In extensive frictionavulsion injuries, part of the injuried skin was still viable, so that total excision of the avulsed skin should be avoided. After debridememt, sutured the avulsed skin flap in situ temporarily and took a split-thickness graft from it. If bleeding occurred from the splitted surface of the dermis which was meant that part of the skin was alive. Along the border between the bleeding and nonbleeding area, the nonbleeding area of skin was excised. This could preserve the viable skin to the maximal extent. From July 1991 to May 1992, the viability of the skin in 8 avulsion injuries was judged. The maximal avul sed area was 13% and the minimal was 6% of the total body surface. After the treatment, 90% of the avulsed skin was alive. The appearance was satisfactory.
Objective To observe the clinical outcome of primary repair of the tissue defects of the Achilles tendon and skin by thigh anterolateral free flap and free iliotibial tract. Methods From January 2000 to January 2005, the thigh anterolateral free flap and the iliotibial tract were used to primarily repair the defects of the Achilles tendon and skin in 11 patients (7 males and 4 females, aged 6-45 years). The defects of the skin and Achilles tendon were found in 6 patients, and the defects of the Achilles tendonand skin accompanied by the fracture of the calcaneus were found in 5 patients.The defect of the Achilles skin was 6 cm×5cm-14 cm×8 cm in area. The defect of the Achilles tendon was 511 cm in lenth. The skin flap was 11 cm×6 cm-17 cm×11 cm in area.The iliotibial tract was 7-13 cm in length and 3-5 cm in width. The medial and lateral borders were sutured to from double layers for Achilles tendon reconstruction. The woundon the donor site could be sutured directly in 5 patients, and the others could be repaired with skin grafting. Results After operation, all the flaps survived and the wound healed by first intention. The followup of the 11 patients for 6 mouths-4 years (average, 30 months) revealed that according to Yin Qingshui’s scale, the result was excellent in 6 patients, goodin 4, and fair in 1. The excellent and good rate was 99%. The results showed a significant improvement in the “heel test” and the Thompson sign, and both were negative. No complications of ulceration on the heel and re-rupture of the Achiles tendon occurred. Conclusion The primary repair of the tissue defects of the Achilles tendon and skin by free grafting of the anterolateral femoral skin flap and the iliotibial tract is an effective surgical method.
OBJECTIVE: To fabricate artificial human skin with the tissue engineering methods. METHODS: The artificial epidermis and dermis were fabricated based on the successful achievements of culturing human keratinocytes(Kc) and fibroblasts (Fb) as well as fabrication of collagen lattice. It included: 1. Culture of epidermal keratinocytes and dermal fibroblasts: Kc isolated from adult foreskin by digestion of trypsin-dispase. Followed by comparison from aspects of proliferation, differentiation of the Kc, overgrowth of Fb and cost-benefits. 2. Fabrication of extracellular matrix sponge: collagen was extracted from skin by limited pepsin digestion, purified with primary and step salt fraction, and identified by SDS-PAGE. The matrix lattice was fabricated by freeze-dryer and cross-linked with glutaraldehyde, in which the collagen appeared white, fibrous, connected and formed pores with average dimension of 180 to 260 microns. 3. Fabrication artificial human skin: The artificial skin was fabricated by plating subcultured Kc and Fb separately into the lattice with certain cell density, cultured for one week or so under culture medium, then changed to air-liquid interface, and cultured for intervals. RESULTS: The artificial skin was composed of dermis and epidermis under light microscope. Epidermis of the skin consisted of Kc at various proliferation and differentiation stages, which proliferated and differentiated into basal cell layer, prickle cell layer, granular layer, and cornified layer. Conifilament not only increased in number, but also gathered into bundles. Keratohyalin granules at different development stages increased and became typical. The kinetic process of biochemistry of the skin was coincide with the changes on morphology. CONCLUSION: Tissue engineered skin equivalent has potential prospects in application of repairing skin defect with advantages of safe, effective and practical alternatives.
Objective To investigate the possible mechanism of the fibroblasts inducing the vascularization of dermal substitute. Methods Fibroblasts were seeded on the surface of acellular dermal matrix and cultivated in vitro to construct the living dermal substitute. The release of interleukin 8 (IL 8) and transfonming growth factor β 1(TGF β 1) in culture supernatants were assayed by enzyme linked immunosorbent assay, the mRNA expression of acid fibroblast growth factor (aFGF) and basic fibroblast growth factor (bFGF) were detected by RT-PCR. Then, the living substtute was sutured to fullth ickness excised wound on BALBouml;C m ice, and the fate of fibroblast w as observed by using in situ hybridizat ion. Results Fibroblasts cultured on acellular dermalmat rix p ro liferated and reached a single2layer confluence. Fibroblasts could secret IL 28 (192. 3±15. 9) pgouml;m l and TGF-B1 (1. 105±0. 051) pgouml;m l. There w as the mRNA exparession of aFGF and bFGF. Fibroblasts still survived and proliferated 3 weeks after graft ing. Conclusion Pept ides secreted by fibroblasts and its survival after graft ing may be relat ive to the vascularizat ion of the dermal subst itute.
The defatted whole thickness skin flap from the large sized avulsed skin was sutured back to the original wound of the extremity in 366 cases. The patients were followed up for an average of 12 years and 3 months. The functions of the extremities were good, and the surface of the grafted area was smooth, with good luster and good looking. This type of repair provided a high survival rate, simple and less traumatic. The avulsed skin even had abrasion or mild contusion could still be used. The peculiarities of the large sized skin avulsion and the advantages and disadvantages of other reparative methods were discussed.
OBJECTIVE: To explore the methods of treatment for old achilles tendon rupture merging with skin defect. METHODS: By following up retrospectively 10 patients from February 1995 to December 2001, we analyzed the operative methods, the points for attention and the results. Gastrocnemius musculocutaneous flaps were used in 3 cases, foot lateral skin flaps in 4 cases, superior medial malleolus skin flaps in 2 cases, and sural neural skin flap in 1 case. The Achilles tendon was sutured directly in 8 patients, with Lindholm’s technique in 2 patients. RESULTS: All flaps survived and the wound healed well in 8 cases and reruptured in 2 cases. According to Yin Qing-shui’s criteria to test the efficacy, the results were excellent in 5 patients, good in 4 and poor in 1. CONCLUSION: Repairing the old Achilles tendon rupture merging with skin defect by use of microsurgery has good results and plays an important role in reducing joint contracture and stiffness, and in saving the ability to push forward and flex.