Literature DB >> 28705885

Fibroblast Growth Factor 23 and Kidney Disease Progression in Autosomal Dominant Polycystic Kidney Disease.

Michel Chonchol1, Berenice Gitomer2, Tamara Isakova2, Xuan Cai2, Isidro Salusky2, Renata Pereira2, Kaleab Abebe2, Vicente Torres2, Theodor I Steinman2, Jared J Grantham2, Arlene B Chapman2, Robert W Schrier2, Myles Wolf2.   

Abstract

BACKGROUND AND OBJECTIVES: Increases in fibroblast growth factor 23 precede kidney function decline in autosomal dominant polycystic kidney disease; however, the role of fibroblast growth factor 23 in autosomal dominant polycystic kidney disease has not been well characterized. DESIGN, SETTING, PARTICIPANTS & MEASUREMENTS: We measured intact fibroblast growth factor 23 levels in baseline serum samples from 1002 participants in the HALT-PKD Study A (n=540; mean eGFR =91±17 ml/min per 1.73 m2) and B (n=462; mean eGFR =48±12 ml/min per 1.73 m2). We used linear mixed and Cox proportional hazards models to test associations between fibroblast growth factor 23 and eGFR decline, percentage change in height-adjusted total kidney volume, and composite of time to 50% reduction in eGFR, onset of ESRD, or death.
RESULTS: Median (interquartile range) intact fibroblast growth factor 23 was 44 (33-56) pg/ml in HALT-PKD Study A and 69 (50-93) pg/ml in Study B. In adjusted models, annualized eGFR decline was significantly faster in the upper fibroblast growth factor 23 quartile (Study A: quartile 4, -3.62; 95% confidence interval, -4.12 to -3.12 versus quartile 1, -2.51; 95% confidence interval, -2.71 to -2.30 ml/min per 1.73 m2; P for trend <0.001; Study B: quartile 4, -3.74; 95% confidence interval, -4.14 to -3.34 versus quartile 1, -2.78; 95% confidence interval, -2.92 to -2.63 ml/min per 1.73 m2; P for trend <0.001). In Study A, higher fibroblast growth factor 23 quartiles were associated with greater longitudinal percentage increase in height-adjusted total kidney volume in adjusted models (quartile 4, 6.76; 95% confidence interval, 5.57 to 7.96 versus quartile 1, 6.04; 95% confidence interval, 5.55 to 6.54; P for trend =0.03). In Study B, compared with the lowest quartile, the highest fibroblast growth factor 23 quartile was associated with elevated risk for the composite outcome (hazard ratio, 3.11; 95% confidence interval, 1.84 to 5.25). Addition of fibroblast growth factor 23 to a model of annualized decline in eGFR≥3.0 ml/min per 1.73 m2 did not improve risk prediction.
CONCLUSIONS: Higher serum fibroblast growth factor 23 concentration was associated with kidney function decline, height-adjusted total kidney volume percentage increase, and death in patients with autosomal dominant polycystic kidney disease. However, fibroblast growth factor 23 did not substantially improve prediction of rapid kidney function decline.
Copyright © 2017 by the American Society of Nephrology.

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Keywords:  ADPKD; Disease Progression; ESRD; Epidemiology and outcomes; Fibroblast Growth Factors; Humans; Kidney Failure, Chronic; Polycystic Kidney, Autosomal Dominant; Proportional Hazards Models; Renal Insufficiency, Chronic; Risk; chronic kidney disease; fibroblast growth factor 23; glomerular filtration rate; kidney; renal progression

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Year:  2017        PMID: 28705885      PMCID: PMC5586583          DOI: 10.2215/CJN.12821216

Source DB:  PubMed          Journal:  Clin J Am Soc Nephrol        ISSN: 1555-9041            Impact factor:   8.237


  38 in total

1.  Angiotensin blockade in late autosomal dominant polycystic kidney disease.

Authors:  Vicente E Torres; Kaleab Z Abebe; Arlene B Chapman; Robert W Schrier; William E Braun; Theodore I Steinman; Franz T Winklhofer; Godela Brosnahan; Peter G Czarnecki; Marie C Hogan; Dana C Miskulin; Frederic F Rahbari-Oskoui; Jared J Grantham; Peter C Harris; Michael F Flessner; Charity G Moore; Ronald D Perrone
Journal:  N Engl J Med       Date:  2014-11-15       Impact factor: 91.245

Review 2.  Autosomal dominant polycystic kidney disease.

Authors:  Vicente E Torres; Peter C Harris; Yves Pirson
Journal:  Lancet       Date:  2007-04-14       Impact factor: 79.321

3.  Fibroblast growth factor 23 and risks of mortality and end-stage renal disease in patients with chronic kidney disease.

Authors:  Tamara Isakova; Huiliang Xie; Wei Yang; Dawei Xie; Amanda Hyre Anderson; Julia Scialla; Patricia Wahl; Orlando M Gutiérrez; Susan Steigerwalt; Jiang He; Stanley Schwartz; Joan Lo; Akinlolu Ojo; James Sondheimer; Chi-yuan Hsu; James Lash; Mary Leonard; John W Kusek; Harold I Feldman; Myles Wolf
Journal:  JAMA       Date:  2011-06-15       Impact factor: 56.272

4.  Analysis of baseline parameters in the HALT polycystic kidney disease trials.

Authors:  Vicente E Torres; Arlene B Chapman; Ronald D Perrone; K Ty Bae; Kaleab Z Abebe; James E Bost; Dana C Miskulin; Theodore I Steinman; William E Braun; Franz T Winklhofer; Marie C Hogan; Frederic R Oskoui; Cass Kelleher; Amirali Masoumi; James Glockner; Neil J Halin; Diego R Martin; Erick Remer; Nayana Patel; Ivan Pedrosa; Louis H Wetzel; Paul A Thompson; J Philip Miller; Catherine M Meyers; Robert W Schrier
Journal:  Kidney Int       Date:  2011-12-28       Impact factor: 10.612

5.  More adverse renal prognosis of autosomal dominant polycystic kidney disease in families with primary hypertension.

Authors:  S Geberth; E Stier; M Zeier; G Mayer; M Rambausek; E Ritz
Journal:  J Am Soc Nephrol       Date:  1995-12       Impact factor: 10.121

6.  FGF-23 associates with death, cardiovascular events, and initiation of chronic dialysis.

Authors:  Jessica Kendrick; Alfred K Cheung; James S Kaufman; Tom Greene; William L Roberts; Gerard Smits; Michel Chonchol
Journal:  J Am Soc Nephrol       Date:  2011-09-07       Impact factor: 10.121

7.  Circulating FGF-23 is regulated by 1alpha,25-dihydroxyvitamin D3 and phosphorus in vivo.

Authors:  Hitoshi Saito; Akira Maeda; Shu-Ichi Ohtomo; Michinori Hirata; Kenichiro Kusano; Shigeaki Kato; Etsuro Ogata; Hiroko Segawa; Ken-Ichi Miyamoto; Naoshi Fukushima
Journal:  J Biol Chem       Date:  2004-11-05       Impact factor: 5.157

8.  Patients with autosomal dominant polycystic kidney disease have elevated fibroblast growth factor 23 levels and a renal leak of phosphate.

Authors:  Ivana Pavik; Philippe Jaeger; Andreas D Kistler; Diane Poster; Fabienne Krauer; Claudia Cavelti-Weder; Katharina M Rentsch; Rudolf P Wüthrich; Andreas L Serra
Journal:  Kidney Int       Date:  2010-10-13       Impact factor: 10.612

9.  The HALT polycystic kidney disease trials: design and implementation.

Authors:  Arlene B Chapman; Vicente E Torres; Ronald D Perrone; Theodore I Steinman; Kyongtae T Bae; J Philip Miller; Dana C Miskulin; Frederic Rahbari Oskoui; Amirali Masoumi; Marie C Hogan; Franz T Winklhofer; William Braun; Paul A Thompson; Catherine M Meyers; Cass Kelleher; Robert W Schrier
Journal:  Clin J Am Soc Nephrol       Date:  2010-01       Impact factor: 8.237

10.  Magnetic resonance measurements of renal blood flow and disease progression in autosomal dominant polycystic kidney disease.

Authors:  Vicente E Torres; Bernard F King; Arlene B Chapman; Marijn E Brummer; Kyongtae T Bae; James F Glockner; Kraisthith Arya; Dana Risk; Joel P Felmlee; Jared J Grantham; Lisa M Guay-Woodford; William M Bennett; Saulo Klahr; Catherine M Meyers; Xiaoling Zhang; Paul A Thompson; J Philip Miller
Journal:  Clin J Am Soc Nephrol       Date:  2006-11-02       Impact factor: 8.237
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  9 in total

Review 1.  Implications of the PAPP-A-IGFBP-IGF-1 pathway in the pathogenesis and treatment of polycystic kidney disease.

Authors:  Sonu Kashyap; Julianna D Zeidler; Claudia C S Chini; Eduardo Nunes Chini
Journal:  Cell Signal       Date:  2020-06-20       Impact factor: 4.315

Review 2.  Contribution of phosphate and FGF23 to CKD progression.

Authors:  Kyle P Jansson; Alan S L Yu; Jason R Stubbs
Journal:  Curr Opin Nephrol Hypertens       Date:  2022-03-11       Impact factor: 3.416

3.  Kidney stone formation in a novel murine model of polycystic kidney disease.

Authors:  Heather A L Riddle; Shiqin Zhang; Feng Qian; James C Williams; Jason R Stubbs; Peter Stanley N Rowe; Stephen C Parnell
Journal:  Am J Physiol Renal Physiol       Date:  2022-03-28

4.  Interactions between FGF23 and Genotype in Autosomal Dominant Polycystic Kidney Disease.

Authors:  Laura Grau; Berenice Gitomer; Bryan McNair; Myles Wolf; Peter Harris; Godela Brosnahan; Vicente Torres; Theodore Steinman; Alan Yu; Arlene Chapman; Michel Chonchol; Kristen L Nowak
Journal:  Kidney360       Date:  2020-07-30

Review 5.  Dietary Phosphorus as a Marker of Mineral Metabolism and Progression of Diabetic Kidney Disease.

Authors:  Agata Winiarska; Iwona Filipska; Monika Knysak; Tomasz Stompór
Journal:  Nutrients       Date:  2021-02-27       Impact factor: 5.717

6.  Prognostic Value of Fibroblast Growth Factor 23 in Autosomal Dominant Polycystic Kidney Disease.

Authors:  Mireille El Ters; Pengcheng Lu; Jonathan D Mahnken; Jason R Stubbs; Shiqin Zhang; Darren P Wallace; Jared J Grantham; Arlene B Chapman; Vicente E Torres; Peter C Harris; Kyongtae Ty Bae; Douglas P Landsittel; Frederic F Rahbari-Oskoui; Michal Mrug; William M Bennett; Alan S L Yu
Journal:  Kidney Int Rep       Date:  2021-01-16

7.  Change in Urinary Myoinositol/Citrate Ratio Associates with Progressive Loss of Renal Function in ADPKD Patients.

Authors:  Shosha E I Dekker; Aswin Verhoeven; Daria Frey; Darius Soonawala; Dorien J M Peters; Oleg A Mayboroda; Johan W de Fijter
Journal:  Am J Nephrol       Date:  2022-05-25       Impact factor: 4.605

8.  A Systematic Review of Reported Outcomes in ADPKD Studies.

Authors:  Sara S Jdiaa; Nedaa M Husainat; Razan Mansour; Mohamad A Kalot; Kerri McGreal; Fouad T Chebib; Ronald D Perrone; Alan Yu; Reem A Mustafa
Journal:  Kidney Int Rep       Date:  2022-07-05

9.  Urinary Biomarkers to Identify Autosomal Dominant Polycystic Kidney Disease Patients With a High Likelihood of Disease Progression.

Authors:  A Lianne Messchendorp; Esther Meijer; Wendy E Boertien; Gerwin E Engels; Niek F Casteleijn; Edwin M Spithoven; Monique Losekoot; Johannes G M Burgerhof; Dorien J M Peters; Ron T Gansevoort
Journal:  Kidney Int Rep       Date:  2017-10-14
  9 in total

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