Angela Funke scite author profile

Current renal substitution therapy with hemodialysis or hemofiltration has been the only successful long-term ex vivo organ substitution therapy to date. Although this approach is life sustaining, it is still unacceptably suboptimal with poor clinical outcomes of patients with either chronic end-stage renal disease or acute renal failure. This current therapy utilizes synthetic membranes to substitute for the small solute clearance function of the renal glomerulus but does not replace the transport, metabolic, and endocrinologic functions of the tubular cells. The addition of tubule cell replacement therapy in a tissue-engineered bioartificial kidney comprising both biologic and synthetic components will likely optimize renal replacement to improve clinical outcomes. This report demonstrates that the combination of a synthetic hemofiltration device and a renal tubule cell therapy device containing porcine renal tubule cells in an extracorporeal perfusion circuit successfully replaces filtration, transport, metabolic, and endocrinologic functions of the kidney in acutely uremic dogs.

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Tissue engineering of a bioartificial renal tubule assist device: In vitro transport and metabolic characteristics

Humes¹,

MacKay²,

Funke³

et al. 1999

Kidney International

210

155

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These results clearly demonstrate the successful tissue engineering of a bioartificial RAD that possesses critical differentiated transport, and improves metabolic and endocrinological functions of the kidney. This device, when placed in series with conventional hemofiltration therapy, may provide incremental renal replacement support and potentially may decrease the high morbidity and mortality rates observed in patients with renal failure.

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Longitudinal left ventricular 2D strain is superior to ejection fraction in predicting myocardial recovery and symptomatic improvement after aortic valve implantation

Kempny

Diller

Kaleschke

et al. 2013

International Journal of Cardiology

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Tissue Engineering of a Bioartificial Renal Tubule

et al. 1998

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Angela Funke

Replacement of renal function in uremic animals with a tissue-engineered kidney

Tissue engineering of a bioartificial renal tubule assist device: In vitro transport and metabolic characteristics

Longitudinal left ventricular 2D strain is superior to ejection fraction in predicting myocardial recovery and symptomatic improvement after aortic valve implantation

Tissue Engineering of a Bioartificial Renal Tubule

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