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Items: 1 to 20 of 244

1.

Estimating residual kidney function in dialysis patients without urine collection.

Shafi T, Michels WM, Levey AS, Inker LA, Dekker FW, Krediet RT, Hoekstra T, Schwartz GJ, Eckfeldt JH, Coresh J.

Kidney Int. 2016 May;89(5):1099-1110. doi: 10.1016/j.kint.2015.10.011. Epub 2016 Jan 21.

2.

Predicting residual kidney function in hemodialysis patients using serum β-trace protein and β2-microglobulin.

Wong J, Sridharan S, Berdeprado J, Vilar E, Viljoen A, Wellsted D, Farrington K.

Kidney Int. 2016 May;89(5):1090-1098. doi: 10.1016/j.kint.2015.12.042. Epub 2016 Feb 26.

3.

GFR Estimation Using β-Trace Protein and β2-Microglobulin in CKD.

Inker LA, Tighiouart H, Coresh J, Foster MC, Anderson AH, Beck GJ, Contreras G, Greene T, Karger AB, Kusek JW, Lash J, Lewis J, Schelling JR, Navaneethan SD, Sondheimer J, Shafi T, Levey AS.

Am J Kidney Dis. 2016 Jan;67(1):40-8. doi: 10.1053/j.ajkd.2015.07.025. Epub 2015 Sep 9.

4.

Plasma Levels of Middle Molecules to Estimate Residual Kidney Function in Haemodialysis without Urine Collection.

Vilar E, Boltiador C, Wong J, Viljoen A, Machado A, Uthayakumar A, Farrington K.

PLoS One. 2015 Dec 2;10(12):e0143813. doi: 10.1371/journal.pone.0143813. eCollection 2015.

5.

Prognostic Value of Residual Urine Volume, GFR by 24-hour Urine Collection, and eGFR in Patients Receiving Dialysis.

Lee MJ, Park JT, Park KS, Kwon YE, Oh HJ, Yoo TH, Kim YL, Kim YS, Yang CW, Kim NH, Kang SW, Han SH.

Clin J Am Soc Nephrol. 2017 Mar 7;12(3):426-434. doi: 10.2215/CJN.05520516. Epub 2017 Feb 22.

6.

Non-GFR Determinants of Low-Molecular-Weight Serum Protein Filtration Markers in the Elderly: AGES-Kidney and MESA-Kidney.

Foster MC, Levey AS, Inker LA, Shafi T, Fan L, Gudnason V, Katz R, Mitchell GF, Okparavero A, Palsson R, Post WS, Shlipak MG.

Am J Kidney Dis. 2017 Sep;70(3):406-414. doi: 10.1053/j.ajkd.2017.03.021. Epub 2017 May 24.

7.

Reliability of endogenous markers for estimation of residual renal function in haemodialysis patients.

Kjaergaard KD, Rehling M, Jensen JD, Jespersen B.

Clin Physiol Funct Imaging. 2013 May;33(3):224-32. doi: 10.1111/cpf.12018. Epub 2013 Jan 1.

PMID:
23522017
8.

β-trace protein is highly removed during haemodialysis with high-flux and super high-flux membranes.

Donadio C, Tognotti D, Caponi L, Paolicchi A.

BMC Nephrol. 2017 Feb 20;18(1):68. doi: 10.1186/s12882-017-0489-6.

9.

Non-GFR Determinants of Low-Molecular-Weight Serum Protein Filtration Markers in CKD.

Liu X, Foster MC, Tighiouart H, Anderson AH, Beck GJ, Contreras G, Coresh J, Eckfeldt JH, Feldman HI, Greene T, Hamm LL, He J, Horwitz E, Lewis J, Ricardo AC, Shou H, Townsend RR, Weir MR, Inker LA, Levey AS; CRIC (Chronic Renal Insufficiency Cohort) Study Investigators.

Am J Kidney Dis. 2016 Dec;68(6):892-900. doi: 10.1053/j.ajkd.2016.07.021. Epub 2016 Sep 20.

10.

Validation of cystatin C-based equations for evaluating residual renal function in patients on continuous ambulatory peritoneal dialysis.

Zhong H, Zhang W, Qin M, Gou Z, Feng P.

Nephrol Dial Transplant. 2017 Jun 1;32(6):1032-1040. doi: 10.1093/ndt/gfw096.

PMID:
27190348
11.

Endogenous markers for estimation of renal function in peritoneal dialysis patients.

Kjaergaard KD, Jensen JD, Rehling M, Jespersen B.

Perit Dial Int. 2013 Mar-Apr;33(2):195-204. doi: 10.3747/pdi.2011.00220. Epub 2012 Oct 2.

12.

Is beta-trace protein an alternative marker of glomerular filtration rate in liver transplant recipients?

Gerhardt T, Pöge U, Stoffel-Wagner B, Palmedo H, Sauerbruch T, Woitas RP.

Liver Int. 2011 Oct;31(9):1345-51. doi: 10.1111/j.1478-3231.2011.02569.x. Epub 2011 Jun 23.

PMID:
21745310
13.

Is cystatin C a better marker than creatinine for evaluating residual renal function in patients on continuous ambulatory peritoneal dialysis?

Yang Q, Li R, Zhong Z, Mao H, Fan J, Lin J, Yang X, Wang X, Li Z, Yu X.

Nephrol Dial Transplant. 2011 Oct;26(10):3358-65. doi: 10.1093/ndt/gfr045. Epub 2011 Mar 2.

PMID:
21367849
14.

Comparison of the new and traditional CKD-EPI GFR estimation equations with urinary inulin clearance: A study of equation performance.

White CA, Allen CM, Akbari A, Collier CP, Holland DC, Day AG, Knoll GA.

Clin Chim Acta. 2019 Jan;488:189-195. doi: 10.1016/j.cca.2018.11.019. Epub 2018 Nov 13.

PMID:
30445029
15.

Relationship of serum cystatin C to peritoneal and renal clearance measures in peritoneal dialysis: a cross-sectional study.

Delaney MP, Stevens PE, Al Hasani M, Stowe HJ, Judge C, Lamb EJ.

Am J Kidney Dis. 2008 Feb;51(2):278-84. doi: 10.1053/j.ajkd.2007.08.018.

PMID:
18215705
16.

Estimating glomerular filtration rate by serum creatinine or/and cystatin C equations: An analysis of multi-centre Chinese subjects.

Ye X, Liu X, Song D, Zhang X, Zhu B, Wei L, Pei X, Wu J, Lou T, Zhao W.

Nephrology (Carlton). 2016 May;21(5):372-8. doi: 10.1111/nep.12636.

PMID:
26427030
17.

Estimation of residual glomerular filtration rate in peritoneal dialysis patients using cystatin C: comparison with 51Cr-EDTA clearance.

Carter JL, Lane CE, Fan SL, Lamb EJ.

Nephrol Dial Transplant. 2011 Nov;26(11):3729-32. doi: 10.1093/ndt/gfr112. Epub 2011 Mar 25.

PMID:
21441400
18.

Superior dialytic clearance of beta(2)-microglobulin and p-cresol by high-flux hemodialysis as compared to peritoneal dialysis.

Evenepoel P, Bammens B, Verbeke K, Vanrenterghem Y.

Kidney Int. 2006 Aug;70(4):794-9. Epub 2006 Jul 5.

19.
20.

The MDRD equation predicts peritoneal dialysis-delivered creatinine clearances from serum creatinine.

Khosla N, Steiner RW.

Clin J Am Soc Nephrol. 2009 Apr;4(4):798-803. doi: 10.2215/CJN.03870808. Epub 2009 Apr 1.

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