Objective To investigate the effects of asiaticoside onthe proliferation and the Smad signal pathway of the hypertrophic scar fibroblasts.Methods The hypertrophic scar fibroblasts were cultured with tissue culture method. The expressions of Smad2 and Smad7 mRNA after asiaticoside treatment were determined by reverse transcriptionpolymerase chain reaction 48 hours later. Thecell cycle, the cell proliferation, the cell apoptosis and the expression of phosphorylated Smad2 and Smad7 with(experimental group) or without(control group) asiaticoside were detected with flow cytometry, immunocytochemistry and Western blot. Results Asiaticoside inhibited the hypertrophic scar fibroblasts from phase S to phase M. The Smad7 content and the expression of Smad7 mRNA were (1.33±1.26)% and (50.80±22.40)% in experimental group, and (9.15±3.36)% and (32.18±17.84)% in control group; there were significant differences between two groups (P<0.05). While the content and the mRNA expression of Smad2 had no significant difference between two groups. Conclusion Asiaticoside inhibits the scar formation through Smad signal pathway.
The authors reported nine patients with burn scar contracture of head and face treated by operation. The varieties of operations ineiuded: (1) excision of the scar and primary closure of the wound; (2) excision of the scar and coverage of the wound with split or full thickness skin grafts; (3) excision of the scar and repaired by pedicled flap, and (4) skin expansion by expander, followed by excision the scar and transfer of the "more available skin flap" to the wound. According to certain characteristics of children, the choice of the time for operation, the indications of each methods, and some problems related to operation ahd been discussed.
ObjectiveTo investigate the feasibil ity and effectiveness of using scar spl it thickness skin grafts combined with acellular allogeneic dermis in the treatment of large deep Ⅱ degree burn scar. MethodsBetween January 2013 and December 2013, 20 cases of large deep Ⅱ degree burn scar undergoing plastic operation were enrolled. There were 14 males and 6 females, aged 4 to 60 years (mean, 40 years). Burn reasons included hydrothermal burns in 10 cases, flame burns in 9 cases, and lime burns in 1 case. The burn area accounted for 70% to 96% total body surface area (TBSA) with an average of 79% TBSA. The time from wound healing to scar repair was 3 months to 2 years (mean, 7 months). Based on self-control, 0.7 mm scar spl it thickness skin graft was used to repair the wound at the right side of joints after scar resection (control group, n=35), 0.5 mm scar spl it thickness skin graft combined with acellular allogeneic dermis at the left side of joints (trial group, n=30). Difference was not statistically significant in the scar sites between 2 groups (Z=-1.152, P=0.249). After grafting, negative pressure drainage was given for 10 days; plaster was used for immobilization till wound heal ing; and all patients underwent regular rehabil itation exercises. ResultsNo significant difference was found in wound heal ing, infection, and healing time between 2 groups (P>0.05). All patients were followed up for 6 months. According to the Vancouver Scar Scale (VSS), the score was 5.23±1.41 in trial group and was 10.17±2.26 in control group, showing significant difference (t=8.925, P=0.000). Referring to Activities of Daily Living (ADL) grading standards to assess joint function, the results were excellent in 8 cases, good in 20 cases, fair in 1 case, and poor in 1 case in trial group; the results were excellent in 3 cases, good in 5 cases, fair in 22 cases, and poor in 5 cases in control group; and difference was statistically significant (Z=-4.894, P=0.000). ConclusionA combination of scar spl it thickness skin graft and acellular allogeneic dermis in the treatment of large deep Ⅱ degree burn scar is feasible and can become one of solution to the problem of skin source tension.
Since 1987, One hundred and fifty-four patients suffered from alopecia, neck and facial scar, and nasal defect had been treated with skin soft tissue expansion. The incidence of complication was decreased markedly, compared to previons report which was 11.7%. Two cases of this group were given up this procedure. The lessous learned from these case were as following. Strictly evaluated the case according to the indication, examined the expander carefully, improved the techniques to inbed the expander and infilled the sailine, those of which could obtain satisfactory result.
In order to correct the dysfunction of head and neck with scar contracture, since 1980, sixty-two cases were undertaken the operation by using local skin flap to repair the soft tissue defect after scar resection. The skin flaps included pedicled delto-thoracic skin flap in 26 cases, cervico-thoracic skin flaps in 25 cases, cervico-shoulder flaps in 6 cases, pedicled vascularized extralong delto-thoracic skin flap in 4 cases and free parascapular flap in 1 case. Sixty cases had total survival of the flaps and 2 flaps had partial necrosis. After 1 to 10 years follow-up, the appearance and function of neck were excellent. It was suggested that grafting local skin flap was a good method to treat cicatricial deformity of neck especially using the skin flap with pedicle and vascular bundle.
OBJECTIVE To introduce the clinical application of the expanded graft from scalp in the repair of cicatricial baldness in children. METHODS 45 cases with baldness following burn from 1988 to 1998 were reported. All of these patients (age ranged from 5-11 years) were treated by soft tissue expander. RESULTS 5 cases were followed up for 1-2 years, the clinical results showed that the result from the graft of scalp expansion was satisfactory, and the long-term follow-up revealed that the hair in expended area and that in normal area was almost the same except the orientation of hair distribution had some difference. CONCLUSION The head scalp expansion might be the first choice in the repair of cicatricial baldness following burn.
Various tissue flaps were used in the repair of 255 cases of the wounds from severe deep burns and cicatricial deformities. The types of flaps used included: 6 kinds of myocutaneous flaps in 54 cases, 10 kinds of axial cutaneous flaps in 50cases, 7 kinds of fasciocutaneous flaps in 44 cases, pedicled subcutaneous tissues flaps in 12 cases, pedicled thin skin flaps in 54 cases, subdermal vascular networks cutaneous flaps in 38 cases, and free skin flaps with arter ialization of vein flap, retrograd island cutaneous flap with great or small saphaneous vein, in each. The survival rate from the transplantation was 99.2 per cent, and the rate of primary healing was 94.5 per cent. According to the time interval between the injury and operation and the conditions of the wounds, the patients were divided into acute, infected and selective cases, and the rate of primary healing was 93.0 per cent, 91.6 per cent and 97.9 per cent, respectively. The selection of the types of flap to be used and the attentions to be taken dueing operation were discussed.
Objective To study the expression of heat shock protein 47 (HSP47) and its correlation to collagen deposition in pathological scar tissues. Methods The tissues of normal skin(10 cases), hypertrophic scar(19 cases), and keloid(16 cases) were obtained. The expression ofHSP47 was detected by immunohistochemistry method. The collagen fiber content was detected by Sirius red staining and polarization microscopy method. Results Compared with normal skin tissues(Mean IOD 13 050.17±4 789.41), the expression of HSP47 in hypertrophic scar(Mean IOD -521 159.50±272994.13) and keloid tissues(Mean IOD 407 440.30±295 780.63) was significantly high(Plt;0.01). And there was a direct correlation between the expression of HSP47 and the total collagen fiber content(r=0.386,Plt;0.05). Conclusion The HSP47 is highly expressed in pathological scartissues and it may play an important role in the collagen deposition of pathological scar tissues.