A Murine Model of Irreversible and Reversible Unilateral Ureteric Obstruction

Emily E. Hesketh, Madeleine A. Vernon, Peng Ding, Spike Clay, Gary Borthwick, Bryan Conway, Jeremy Hughes*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Obstruction of the kidney may affect native or transplanted kidneys and results in kidney injury and scarring. Presented here is a model of obstructive nephropathy induced by unilateral ureteric obstruction (UUO), which can either be irreversible (UUO) or reversible (R-UUO). In the irreversible UUO model, the ureter may be obstructed for variable periods of time in order to induce increasingly severe renal inflammation and interstitial fibrotic scarring. In the reversible R-UUO model the ureter is obstructed to induce hydronephrosis, tubular dilation and inflammation. After a suitable period of time the ureteric obstruction is then surgically reversed by anastomosis of the severed previously obstructed ureter to the bladder in order to allow complete decompression of the kidney and restoration of urinary flow to the bladder. The irreversible UUO model has been used to investigate various aspects of renal inflammation and scarring including the pathogenesis of disease and the testing of potential anti-inflammatory or anti-fibrotic therapies. The more challenging model of R-UUO has been used by some investigators and does offer significant research potential as it allows the study of inflammatory and immune processes and tissue remodeling in an injured and scarred kidney following the removal of the injurious stimulus. As a result, the R-UUO model offers investigators the opportunity to explore the resolution of kidney inflammation together with key aspects of tissue repair. These experimental models are of relevance to human disease as patients often present with obstruction of the renal tract that requires decompression and are commonly left with significant residual kidney impairment that has no current treatment options and may lead to eventual end stage kidney failure.

Original languageEnglish
Article number52559
Number of pages6
JournalJournal of Visualized Experiments (JoVE)
Issue number94
DOIs
Publication statusPublished - Dec 2014

Keywords

  • Medicine
  • Issue 94
  • Mouse
  • Unilateral Ureteric Obstruction
  • Irreversible
  • Reversible
  • Kidney
  • Hydronephrosis
  • Inflammation
  • Fibrosis
  • RENAL FIBROSIS
  • MOUSE MODEL
  • STEM-CELLS
  • NEPHROPATHY
  • KIDNEY
  • DISEASE
  • INJURY
  • REPAIR

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