Prosthetic urinary bladder implantation to facilitate bladder regeneration

In an earlier study, urinary bladder regeneration was investigated. For that purpose, 15 dogs were subjected to total or subtotal cystectomy, and a silicone rubber prosthesis was nestled in the trigone and covered with polyglycolic acid mesh. After 3-5 months, a newly formed urinary reservoir was found in six dogs. Since transitional cell epithelium and smooth muscle were identified in the wall of the reservoir, it was concluded that bladder regeneration had probably occurred. However, the possibility of distention of the trigone to form the new cavity could not be ruled out.Therefore, six additional dogs were subjected to subtotal cystectomy, ileal loop, and temporary artificial bladder implantation. The edges of the bladder resection were marked with nonabsorbable sutures. In three fully evaluable dogs a urinary cavity was identified. This was mainly formed by trigonal distention. While the epithelium had regrown over a small area of fibrous tissue found at the dome of the reservoir, no smooth muscle regeneration was found.It is concluded that the new reservoir was formed by trigonal dilatation rather than by regeneration.

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Urinary bladder reformation: Regeneration or dilatation?

Gasser

Larsen

England³

et al. 1987

Neurourology and Urodynamics

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Tissue Engineering in Animal Models for Urinary Diversion: A Systematic Review

Sloff¹,

Vries

Geutjes³

et al. 2014

PLoS ONE

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Tissue engineering and regenerative medicine (TERM) approaches may provide alternatives for gastrointestinal tissue in urinary diversion. To continue to clinically translatable studies, TERM alternatives need to be evaluated in (large) controlled and standardized animal studies. Here, we investigated all evidence for the efficacy of tissue engineered constructs in animal models for urinary diversion. Studies investigating this subject were identified through a systematic search of three different databases (PubMed, Embase and Web of Science). From each study, animal characteristics, study characteristics and experimental outcomes for meta-analyses were tabulated. Furthermore, the reporting of items vital for study replication was assessed. The retrieved studies (8 in total) showed extreme heterogeneity in study design, including animal models, biomaterials and type of urinary diversion. All studies were feasibility studies, indicating the novelty of this field. None of the studies included appropriate control groups, i.e. a comparison with the classical treatment using GI tissue. The meta-analysis showed a trend towards successful experimentation in larger animals although no specific animal species could be identified as the most suitable model. Larger animals appear to allow a better translation to the human situation, with respect to anatomy and surgical approaches. It was unclear whether the use of cells benefits the formation of a neo urinary conduit. The reporting of the methodology and data according to standardized guidelines was insufficient and should be improved to increase the value of such publications. In conclusion, animal models in the field of TERM for urinary diversion have probably been chosen for reasons other than their predictive value. Controlled and comparative long term animal studies, with adequate methodological reporting are needed to proceed to clinical translatable studies. This will aid in good quality research with the reduction in the use of animals and an increase in empirical evidence of biomedical research.

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Prosthetic urinary bladder implantation to facilitate bladder regeneration

Cited by 2 publications

References 6 publications

Urinary bladder reformation: Regeneration or dilatation?

Urinary bladder reformation: Regeneration or dilatation?

Tissue Engineering in Animal Models for Urinary Diversion: A Systematic Review

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