Genitourinary cell-matrix structure for implantation into a human and a method of making
First Claim
1. A genitourinary cell-matrix structure for implantation into a human comprising:
- a biocompatible, biodegradable polymeric matrix comprising a plurality of fibers in a nutrient environment; and
parenchymal cells of human genitourinary origin attached to and within the matrix in vitro,wherein the matrix provides a scaffold for cell attachment and has a surface area sufficient to provide free exchange of nutrients and waste by diffusion for attached cells to survive in vitro prior to implantation and in the absence of vascularization, and wherein the matrix is formed in a shape for reconstruction of a genitourinary structure.
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Abstract
Methods and artificial matrices for the growth and implantation of urological structures and surfaces are disclosed in which urothelial cells are grown in culture on biodegradable, biocompatible, fibrous matrices formed of polymers, such as polyglycolic acid, polylactic acid, or other polymers which degrade over time. The cells can be cultured in vitro until an adequate cell volume and density has developed for the cells to survive and proliferate in vivo. Alternatively, when adequate cell numbers for implantation are available, the cells can be attached to the matrix and implanted directly, without proliferation in vitro. The implants approximate the desired urological structure to be replaced or repaired, such as the kidney, urether, bladder, urethra, and the like. Implantation is followed by remodeling through cell growth and proliferation in vivo. In another aspect of the invention, techniques are disclosed for selectively extracting or harvesting urothelial cells either from excised urological tissue in vitro or from intact urological tissue in vivo by treating the tissue with a digestive enzyme, such as collagenase.
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Citations
11 Claims
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1. A genitourinary cell-matrix structure for implantation into a human comprising:
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a biocompatible, biodegradable polymeric matrix comprising a plurality of fibers in a nutrient environment; and
parenchymal cells of human genitourinary origin attached to and within the matrix in vitro,wherein the matrix provides a scaffold for cell attachment and has a surface area sufficient to provide free exchange of nutrients and waste by diffusion for attached cells to survive in vitro prior to implantation and in the absence of vascularization, and wherein the matrix is formed in a shape for reconstruction of a genitourinary structure. - View Dependent Claims (2, 3, 4, 5)
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6. A method for making a genitourinary cell-matrix structure for implantation into a human comprising:
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providing a biocompatible, biodegradable polymeric matrix comprising a plurality of fibers in a nutrient environment; and allowing parenchymal cells of human genitourinary origin to attach to and within the matrix to form a genitourinary structure in vitro, wherein the matrix provides a scaffold for cell attachment and has a surface area sufficient to provide free exchange of nutrients and waste by diffusion for the attached cells to survive in vitro prior to implantation and in the absence of vascularization. - View Dependent Claims (7, 8, 9, 10, 11)
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Specification