BACKGROUND: Early living-donor transplantation improves patient- and graft-survival compared with possible cadaveric renal transplantation (RTx), but the magnitude of the survival gain is unknown. For patients starting renal replacement therapy (RRT), we aimed to quantify the survival benefit of early living-donor transplantation compared with dialysis and possible cadaveric transplantation and to estimate the population benefit from increasing the early transplantation rate. METHODS: We used a decision-analytic computer-simulation model, with a lifetime time horizon, simulating patients starting RRT, using data from the Dutch End-Stage Renal Disease Registry and published data. We compared the (quality adjusted) life expectancy (LE) of 'early living-donor RTx' and 'dialysis' (with possible cadaveric RTx if available). RESULTS: LE and quality-adjusted LE benefits of the early living-donor RTx compared with the dialysis strategy for 40-year-old patients ranged from 7.5 to 9.9 life years (LYs) [6.7-8.8 quality-adjusted life years (QALYs)] depending on the primary renal disease. For 70-year-old patients, the benefit was 4.3-6.0 LYs (4.3-6.0 QALYs). Increasing the early transplantation rate from currently 5.8 to 22.2% (the highest in Europe) would increase average LE by 1.2 LYs and total LE for annual incident cases in the Netherlands by >1800 LYs. CONCLUSIONS: Efforts to increase early living-donor RTx could potentially substantially increase LE for patients starting RRT, especially in younger patients.
BACKGROUND: Early living-donor transplantation improves patient- and graft-survival compared with possible cadaveric renal transplantation (RTx), but the magnitude of the survival gain is unknown. For patients starting renal replacement therapy (RRT), we aimed to quantify the survival benefit of early living-donor transplantation compared with dialysis and possible cadaveric transplantation and to estimate the population benefit from increasing the early transplantation rate. METHODS: We used a decision-analytic computer-simulation model, with a lifetime time horizon, simulating patients starting RRT, using data from the Dutch End-Stage Renal Disease Registry and published data. We compared the (quality adjusted) life expectancy (LE) of 'early living-donorRTx' and 'dialysis' (with possible cadaveric RTx if available). RESULTS: LE and quality-adjusted LE benefits of the early living-donorRTx compared with the dialysis strategy for 40-year-old patients ranged from 7.5 to 9.9 life years (LYs) [6.7-8.8 quality-adjusted life years (QALYs)] depending on the primary renal disease. For 70-year-old patients, the benefit was 4.3-6.0 LYs (4.3-6.0 QALYs). Increasing the early transplantation rate from currently 5.8 to 22.2% (the highest in Europe) would increase average LE by 1.2 LYs and total LE for annual incident cases in the Netherlands by >1800 LYs. CONCLUSIONS: Efforts to increase early living-donorRTx could potentially substantially increase LE for patients starting RRT, especially in younger patients.
Authors: Mohsen Yaghoubi; Sonya Cressman; Louisa Edwards; Steven Shechter; Mary M Doyle-Waters; Paul Keown; Ruth Sapir-Pichhadze; Stirling Bryan Journal: Appl Health Econ Health Policy Date: 2022-08-09 Impact factor: 3.686
Authors: Anouk van de Kuit; Stan Benjamens; Camilo G Sotomayor; Elsaline Rijkse; Stefan P Berger; Cyril Moers; Stephan J L Bakker; Robert C Minnee; Derya Yakar; Robert A Pol Journal: Transplant Direct Date: 2020-07-15
Authors: Gábor Kovács; Giovanna Devercelli; Tamás Zelei; Ishan Hirji; Zoltán Vokó; Paul A Keown Journal: PLoS One Date: 2020-04-28 Impact factor: 3.240