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W2017994626 abstract "Scope: Dietary soy protein reduces renal disease progression in a number of renal diseases, suggesting that plant compared with animal proteins may be renoprotective. The inclusion of other plant protein sources could enhance compliance of intervention diets, but the effects of other plant protein sources are not known. Methods and results: Weanling Han:SPRD-cy rats with experimental polycystic kidney disease were given hemp-, pea- and soy protein-based diets compared with the standard AIN 93G diet with casein as the protein source. Kidneys from diseased rats given diets which contained soy or hemp protein compared with casein-based diets were less enlarged, had lower fluid content, smaller cyst volumes, less fibrosis, lower chemokine receptor 2 (CCR2) levels and normalized serum creatinine levels. Soy and hemp protein diets also normalized heart size, which was enlarged in diseased compared with normal rats consuming casein. Kidneys from diseased rats given pea protein compared with casein were more enlarged and had higher fluid content and cyst volumes, despite growing better and having lower serum creatinine and renal chemokine receptor 2 levels, and similar levels of renal fibrosis. Conclusion: Not all plant proteins are equally protective in experimental kidney disease and associated cardiac hypertrophy." @default.
W2017994626 created "2016-06-24" @default.
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W2017994626 date "2011-02-03" @default.
W2017994626 modified "2023-09-27" @default.
W2017994626 title "Distinctive effects of plant protein sources on renal disease progression and associated cardiac hypertrophy in experimental kidney disease" @default.
W2017994626 cites W1831301545 @default.
W2017994626 cites W1913947155 @default.
W2017994626 cites W1940665376 @default.
W2017994626 cites W1964622928 @default.
W2017994626 cites W1968727315 @default.
W2017994626 cites W1969735455 @default.
W2017994626 cites W1970269626 @default.
W2017994626 cites W1972304537 @default.
W2017994626 cites W1985655422 @default.
W2017994626 cites W1987314503 @default.
W2017994626 cites W1993287055 @default.
W2017994626 cites W1993461553 @default.
W2017994626 cites W1999944709 @default.
W2017994626 cites W2005876834 @default.
W2017994626 cites W2008387525 @default.
W2017994626 cites W2011801881 @default.
W2017994626 cites W2015887168 @default.
W2017994626 cites W2016469480 @default.
W2017994626 cites W2016547342 @default.
W2017994626 cites W2019049688 @default.
W2017994626 cites W2020479491 @default.
W2017994626 cites W2022759078 @default.
W2017994626 cites W2025589168 @default.
W2017994626 cites W2028356835 @default.
W2017994626 cites W2031423487 @default.
W2017994626 cites W2034094218 @default.
W2017994626 cites W2039232401 @default.
W2017994626 cites W2042351135 @default.
W2017994626 cites W2043827647 @default.
W2017994626 cites W2045516356 @default.
W2017994626 cites W2046698644 @default.
W2017994626 cites W2052084226 @default.
W2017994626 cites W2053180390 @default.
W2017994626 cites W2053886636 @default.
W2017994626 cites W2063243647 @default.
W2017994626 cites W2070168611 @default.
W2017994626 cites W2077498219 @default.
W2017994626 cites W2079680494 @default.
W2017994626 cites W2086237781 @default.
W2017994626 cites W2086504051 @default.
W2017994626 cites W2087763632 @default.
W2017994626 cites W2095652972 @default.
W2017994626 cites W2099154300 @default.
W2017994626 cites W2109804041 @default.
W2017994626 cites W2113583039 @default.
W2017994626 cites W2117682607 @default.
W2017994626 cites W2118088187 @default.
W2017994626 cites W2120309176 @default.
W2017994626 cites W2130702049 @default.
W2017994626 cites W2131188896 @default.
W2017994626 cites W2135100794 @default.
W2017994626 cites W2137004892 @default.
W2017994626 cites W2140612433 @default.
W2017994626 cites W2141385164 @default.
W2017994626 cites W2172011549 @default.
W2017994626 cites W2248836849 @default.
W2017994626 cites W4293247451 @default.
W2017994626 doi "https://doi.org/10.1002/mnfr.201000558" @default.
W2017994626 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21294251" @default.
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