Localized delivery of factors enhancing survival of transplanted cells
First Claim
1. A method for delivering a bioactive factor to a transplantation site, said method comprising introducing a microsphere comprising a bioactive factor to a hepatocyte-seeded biodegradable, biocrodible polymer matrix prior to transplantation, wherein said bioactive factor is exposed to portal circulation factors, and wherein said bioactive factor is selected from the group consisting of a growth factor, a factor inhibiting ingrowth of fibrous tissue, and a factor inhibiting cancerous growth, whereby the controlled release of said bioactive factor over time modulates the microenvironment of the transplanted hepatocyte to improve engraftment of the hepatocyte transplanted at the site.
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Abstract
Growth factors and/or angiogenic factors are administered in combination with dissociated cells to be transplanted, preferably in microspheres with the cells on or in a polymeric matrix, to enhance survival and proliferation of the transplanted cells. Examples demonstrate that epidermal growth factor (EGF) was incorporated into microspheres fabricated from a copolymer of lactic and glycolic acid using a double emulsion technique, the incorporated EGF was steadily released over one month in vitro, and it remained biologically active, as determined by its ability to stimulate DNA synthesis, division, and long-term survival of cultured hepatocytes. EGF-containing microspheres were mixed with a suspension of hepatocytes, seeded onto porous sponges, and implanted into the mesentery of two groups of Lewis rats, to demonstrate efficacy in vivo. Two weeks after implantation in PCS animals, devices which included EGF-containing microspheres showed a two-fold increase in the number of engrafted hepatocytes, as compared to implants which received blank microspheres.
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Citations
9 Claims
- 1. A method for delivering a bioactive factor to a transplantation site, said method comprising introducing a microsphere comprising a bioactive factor to a hepatocyte-seeded biodegradable, biocrodible polymer matrix prior to transplantation, wherein said bioactive factor is exposed to portal circulation factors, and wherein said bioactive factor is selected from the group consisting of a growth factor, a factor inhibiting ingrowth of fibrous tissue, and a factor inhibiting cancerous growth, whereby the controlled release of said bioactive factor over time modulates the microenvironment of the transplanted hepatocyte to improve engraftment of the hepatocyte transplanted at the site.
Specification