Home Journals Associations Among Plant-Based Diet Quality, Uremic Toxins, and Gut Microbiota Profile in Adults Undergoing Hemodialysis Therapy

Associations Among Plant-Based Diet Quality, Uremic Toxins, and Gut Microbiota Profile in Adults Undergoing Hemodialysis Therapy

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Associations Among Plant-Based Diet Quality, Uremic Toxins, and Gut Microbiota Profile in Adults Undergoing Hemodialysis Therapy
    • de Andrade L.S.
    • Ramos C.I.
    • Cuppari L.

    The cross-talk between the kidney and the gut: implications for chronic kidney disease.

    Nutrire. 2017; 42: 27

    • Koppe L.
    • Fouque D.
    • Soulage C.O.

    The role of gut microbiota and diet on uremic retention solutes production in the context of chronic kidney disease.

    Toxins. 2018; 10: 155

    • Liabeuf S.
    • Cheddani L.
    • Massy Z.A.

    Uremic toxins and clinical outcomes: the impact of kidney transplantation.

    Toxins. 2018; 10: 229

    • Dhondt A.
    • Vanholder R.
    • Van Biesen W.
    • Lameire N.

    The removal of uremic toxins.

    Kidney Int. 2000; 58: S47-S59

  • The gut microbiome, kidney disease, and targeted interventions.

    J Am Soc Nephrol. 2014; 25: 657-670

    • Fernandez-Prado R.
    • Esteras R.
    • Perez-Gomez M.V.
    • et al.

    Nutrients turned into toxins: microbiota modulation of nutrient properties in chronic kidney disease.

    Nutrients. 2017; 9: 489

  • Microbial tryptophan catabolites in health and disease.

    Nat Commun. 2018; 9: 3294

    • Saito Y.
    • Sato T.
    • Nomoto K.
    • Tsuji H.

    Identification of phenol- and p-cresol-producing intestinal bacteria by using media supplemented with tyrosine and its metabolites.

    FEMS Microbiol Ecol. 2018; 94

    • Rossi M.
    • Johnson D.W.
    • Campbell K.L.

    The kidney-gut Axis: implications for nutrition care.

    J Ren Nutr. 2015; 25: 399-403

  • Potassium additives and bioavailability: are we missing something in hyperkalemia management?.

    J Ren Nutr. 2018; 29: 350-353

    • Khatri M.
    • Moon Y.P.
    • Scarmeas N.
    • et al.

    The association between a mediterranean-style diet and kidney function in the Northern Manhattan study cohort.

    Clin J Am Soc Nephro. 2014; 9: 1868

    • Kelly J.T.
    • Palmer S.C.
    • Wai S.N.
    • et al.

    Healthy dietary patterns and risk of mortality and ESRD in CKD: a meta-analysis of cohort studies.

    Clin J Am Soc Nephro. 2017; 12: 272-279

    • Saglimbene V.M.
    • Wong G.
    • Craig J.C.
    • et al.

    The association of mediterranean and DASH diets with mortality in adults on hemodialysis: the DIET-HD multinational cohort study.

    J Am Soc Nephrol. 2018; 29: 1741

    • Kalantar-Zadeh KJ S.
    • Schlueter R.
    • Cooke J.L.
    • et al.

    Plant-dominant low-protein diet for conservative management of chronic kidney disease.

    Nutrients. 2020; 12: 1931

    • Bernier-Jean A.
    • Prince R.L.
    • Lewis J.R.
    • et al.

    Dietary plant and animal protein intake and decline in estimated glomerular filtration rate among elderly women: a 10-year longitudinal cohort study.

    Nephrol Dial Transpl. 2020. https://doi.org/10.1093/ndt/gfaa081. Accessed May 28, 2020;

  • Diet, gut microbiome and indoxyl sulphate in chronic kidney disease patients.

    Nephrology. 2018; 23: 16-20

  • Diet, microbiota, and metabolic health: trade-off between saccharolytic and proteolytic fermentation.

    Annu Rev Food Sci Technol. 2018; 9: 65-84

  • Gut microbiome and kidney disease: a bidirectional relationship.

    Pediatr Nephrol. 2017; 32: 921-931

    • Evenepoel P.
    • Poesen R.
    • Meijers B.

    The gut-kidney axis.

    Pediatr Nephrol. 2017; 32: 2005-2014

    • Stanford J.
    • Charlton K.
    • Stefoska-Needham A.
    • Ibrahim R.
    • Lambert K.

    The gut microbiota profile of adults with kidney disease and kidney stones: a systematic review of the literature.

    BMC Nephrol. 2020; 21: 1-23

    • Lambert K.
    • Bird L.
    • Borst A.
    • et al.

    Safety and efficacy of using nuts to improve bowel health in hemodialysis patients.

    J Ren Nutr. 2019; ()

  • The dietary history as a tool in research.

    J Am Diet Assoc. 1947; 23: 1041-1046

    • Food and Agriculture Organization of the United Nations (FAO)

    Dietary Assessment: a resource guide to method selection and application in low resource settings.

    in: FAO,
    Rome, Italy2018: 24

    • Satija A.
    • Bhupathiraju S.N.
    • Rimm E.B.
    • et al.

    Plant-based dietary patterns and incidence of type 2 diabetes in US men and women: results from three prospective cohort studies.

    Plos Med. 2016; 13: e1002039

    • Chen X.
    • Wei G.
    • Jalili T.
    • et al.

    The associations of plant protein intake with all-cause mortality in CKD.

    Am J Kidney Dis. 2016; 67: 423-430

    • Bolyen E.
    • Rideout J.R.
    • Dillon M.R.
    • et al.

    Reproducible, interactive, scalable and extensible microbiome data science using QIIME 2.

    Nat Biotechnol. 2019; 37: 852-857

    • Callahan B.J.
    • McMurdie P.J.
    • Rosen M.J.
    • Han A.W.
    • Johnson A.J.
    • Holmes S.P.

    DADA2: high-resolution sample inference from Illumina amplicon data.

    Nat Methods. 2016; 13: 581-583

    • Bokulish N.
    • Kaehler B.
    • Rideout J.R.
    • et al.

    Optimizing taxonomic classification of marker-gene amplicon sequences with QIIME 2’s q2-feature-classifier plugin.

    Microbiome. 2018; 6: 90

    • Charra B.
    • Jean G.
    • Hurot J.M.
    • et al.

    Clinical determination of dry body weight.

    Hemodial Int. 2001; 5: 42-50

    • Morgan X.C.
    • Tickle T.L.
    • Sokol H.
    • et al.

    Dysfunction of the intestinal microbiome in inflammatory bowel disease and treatment.

    Genome Biol. 2012; 13: R79

    • Afgan E.
    • Baker D.
    • Batut B.
    • et al.

    The Galaxy platform for accessible, reproducible and collaborative biomedical analyses: 2018 update.

    NucleicAcids Res. 2018; 46: W537-W544

    • Pretorius C.J.
    • McWhinney B.C.
    • Sipinkoski B.
    • et al.

    Reference ranges and biological variation of free and total serum indoxyl- and p-cresyl sulphate measured with a rapid UPLC fluorescence detection method.

    Clinica Chim Acta. 2013; 419: 122-126

    • Ash S.
    • Campbell K.
    • MacLaughlin H.
    • et al.

    Evidence based practice guidelines for the nutritional management of chronic kidney disease.

    Nutr Diet. 2006; 63: S33-S45

    • Cheung C.Y.
    • Chan S.Y.
    • Yeung C.S.
    • Chak W.L.
    • Wu T.C.
    • Chau K.F.

    Carbapenem resistant enterobacteriaceae as a cause of peritonitis in a peritoneal dialysis patient.

    Nephrology. 2016; 21: 906-907

    • Morgan X.C.
    • Huttenhower C.

    Chapter 12: human microbiome analysis.

    Plos Comput Biol. 2012; 8: e1002808

    • Kim B.-R.
    • Jiwon S.
    • Guevarra R.
    • et al.

    Deciphering diversity indices for better understanding of the microbial communities.

    J Microbiol Biotechnol. 2017; 27: 2089-2093

    • Tan X.
    • Cao X.
    • Zou J.
    • et al.

    Indoxyl sulfate, a valuable biomarker in chronic kidney disease and dialysis.

    Hemodial Int. 2017; 21: 161-167

    • Lin C.-J.
    • Liu H.-L.
    • Pan C.-F.
    • et al.

    Indoxyl sulfate predicts cardiovascular disease and renal function deterioration in advanced chronic kidney disease.

    Arch Med Res. 2012; 43: 451-456

    • Wu C.-C.
    • Hsieh M.-Y.
    • Hung S.-C.
    • et al.

    Serum indoxyl sulfate associates with postangioplasty thrombosis of dialysis grafts.

    J Am Soc Nephrol. 2016; 27: 1254

    • Zheng Y.
    • Li Y.
    • Satija A.
    • et al.

    Association of changes in red meat consumption with total and cause specific mortality among US women and men: two prospective cohort studies.

    BMJ. 2019; 365: l2110

    • Zhernakova A.
    • Kurilshikov A.
    • Bonder M.J.
    • et al.

    Population-based metagenomics analysis reveals markers for gut microbiome composition and diversity.

    Science. 2016; 352: 565

    • Wang B.
    • Yao M.
    • Lv L.
    • Ling Z.
    • Li L.

    The human microbiota in health and disease.

    Engineering. 2017; 3: 71-82

    • Wang F.
    • Jiang H.
    • Shi K.
    • Ren Y.
    • Zhang P.
    • Cheng S.

    Gut bacterial translocation is associated with microinflammation in end-stage renal disease patients.

    Nephrology. 2012; 17: 733-738

    • Tao S.
    • Li L.
    • Li L.
    • et al.

    Understanding the gut-kidney axis among biopsy-proven diabetic nephropathy, type 2 diabetes mellitus and healthy controls: an analysis of the gut microbiota composition.

    Acta Diabetol. 2019; 56: 581-592

    • Shi K.
    • Wang F.
    • Jiang H.
    • et al.

    Gut bacterial translocation may aggravate microinflammation in hemodialysis patients.

    Dig Dis Sci. 2014; 59: 2109-2117

  • Diversity is the question, not the answer.

    ISME J. 2017; 11: 1-6

    • Rossi M.
    • Johnson D.W.
    • Xu H.
    • et al.

    Dietary protein-fiber ratio associates with circulating levels of indoxyl sulfate and p-cresyl sulfate in chronic kidney disease patients.

    Nutr Metab Cardiovasc Dis. 2015; 25: 860-865

    • Scott K.P.
    • Gratz S.W.
    • Sheridan P.O.
    • Flint H.J.
    • Duncan S.H.

    The influence of diet on the gut microbiota.

    Pharmacol Res. 2013; 69: 52-60

    • Singh R.K.
    • Chang H.-W.
    • Yan D.
    • et al.

    Influence of diet on the gut microbiome and implications for human health.

    J Transl Med. 2017; 15: 73

    • Miclotte L.
    • Van de Wiele T.

    Food processing, gut microbiota and the globesity problem.

    Crit Rev Food Sci Nutr. 2020; 60: 1769-1782

  • Classification, identification, and clinical significance of Haemophilus and Aggregatibacter species with host specificity for humans.

    Clin Microbiol Rev. 2014; 27: 214-240

    • Nazzal L.R.J.
    • Singh P.
    • Jhawar S.
    • et al.

    Microbiome perturbation by oral vancomycin reduces plasma concentration of two gut-derived uremic solutes, indoxyl sulfate and p-cresyl sulfate, in end-stage renal disease.

    Nephrol Dial Transpl. 2017; 32: 1809-1817

    • Gryp T.
    • Vanholder R.
    • Vaneechoutte M.
    • Glorieux G.

    p-Cresyl Sulfate.

    Toxins. 2017; 9: 52

    • Deaver J.A.
    • Eum S.Y.
    • Toborek M.

    Circadian disruption changes gut microbiome taxa and functional gene composition.

    Front Microbiol. 2018; 9: 737

    • Gryp T.
    • De Paepe K.
    • Vanholder R.
    • et al.

    Gut microbiota generation of protein-bound uremic toxins and related metabolites is not altered at different stages of chronic kidney disease.

    Kidney Int. 2020; 97: 1230-1242

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