark, D.,Roderick, P.,Tonelli, M.,Wetzels, J. F.,Astor, B. C.,Gansevoort, R. T.,Levin, A.,Wen, C. P. and Coresh, J. (2012)Age and association of kidney measures with mortality and end-stage renal disease.JAMA 308, 2349-2360.
[61]
Hampers, C. L.,Lowrie, E. G.,Soeldner, J. S. and Merrill, J. P. (1970)The effect of uremia upon glucose metabolism.Archives of Internal Medicine 126, 870-874.
[62]
Hampers, C. L.,Soeldner, J. S.,Doak, P. B. and Merrill, J. P. (1966)Effect of chronic renal failure and hemodialysis on carbohydrate metabolism.The Journal of Clinical Investigation 45, 1719-1731.
[63]
Han, E.,Lee, Y. H.,Lee, B. W.,Kang, E. S. and Cha, B. S. (2017)Pre-sarcopenia is associated with renal hyperfiltration independent of obesity or insulin resistance: Nationwide Surveys (KNHANES 2008-2011).Medicine 96, e7165.
[64]
Haring, B.,Selvin, E.,Liang, M.,Coresh, J.,Grams, M. E.,Petruski-Ivleva, N.,Steffen, L. M. and Rebholz, C. M. (2017)Dietary protein sources and risk for incident chronic kidney disease: results from the atherosclerosis risk in communities (ARIC) study.Journal of Renal Nutrition: the Official Journal of the Council on Renal Nutrition of the National Kidney Foundation 27, 233-242.
[65]
Herber-Gast, G. M.,Boersma, M.,Verschuren, W. M. M.,Stehouwer, C. D. A.,Gansevoort, R. T.,Bakker, S. J. L. and Spijkerman, A. M. W. (2017)Consumption of whole grains, fruit and vegetables is not associated with indices of renal function in the population-based longitudinal doetinchem study.The British Journal of Nutrition 118, 375-382.
[66]
Hirschberg, R. R.,Zipser, R. D.,Slomowitz, L. A. and Kopple, J. D. (1988)Glucagon and prostaglandins are mediators of amino acid-induced rise in renal hemodynamics.Kidney International 33, 1147-1155.
[67]
Horton, E. S.,Johnson, C. and Lebovitz, H. E. (1968)Carbohydrate metabolism in uremia.Annals of Internal Medicine 68, 63-74.
[68]
Hostetter, T. H. (1986)Human renal response to meat meal.The American Journal of Physiology 250, F613-618.
[69]
Iduoriyekemwen, N. J.,Ibadin, M. O.,Aikhionbare, H. A.,Idogun, S. E. and Abiodun, M. T. (2019)Glomerular hyperfiltration in excess weight adolescents.Nigerian Journal of Clinical Practice 22, 842-848.
[70]
Jenkins, D. J.,Kendall, C. W.,Vidgen, E.,Augustin, L. S.,van Erk, M.,Geelen, A.,Parker, T.,Faulkner, D.,Vuksan, V.,Josse, R. G.,Leiter, L. A. and Connelly, P. W. (2001)High-protein diets in hyperlipidemia: effect of wheat gluten on serum lipids, uric acid, and renal function.The American Journal of Clinical Nutrition 74, 57-63.
[71]
Johnson, D. W.,Armstrong, K.,Campbell, S. B.,Mudge, D. W.,Hawley, C. M.,Coombes, J. S.,Prins, J. B. and Isbel, N. M. (2007)Metabolic syndrome in severe chronic kidney disease: prevalence, predictors, prognostic significance and effects of risk factor modification.Nephrology (Carlton, Vic) 12, 391-398.
[72]
Jones, G.,Lee, K. and Swaminathan, R. (1985)Glomerular filtration response to acute protein load.Lancet (London, England) 2, 838.
[73]
Jones, M. G.,Lee, K. and Swaminathan, R. (1987)The effect of dietary protein on glomerular filtration rate in normal subjects.Clinical Nephrology 27, 71-75.
[74]
Jun, M.,Venkataraman, V.,Razavian, M.,Cooper, B.,Zoungas, S.,Ninomiya, T.,Webster, A. C. and Perkovic, V. (2012)Antioxidants for chronic kidney disease.The Cochrane Database of Systematic Reviews 10, CD008176.
[75]
Juraschek, S. P.,Appel, L. J.,Anderson, C. A. and Miller, E. R., 3rd (2013)Effect of a high-protein diet on kidney function in healthy adults: results from the omniheart trial.American Journal of Kidney Diseases: the Official Journal of the National Kidney Foundation 61, 547-554.
[76]
Juraschek, S. P.,Chang, A. R.,Appel, L. J.,Anderson, C. A.,Crews, D. C.,Thomas, L.,Charleston, J. and Miller, E. R., 3rd (2016)Effect of glycemic index and carbohydrate intake on kidney function in healthy adults.BMC Nephrology 17, 70.
[77]
Kahleova, H.,Levin, S. and Barnard, N. (2017)Cardio-metabolic benefits of plant-based diets.Nutrients 9, E848.
[78]
Kato, Y.,Hayashi, M.,Ohno, Y.,Suzawa, T.,Sasaki, T. and Saruta, T. (2000)Mild renal dysfunction is associated with insulin resistance in chronic glomerulonephritis.Clinical Nephrology 54, 366-373.
[79]
Kawata, I.,Koshi, T.,Hirabayashi, K.,Koike, H.,Sato, Y.,Yamashita, K.,Oguchi, T. and Aizawa, T. (2019)Prediabetes defined by the international expert committee as a risk for development of glomerular hyperfiltration.Acta Diabetologica 56, 525-529.
[80]
Keith, D. S.,Nichols, G. A.,Gullion, C. M.,Brown, J. B. and Smith, D. H. (2004)Longitudinal follow-up and outcomes among a population with chronic kidney disease in a large managed care organization.Archives of Internal Medicine 164, 659-663.
[81]
Kelishadi, R.,Qorbani, M.,Assadi, F.,Motlagh, M. E.,Djalalinia, S.,Shahsavari, A.,Ziaodini, H.,Taheri, M.,Shafiee, G.,Aminianfar, A.,Esmaeili, S.,Aminaei, T.,Mansourian, M. and Heshmat, R. (2018)Glomerular hyperfiltration as predictor of cardiometabolic risk factors among children and adolescents: the childhood and adolescence surveillance and prevention of adult-V study.International Journal of Preventive Medicine 9, 33.
[82]
Kelly, J. T.,Palmer, S. C.,Wai, S. N.,Ruospo, M.,Carrero, J. J.,Campbell, K. L. and Strippoli, G. F. (2017)Healthy dietary patterns and risk of mortality and ESRD in CKD: a meta-analysis of cohort studies.Clinical Journal of the American Society of Nephrology: CJASN 12, 272-279.
[83]
Kitazato, H.,Fujita, H.,Shimotomai, T.,Kagaya, E.,Narita, T.,Kakei, M. and Ito, S. (2002)Effects of chronic intake of vegetable protein added to animal or fish protein on renal hemodynamics.Nephron 90, 31-36.
[84]
Kitiyakara, C.,Yamwong, S.,Cheepudomwit, S.,Domrongkitchaiporn, S.,Unkurapinun, N.,Pakpeankitvatana, V. and Sritara, P. (2007)The metabolic syndrome and chronic kidney disease in a Southeast Asian cohort.Kidney International 71, 693-700.
[85]
Kleinman, K. S. and Glassock, R. J. (1986)Glomerular filtration rate fails to increase following protein ingestion in hypothalamo-hypophyseal-deficient adults. Preliminary observations.American Journal of Nephrology 6, 169-174.
[86]
Kobayashi, S.,Maesato, K.,Moriya, H.,Ohtake, T. and Ikeda, T. (2005)Insulin resistance in patients with chronic kidney disease.American journal of kidney diseases: the official journal of the National Kidney Foundation 45, 275-280.
[87]
Kontessis, P.,Jones, S.,Dodds, R.,Trevisan, R.,Nosadini, R.,Fioretto, P.,Borsato, M.,Sacerdoti, D. and Viberti, G. (1990)Renal, metabolic and hormonal responses to ingestion of animal and vegetable proteins.Kidney International 38, 136-144.
[88]
Kubo, M.,Kiyohara, Y.,Kato, I.,Iwamoto, H.,Nakayama, K.,Hirakata, H. and Fujishima, M. (1999)Effect of hyperinsulinemia on renal function in a general Japanese population: the Hisayama study.Kidney International 55, 2450-2456.
[89]
Kuku, S. F.,Jaspan, J. B.,Emmanouel, D. S.,Zeidler, A.,Katz, A. I. and Rubenstein, A. H. (1976a)Heterogeneity of plasma glucagon. Circulating components in normal subjects and patients with chronic renal failure.The Journal of Clinical Investigation 58, 742-750.
[90]
Kuku, S. F.,Zeidler, A.,Emmanouel, D. S.,Katz, A. I. and Rubenstein, A. H. (1976b)Heterogeneity of plasma glucagon: patterns in patients with chronic renal failure and diabetes.The Journal of Clinical Endocrinology and Metabolism 42, 173-176.
[91]
Kurella, M.,Lo, J. C. and Chertow, G. M. (2005)Metabolic syndrome and the risk for chronic kidney disease among nondiabetic adults.Journal of the American Society of Nephrology: JASN 16, 2134-2140.
[92]
Landau, M.,Kurella-Tamura, M.,Shli
Comments (0)