Objective To review the current research status and clinical application progress of extracellular matrix (ECM) material in tissue engineering. Methods The literature about the latest progress in the preparation, biocompatibility, mechanical property, degradability, and clinical application of ECM material was extensively reviewed. Results The improvement of the ECM preparation method and thorough understanding of the immunological properties have laid the foundation for the repair and reconstruction of the tissue. Moreover, a series of animal studies also confirm that the feasibility and effectiveness of the ECM such as small intestinal submucosa, bladder ECM grift, and acellular dermis which have been applied to the repair and reconstruction of the urethra, bladder, arteries, and skin tissue. It shows a wide prospect of clinical application in the future. Conclusion ECM material is a good bio-derived scaffold, which is expected to become an important source of alternative materials for the repair and reconstruction of the tissue.
Objective To sum up the common mode in urinary diversion after radical cystectomy. Methods The recent original articles about the common mode in urinary diversion after radical cystectomy were extensively reviewed. Results Urinary diversion includes no continent ureterocutaneostomy, continent ureterocutaneostomy and orthotopic neobladder. Ileal conduit, an ideal procedure of urinary diversion, has been widely used in patients after radical cystectomy and it is uncertain whether the health related quality of life in patients undergoing orthotopic ileal neobladder is superior to those undergoing ileal conduit. A series of basic researches of tissue engineering show a wide prospect of clinical application in the future. Conclusion Intestinal segment will remain the main material for urinary diversion and bladder reconstruction in a long time. Tissue engineering materials may be ideal for the substitution of bladder, and tissue engineering becomes the ultimate approach to solve the problem of missing bladder.
Objective To observe whether umbilical cord mesenchymal stem cells (UCMSCs) can differentiate into the smooth muscle cells (SMCs) induced by bladder SMCs (BSMCs) conditioned medium so as to seek an alternative seed cells for the repair and reconstruction of the urology system. Methods UCMSCs and BSMCs were harvested from umbilical cord of full-term births and bladder tissues which were obtained from patients who underwent a radical cystectomy. BSMCs conditioned medium was prepared by mixing supernatant of BSMCs at passages 1-5 with complete medium at ratio of 1 ∶ 1. UCMSCs at passage 3 were cultured with BSMCs conditioned medium (induced group, group A) and complete medium (control group, group B), respectively; simple BSMCs served as positive control group (group C). The morphological changes of co-cultured UCMSCs were observed by inverted phase microscope, the expressions of α-smooth muscle actin (α-SMA), Calponin, and smooth muscle myosin heavy chain (SM-MHC) of UCMSCs were tested by immunofluorescence staining and Western blot at 7 and 14 days. Results The morphology of UCMSCs in group A started to change from a polygonal and short spindle shape to a large and spindle shape after co-culture, which was similar to BSMCs morphology; but the morphology of UCMSCs did not change obviously in group B. Immunofluorescence staining showed that the expressions of α-SMA, Calponin, and SM-MHC were positive in group C. At 7 days, the expression of α-SMA could be observed in groups A and B; at 14 days, the positive expression of α-SMA increased gradually in group A, but it did not increase in group B. At 7 days, a positive expression of Calponin could be observed in group A, and positive expression increased obviously at 14 days; the expression of Calponin could not be observed at 7 and 14 days in group B. However, the expression of SM-MHC could not be observed in groups A and B. The results of Western blot showed the expressions of α-SMA, Calponin, and SM-MHC protein were consistent with the results of immunofluorescence staining. Conclusion UCMSCs have the potential of differentiation into SMCs and may be a potential seed cells for bladder tissue engineering.