Objective To explore the technique for reconstructing nasal subunits with the reversed vascularized preauricular and ear composite flap. Methods From June 2003 to August 2005 the preauricular and ear composite flap, which was pedicled by the reversed superficial temporal vessel, was harvested and transplanted to repair the defects of the nasal tip, soft triangle, and ala by the microsurgical technique. The flap ranged in area from 3.5 cm×2.5 cm to 2.0 cm×1.5 cm, with the pedicles 4 to 6 cm in length. The reversed superficial temporal vessel pedicles were directly anastomosed to the angular artery and vein adjacent to the nasal ala. Results Among the 12 patients who had been treated, 11 had their vessel pedicles successfully anastomosed to the angular vessels, while the remaining 1 patient had the stump of the superficial temporal vessel anastomosed after the flap harvest via the vessel graft because the angular vessels were not found in the recipient area. All the flaps survived with a satisfactory esthetic result after operation. Conclusion The technique for reconstructing nasal subunits with the reversed vascularized preauricular and ear composite flap, which is directly anastomosed to the angular vessel, can avoid the vessel grafting and therefore it can avoid an additional damage to the patient.
OBJECTIVE To investigate the different expression of actin, myosin II in hypertrophic scars, keloids and normal skins, and to understand the relationship of actin, myosin II and the scar contracture. METHODS Fifteen cases with hypertrophic scars, 10 cases with keloids and 15 cases with normal skins were chosen randomly. The expression of actin and myosin II were detected by immunohistochemical method in the hypertrophic scars, keloids and normal skins. The fibroblasts isolated from three types of tissue were cultured in vitro, then actin and myosin II in three different fibroblasts were measured using flow cytometry. RESULTS The immunohistochemical staining of myosin II in hypertrophic scars was positive, while the staining in keloids and normal skins were negative. The positive rate of myosin II expression in hypertrophic scars, keloids and normal skins were (95.11 +/- 2.78)%, (16.86 +/- 7.11)%, and (5.31 +/- 1.79)% respectively. There were significant difference between keloids and the two others(P lt; 0.01). The actin expression in three difference tissues were positive, there were no significant difference in hypertrophic scars, keloids and normal skins(P gt; 0.05). The positive rate of actin expression in hypertrophic scars, keoids and normal skins were(77.77 +/- 15.43)%, (88.89 +/- 10.29)%, and (82.92 +/- 13.48)% respectively, and there were no significant difference(P gt; 0.05). CONCLUSION Myosin II may play an important role in the scar contracture. Actin is the contractile protein of cell, it plays
OBJECTIVE: To evaluate the outcome of prevention of abdominal hernia in reconstruction of defect of abdominal wall with Gore-tex clinically. METHODS: Six cases of the large defects of abdominal wall were repaired with Gore-tex after surgical removal of abdominal wall tumor. RESULTS: The reconstructed cases were followed up six months to three years and there was no postoperative complication. CONCLUSION: Gore-tex is a reliable and effective biomaterial for reconstruction of the large defect of abdominal wall.
OBJECTIVE: To study the relationship between intracellular actin and scar contracture. METHODS: Fibroblasts from 10 cases of hypertrophic scar and 5 cases of keloid were cultured in vitro. Total actin, filamentous actin(F actin), globular actin (G actin) and the ratio of F to G actin(F/G) were measured by densitometry after differential extraction and separation by polyacrylamide gel electrophoresis in the presence of sodium sulfate. RESULTS: Total actin, F actin, G actin and F/G in hypertrophic scar fibroblasts were 2.38 ng/10(4) cells, 0.98 ng/10(4) cells, 1.42 ng/10(4) cells and 0.68 respectively, while in keloid fibroblasts were 1.68 ng/10(4) cells. 0.46 ng/10(4) cells, 1.26 ng/10(4) cells, and 0.36 respectively. There was significant differences between two tissues fibroblasts in the items of total actin, F actin, G actin, and F/G (P lt; 0.01), while no significant difference in G actin (P gt; 0.05). CONCLUSION: Total intracellular actin, F actin, and F/G may play an important role in the scar contracture. The hypertrophic scar and keloid can be distinguished by the contents of total intracellular actin, F actin and F/G.
OBJECTIVE To review the progress of the relation between transforming growth factor beta (TGF-beta) and repair of tissue injury. METHODS The recent articles about TGF-beta and tissue reconstruction were extensively reviewed. The gene identification, production, activation of TGF-beta and its role in the repair course of tissue injury were investigated. RESULTS TGF-beta belongs to a family of multifunctional polypeptides, its gene structure is highly conservative. Many animal models about TGF-beta and tissue injury have been established. The research mainly focuses on the classification, distribution of TGF-beta receptors and their signal pathway. CONCLUSION TGF-beta plays an important roles in the regulation of repair of tissue injury.