PURPOSE: To evaluate the efficacy of cultured cutaneous substitute (CCS) in accelerating the healing of combined radiation-skin wound injury (CRWI) in minipigs. MATERIAL AND METHODS: Autologous porcine bone marrow-derived mesenchymal stem cells (BMSC) and skin-derived keratinocytes (SK) were infected by recombinant retrovirus expressing human (h) platelet-derived growth factor-A (hPDGF-A). CCS was constructed by loading acellular human amniotic membrane (HAM) with normal porcine BMSC and SK (BMSC-/SK-CCS) or with hPDGF-A modified counterparts (BMSC+/SK+CCS). The expression of exogenous hPDGF-A in cells and CCS was assessed by reverse transcription polymerase chain reaction (RT-PCR) and enzyme linked immunosorbent assay (ELISA). The CCS or HAM were grafted to the dorsal CRWI sites (20 Gy local irradiation plus full-thickness skin removal, diameter = 40 mm) of minipigs. Wound healing rate and pathological changes were observed. RESULTS: High levels of hPDGF-A expression were confirmed in gene-modified cells (3780 pg/ml), cultured CCS (506 pg/ml) and transplanted CCS (250 pg/ml). The transplantation of the BMSC+/SK+CCS resulted in a shorter healing time (16-18, days) (P < 0.05 vs. other groups). The healing rates ranked as BMSC+/SK+CCS > BMSC-/SK-CCS > HAM > wound control. Pathologically, there were better granulation formation and re-epithelialisation, and collagen deposition in BMSC+/SK+CCS-treated wound than those in other groups. The angiogenesis ability followed the same order as healing rate of different groups. At day 7, the area densities of vasculature in granulation tissue of group BMSC+/SK+CCS, BMSC-/SK-CCS, HAM, wound only were 15.4, 10.3, 6.0 and 5.7%, respectively, while the number densities of vasculature was 767, 691, 126 and 109 (number/mm(2)), respectively. CONCLUSIONS: Topical transplantation of hPDGF-A modified CCS may be applicable to the management of refractory wounds.
PURPOSE: To evaluate the efficacy of cultured cutaneous substitute (CCS) in accelerating the healing of combined radiation-skin wound injury (CRWI) in minipigs. MATERIAL AND METHODS: Autologous porcine bone marrow-derived mesenchymal stem cells (BMSC) and skin-derived keratinocytes (SK) were infected by recombinant retrovirus expressing human (h) platelet-derived growth factor-A (hPDGF-A). CCS was constructed by loading acellular human amniotic membrane (HAM) with normal porcine BMSC and SK (BMSC-/SK-CCS) or with hPDGF-A modified counterparts (BMSC+/SK+CCS). The expression of exogenous hPDGF-A in cells and CCS was assessed by reverse transcription polymerase chain reaction (RT-PCR) and enzyme linked immunosorbent assay (ELISA). The CCS or HAM were grafted to the dorsal CRWI sites (20 Gy local irradiation plus full-thickness skin removal, diameter = 40 mm) of minipigs. Wound healing rate and pathological changes were observed. RESULTS: High levels of hPDGF-A expression were confirmed in gene-modified cells (3780 pg/ml), cultured CCS (506 pg/ml) and transplanted CCS (250 pg/ml). The transplantation of the BMSC+/SK+CCS resulted in a shorter healing time (16-18, days) (P < 0.05 vs. other groups). The healing rates ranked as BMSC+/SK+CCS > BMSC-/SK-CCS > HAM > wound control. Pathologically, there were better granulation formation and re-epithelialisation, and collagen deposition in BMSC+/SK+CCS-treated wound than those in other groups. The angiogenesis ability followed the same order as healing rate of different groups. At day 7, the area densities of vasculature in granulation tissue of group BMSC+/SK+CCS, BMSC-/SK-CCS, HAM, wound only were 15.4, 10.3, 6.0 and 5.7%, respectively, while the number densities of vasculature was 767, 691, 126 and 109 (number/mm(2)), respectively. CONCLUSIONS: Topical transplantation of hPDGF-A modified CCS may be applicable to the management of refractory wounds.
Authors: Fadi Ghieh; Rosalyn Jurjus; Amir Ibrahim; Alice Gerges Geagea; Hisham Daouk; Bassel El Baba; Sana Chams; Michel Matar; Wadih Zein; Abdo Jurjus Journal: Biomed Res Int Date: 2015-07-07 Impact factor: 3.411
Authors: Yi Duan-Arnold; Alexandra Gyurdieva; Amy Johnson; Thomas E Uveges; Douglas A Jacobstein; Alla Danilkovitch Journal: Adv Wound Care (New Rochelle) Date: 2015-09-01 Impact factor: 4.730