Transplanting muscle progenitor cells showed the potential for recapitulation of a myogenic program when injected into deficient rabbit anal sphincter. Objective anal measures of resting and stimulated pressures and electromyographic profile improved. Stem cell-mediated anal myoplasty warrants additional investigation as a new method to treat anal incontinence before attempting this modality in the clinical setting.
Voided urine carbohydrate antigen 19-9 is a noninvasive, clinically applicable marker in congenital obstructive nephropathy. The practical implications of these data for diagnosis and long-term followup in ureteropelvic junction obstruction are significant. Our findings suggest that proper decrease in urinary carbohydrate antigen 19-9 after pyeloplasty is predictive of excellent surgical outcomes and resolution of renal damage.
ObjectiveTo investigate the feasibility of a new approach for cystoplasty using autologous smooth muscle cell (SMC) sheet and scaffold-less bladder tissue engineering with the main focus on histological outcomes in a rabbit model.
Materials and MethodsIn all, 24 rabbits were randomly divided into two groups. In the experimental group, SMCs were obtained from the bladder muscular layer, labelled with PKH-26, and seeded on temperature-responsive culture dishes. Contiguous cell sheets were noninvasively harvested by reducing the temperature and triple-layer cell-dense tissues were constructed. After partial detrusorectomy, the engineered tissue was transplanted onto the urothelial diverticulum. The control group underwent partial detrusorectomy followed by peritoneal fat coverage. At 2, 4, and 12 weeks the rabbits were humanely killed and haematoxylin and eosin, Masson's trichrome, cluster of differentiation 34 (CD34), CD31, CD3, CD68, α-smooth muscle actin (α-SMA), picrosirius red, and pentachrome staining were used to evaluate bladder reconstruction.
ResultsAt 2 weeks after SMC-sheet grafting, PKH-26 labelled SMCs were evident in the muscular layer. At 4 weeks, 79.1% of the cells in the muscular layer were PKH-positive cells. The portion of the muscular layer increased in the experimental group during the follow-up and was similar to normal bladder tissue after 12 weeks. α-SMA staining showed well organised muscle at 4 and 12 weeks. CD34+ endothelial progenitor cells and CD31+ microvessels increased continuously and peaked 4 and 12 weeks after grafting, respectively.
ConclusionIn the present study, we show that autologous SMC-sheet grafting has the potential for reliable bladder reconstruction and is technically feasible with a favourable evolution over the 12 weeks following implantation. Our findings could pave the way toward future bladder tissue engineering using the SMC-sheet technique.
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