BACKGROUND: Haemodialysis therapy does not provide renal tubule function, such as active fluid and solute transport, nor metabolic or endocrine action. Moreover, this treatment is usually associated with serious complications and high mortality. We constructed a bioartificial renal tubule device by using renal tubule epithelial cells in an artificial membrane, and evaluated transport properties of the device for 2 weeks. METHODS: A renal epithelial cell line, LLC-PK(1) (Lewis-lung cancer porcine kidney), was seeded on polysulfone hollow fibres in small and large modules. We studied perfusion and leakage of urea nitrogen (UN) and creatinine (Cr), as well as reabsorption of water, glucose and sodium for a period of 2 weeks. RESULTS: Cell-lined hollow fibre membranes significantly reduced the leakage of UN and Cr throughout the 2 week period. Reabsorption of water, glucose and sodium were adequate from days 3 to 10 and gradually decreased thereafter. LLC-PK(1) cells actively transported these substances. Scanning electron microscopy revealed that cells in the hollow fibres on day 8 became completely confluent. However, they became multi-layered and almost obstructed the hollow fibres on day 13. CONCLUSIONS: This bioartificial renal tubule device functioned to reabsorb water, glucose and sodium for approximately 10 days. This is the first report of successful long-term evaluation of a bioartificial renal tubule device. This device, in combination with continuous haemofiltration, may provide treatment to prevent complications of dialysis and raise the quality of life in chronic renal failure patients.
BACKGROUND: Haemodialysis therapy does not provide renal tubule function, such as active fluid and solute transport, nor metabolic or endocrine action. Moreover, this treatment is usually associated with serious complications and high mortality. We constructed a bioartificial renal tubule device by using renal tubule epithelial cells in an artificial membrane, and evaluated transport properties of the device for 2 weeks. METHODS: A renal epithelial cell line, LLC-PK(1) (Lewis-lung cancer porcine kidney), was seeded on polysulfone hollow fibres in small and large modules. We studied perfusion and leakage of ureanitrogen (UN) and creatinine (Cr), as well as reabsorption of water, glucose and sodium for a period of 2 weeks. RESULTS: Cell-lined hollow fibre membranes significantly reduced the leakage of UN and Cr throughout the 2 week period. Reabsorption of water, glucose and sodium were adequate from days 3 to 10 and gradually decreased thereafter. LLC-PK(1) cells actively transported these substances. Scanning electron microscopy revealed that cells in the hollow fibres on day 8 became completely confluent. However, they became multi-layered and almost obstructed the hollow fibres on day 13. CONCLUSIONS: This bioartificial renal tubule device functioned to reabsorb water, glucose and sodium for approximately 10 days. This is the first report of successful long-term evaluation of a bioartificial renal tubule device. This device, in combination with continuous haemofiltration, may provide treatment to prevent complications of dialysis and raise the quality of life in chronic renal failurepatients.
Authors: Shivaram Selvam; Padmaja B Thomas; Sarah F Hamm-Alvarez; Joel E Schechter; Douglas Stevenson; Austin K Mircheff; Melvin D Trousdale Journal: Adv Drug Deliv Rev Date: 2006-09-15 Impact factor: 15.470
Authors: Nureddin Ashammakhi; Mohammad Ali Darabi; Betül Çelebi-Saltik; Rumeysa Tutar; Martin C Hartel; Junmin Lee; Saber Hussein; Marcus J Goudie; Mercedes Brianna Cornelius; Mehmet R Dokmeci; Ali Khademhosseini Journal: Small Methods Date: 2019-11-11
Authors: Farah Tasnim; Rensheng Deng; Min Hu; Sean Liour; Yao Li; Ming Ni; Jackie Y Ying; Daniele Zink Journal: Fibrogenesis Tissue Repair Date: 2010-08-10
Authors: Anna Giovanna Sciancalepore; Fabio Sallustio; Salvatore Girardo; Laura Gioia Passione; Andrea Camposeo; Elisa Mele; Mirella Di Lorenzo; Vincenzo Costantino; Francesco Paolo Schena; Dario Pisignano Journal: PLoS One Date: 2014-01-30 Impact factor: 3.240