The comparative study of local application of magnetic piece dressings of different intensities (Gs) on the effect of survival of 48 skin flaps (2×5cm in size) and the healing of the incisional wornds was reported. Twelve Japanese long ear white rabbits were used for this study. It was noted that the magnetic field intensity of 200or 400 Gs showed remarkable increase of the area of survival of the skin flaps and enhancement of the healing of the incisional wounds.
A study was carried out to observe the application of microsurgical technique in the repair defects of soft tissue and infected wounds of extremities. Eighty-three patients with soft tissue defects and infected wounds of extremities were treated by either transferring of vascularized cutaneous flap or transplantation of myocutaneous flap with vascular anastomosis. The result showed that eighty-three patients had gained success after a follow-up of 6 months to 4 years. It was concluded that soft tissue defects and infected wounds of extremities should be repaired as early as possible. Selecting the donor flap near the recipient site was of first choice. The method used for repair should be simple and easily applicable rather these very complicated one. The success depended on the correct treatment of local conditions, resonable design of donor flap and close monitoring after operation.
OBJECTIVE: To explore an effective method to repair the abdominal wall defect. METHODS: From July 1996 to December 2000, 7 cases with abdominal wall defect were repaired by pedicle graft of intestine seromuscular layer and skin graft, among them, intestinal fistula caused by previous injury during operation in 4 cases, abdominal wall defect caused by infection after primary fistulization of colon tumor in 2 cases, abdominal wall invaded by intestinal tumor in 1 case. Exploratory laparotomy was performed under general anesthesia, the infective and edematous tissue around abdominal wall defect was gotten rid off, and the pathologic intestine was removed. A segment of intestine with mesentery was intercepted, and the intestine along the longitudinal axis offside mesentery was cutted, the mucous layer of intestine was scraped. The intestine seromuscular layer was sutured to the margin of abdominal wall defect, and grafted by intermediate split thickness skin. RESULTS: The abdominal wall wound in 6 cases were healed by first intention, but part of grafted skin was necrosed, and it was healed by second skin graft. No intestinal anastomotic leakage was observed in all cases. Followed up 1 to 2 years, there were no abdominal hernia or abdominal internal hernia. All the cases could normally defecate. The nutriture of all cases were improved remarkably. CONCLUSION: Pedicle graft of intestine seromuscular layer is a reliable method to repair abdominal wall defect with low regional tension, abundant blood supply and high successful rate.
An in vitro experiment showed that the skin expanders were permeable to metronidazole and procaine. Twenty kidney shaped skin expanders were divided into four groups. Group 1. 100ml 0.2% metronidazole solution was injected into the expanders and the expenders were immersed in a flask filled with 100ml saline solution, and then were placed in a hermetically sealed glass chamber; Group 2.the whole procedure was the same as that of Group 1 except the expander was previously boiled in water for 30 minutes; Group 3. 100 ml 2% procaine was injected instead of metronidazole, other step was the same as that ofgroup I; and Group 4. the whole procedure was the same as that of Group 2 except the solutioninjected was 2% procaine. The concentration of metronidazole and procaine in the surrounding saline was measured at 1st, 2nd, 4th, 16th, 24th, 48th, 72nd 120th hours. The rate of diffusion of a drug was highest at 2 and 4 hous. The rate of diffusion was inversely proportional to its molecular weight, i.e., the smaller the molecular weight the greater the permeability. In view of this, during the process of expansion, metronidazole and procaine would diffuse out of the expander which might be beneficial for preventing infection and controlling pain.
OBJECTIVE: To evaluate the application of skin and soft tissue expansion in the treatment of deformity due to extensive severe burn injury and repair of severe deep electrical burned scalp and skull with fresh wound. METHODS: From 1988, 83 cases of application of skin and soft tissue expansion were reported. In those patients with deformity due to severe burn of large area and with whole nasal defect, soft tissue expander was used under the forehead skin graft and venter frontalis, followed by reconstruction of nose with the expanded vascularized skin flap and carved cartilago costalis as nasal frame. In patients of severe deep electrical burned scalp and skull with fresh wound, skin and soft tissue expansion were used to repair the wound simultaneously with scalp burn alopecia, anesthetics and antibiotics injected into the extracapsular space of the expander in case of pain and infection. RESULTS: All of the cases were successfully treated with little pain and minimized infection. CONCLUSION: Skin and soft tissue expansion in a safe and reliable measure in the treatment of deformity due to extensive severe burn injury and repair of severe deep electrical burned scalp and skull with fresh wound.
In order to study the effect of vascular endothelial cell growth factor (VEGF) on the survival of skin flap 30 SD rats were used. A randomized flap measuring 7.5 cm x 3.0 cm was created on the back of each SD rat. The treatment group (n = 10) received VEGF 40 ng/flap by subcutaneous injection with microinjector during and 24 hours after operation. The control groups received heparin 16 U/flap (n = 10) or normal saline 800 microliters/flap (n = 10). After operation, on the 3rd and 11th day, the survival rate of the skin flaps and the dermovascular density of each flap were investigated by histological and histo-morphometrical examination. The results showed that there was no significant difference in the survival rate between the treatment group and the controls on the 3rd day after operation, while on the 11th day, there was a significant difference between them, and the survival rate was much higher in the treatment group. Besides, dermovascular density was much more increased in the treatment group than that in the controls, especially in the distal 1/3 of the flap (P lt; 0.02). The conclusion was that VEGF could .
Objective To investigate the effects of repeated shortischemia training on flap survival area, vascular endothelial growth factor and the microvascularsel density. Methods Seventy-two rabbits were divided into:the experimental group(n=64), the skin flaps were constructed in two sides of back, one side flap were given ischemia training for 15 minutes and 8 times one day at the pedicles from the 1st to 8th day after operation (group A), the other side flap was served as a control (group B), the corresponding site was only marked as a blank control group (group C).Then, 8 pedicles of group A and group Bwere isolated every day. The surviving area of all skin flaps were calculated on the5th day after isolating operation. The vascular endothelial growth factor(VEGF)and microvessel density(MVD) of the 3 groups were checked with immunohistologochemical staining. Results After the operation, all animalswere survival with normal vitality.The survival flap area of group A were significant more than that of group B after 3 days(Plt;0.05).The expressions of VEGF and MVD of group A and group B were higher than group C. The expression of VEGF of group A was significantly higher than that of group B(Plt;0.01). The counting of MVD of group A was also significantly higher than that of group B(Plt;0.05). There was positive correlation between flap survival area and MVD in group A. The relation of time point was n and n 2 respectively,correlation coefficient was 0.850. As well as MVD and VEGF were positive correlation,correlation coefficient was 0.801. Conclusion Early repeated shortischemia training can increase flap survival area, the mechanism maybe involve the increased expression of VEGF, which can increased skin flap microvascular density.
Superficial cervical artery skin flap is widely used in clinical practice. In order to inprove the outcome of the flap in clinic, eleven cases of skin defect of scalp who were treated with the flap was discussed. After operation, the donor area healed but there was no hair growth on recipient area. Among them, six cases occurred partial necrosis of skin flaps. In order to avoid these problen, the relevant solution discussed as follows: 1. Handle well the pedicle of the skin flap to prevent the interference with venous returm. 2. Adhere strictly to indications. 3. Apply skin expander to obtain "extra" skin, then carryout the tranfer of skin flap and 4. Better use the skin flap with residual hair.
Objective To investigate the cl inical effect of vacuum seal ing drainage (VSD) on late-stage large skin avulsion injury with infection. Methods From May 2007 to August 2008, 9 patients with large-area skin avulsion injury and infection were treated. There were 1 male and 8 females aged 9-52 years old (median 27 years old). All patients suffered from closed skin avulsion injury involving the lower back, buttock, and part of the thigh. The injury area varied from 30 cm × 25 cm to92 cm × 38 cm. The time between injury and hospital admission was 15-23 days. The skin avulsion injury was compl icated with pelvis fracture, urethral injury, anal injury, sacrum exposure, and l imb fractures. The interval between hospital admission and operation was 3-23 hours. Free spl it-thickness skin graft was performed after the focus debridement and three VSD treatments (40-60 kPa). Results After three VSD treatments, no patient had general pyemia and severe local tissue necrosis or infection, the tissue edema in the skin avulsion area was alleviated obviously, and all the wound cavities were closed. All the wounds in the graft site healed after 28-45 days of treatment (average 39 days), and all the donor sites healed. Nine patients were followed up for 4-14 months (average 10 months). The appearance of the reparative area was good, and there was no occurrence of joint dysfunction in the injured area due to scar contracture. Conclusion VSD is effective in treating late-stage large skin avulsion injury with infection.
In order to investigate the histological and stereological change of the rapidly expanded skin tube, 15 Japanese Long Ear Rabbits were divided into 3 groups: (1) Rapid expansion group, injecting once a day for 7 days; (2) Routine expansion group, injecting every 3 days for 21 days and (3) Control group, no expander implanted. The results showed that: in the rapid expansion group, the thickness of the epidermis and dermis were both increased, fibroblast proliferation was active, a large amount of new capillaries was observed, the collagen fiber was in loose type, and the mitochondria and rough endoplasmic net of epithelial cell were increased. In the routine expansion group, similar changes were observed. The vascular density and volume fraction were significantly higher in rapid expansion group than those in the control group (P lt; 0.05). It was concluded that the rapid expansion of skin tube was feasible.