OBJECTIVE: To report repair and reconstruction of massively damaged wound under unusual condition. METHODS: One hundred and forty-seven patients with deep tissue defects were admitted from January 1993 to December 2000, among them, 96 cases suffered from electrical injury, 18 cases with hot press injury, 18 cases with deep burns as a result of CO poisoning or epileptic seizure, 6 cases caused by chemical producing necrosis and wound infection, 3 cases with radiation injuries, 2 cases with chemical burn, 2 cases with explosive injury, 2 cases with frostbite. One hundred and seventy five wounds in 147 patients were repaired by transfer of local flap, forearm conversal island skin flap, pectoralis major myocutaneous flap, delto-pectoral skin flap, latissimus dorsi skin flap, gastroecnemius myocutaneous flap, anterior and posterior tibial artery island skin flap, and so on. The wound defect ranged from 1 cm x 1 cm to 20 cm x 28 cm, and the flaps were 1.5 cm x 2.0 cm to 22 cm x 30 cm. The necrotic tendon was replaced with acellular allogenic tendon simultaneously in 7 cases. RESULTS: One hundred and sixty-nine flaps were survival with first intention, while necrosis of the tip of flap occurred in 6 cases. The transplantation of acellular allogenic tendon in all cases were survival. The function and configuration in 28 cases were satisfactory after 4 months to 8 years follow-up. CONCLUSION: Various types of flaps are choosen according to the position, defect range and degree of wound, which is an ideal method to restore the function and to improve patients’ living condition.
Objective To investigate the therapeutic effectof infected incision wounds after sternotomy by using different reconstructive methods. Methods From December 1997 to December 2006, 13 patients (8 males, 5 females; age, 28-72 years averaged 52 years) with infected incision wounds after sternotomy underwent the reconstruction surgery respectivelyusing the pectoralis major muscle flaps, the medial flaps of the pectoralis major muscle, the rectus abdominis muscle flaps or the greater omentum transpositions. Among the patients, 8 were complicated by diabetes mellitus, 4 by pneumonia and heart failure, 3 by empyema, 4 by chronic insufficiency of the pulmonary function, 1 by malignant tumor, and 6 by severe obesity. Freshlysplit wounds werefound in 11 patients and chronic wounds in the other 2 patients.The size of thewounds was 10cm×5cm-22cm×10cm. Results Among the 13 patients,10 survived after operation and the other 3 died of massive hemorrhage from the anastomostic rupture of the blood vessel, pneumonia, and cancer metastasis, respectively. Of the 10 patients, 6 had their wounds healed by first intention. The follow-up for 6 months to 5 years revealed that there was no recurrencein all the survived patients. Of the 10 patients, 2 developed partial necrosisof the skins at the sutured wounds, which was healed after the skin grafting operation; 2 had an infection at the drainage area but had a healing after the dressing changes. Conclusion The smaller wounds in the upper partof the sternotomy incision should be repaired with the medial flaps of the pectoralis major muscle; the greater wounds in the upper part of the incision shouldbe repaired and reconstructed with the rectus abdominis muscle flap; the smaller wounds in the lower part of the incision should be repaired with the pectoralis major muscle flap, and if the wounds are longer, they should be repaired and reconstructed with the pectoralis major muscle flap and the rectus abdominis muscle flap; and if the wounds are huge enough with an exposure of the important internal organs, the greater omentum transposition should be used, and the residual wounds should be treated with dressing changes and even skin grafting.
Objective To investigate the effectiveness of the digital technology in repairing tiny hand wounds with superficial lateral sural artery perforator flap. Methods Between August 2013 and October 2016, 10 cases of tiny hand wounds were treated with the superficial lateral sural artery perforator flap. There were 6 males and 4 females, aged 19 to 47 years (mean, 31.2 years). The causes included crushing injury by machine in 6 cases, traffic accident injury in 3 cases, and electric burning injury in 1 case. The location of the soft tissue defect was the first web in 2 cases, the thumb pulp in 3 cases, the index finger pulp in 1 case, the dorsal palms in 3 cases, and the dorsum of finger in 1 case. The time from injury to hospitalization was 4 hours to 10 days (mean, 3.5 days). The size of wound was from 4 cm×3 cm to 8 cm×7 cm. All defects were associated with exposure of tendon and bone. CT angiography (CTA) from aortaventralis to bilateral anterior and posterior tibial arteries was performed before operation, and the appropriate donor site as well as perforator was selected. Then the CTA data were imported into the Mimics15.0 software to reconstruct the three dimensional structure of the perforator artery, bone, and skin; according to flap size, the flap design and harvesting process were simulated. The flap was obtained on the basis of preoperative design during operation. The size of flaps varied from 5 cm×4 cm to 10 cm×8 cm. The donor site was sutured directly in 9 cases and repaired with skin grafting in 1 case. Results Superficial medial sural artery peforator was cut in 3 patients whose superficial lateral sural artery was too narrow, and the flaps were obtained to repair defects smoothly in the others. Venous crisis occurred in 1 flap, which survived after exploration of the vessel, thrombus extraction, and thrombolysis; the other flaps survived successfully. All wounds and incisions healed by first intention. All cases were followed up 3-18 months (mean, 10 months). The flaps had good shape. At last follow-up, the results were excellent in 6 cases, good in 3 cases, and fair in 1 case according to total active motion (TAM). Conclusion The preoperative individualized design of the superficial lateral artery perforator flap can realize through CTA digital technology and Mimics15.0 software; it can reduce the operation risk and is one of better ways to repair the tiny hand wounds.
OBJECTIVE: To investigate the changes of fibroblast growth factor (FGF) in burn wounds. METHODS: The FGF expression in the center of wound granulation, the edge of wound, the healed part of wound, the normal skin of patients, and the heal course of second degree burn wounds were detected by immunohistochemical methods. RESULTS: The expression intensity of FGF was different in the different sites of third degree burn wounds. The highest contents of FGF was in the center granulation of burn wounds, the less was in the borderline of wound and healed skin, and the least was in the healed skin. FGF expression mainly concentrated in the middle layer of wound, and almost no FGF expression in normal skin. The most FGF expression was occurred at 14 days after injury in second degree of burn wound. CONCLUSION: The changes of FGF in wounds are closely related to the wound healing, and rational use of FGF can promote wound healing.
ObjectiveTo investigate the clinical application of the forearm interosseous dorsal artery perforator sublobe flaps in repairing two wounds in dorsal hand or wrist. MethodsBetween October 2009 and October 2012, 12 patients with two wounds in the dorsal hand or wrist were included in the study. There were 4 cases of skin defects (grade IV) and bone exposure caused by machine injury, 3 cases of skin defects with bone and tendon exposure caused by traffic accident, and 3 cases of skin defect and tendon exposure caused by crash injury of heavy object, with a duration of 3-12 hours (mean, 6 hours) between injury and admission; defects in the wrist and tendon exposure were caused by tumor resection in 2 cases. Four cases had metacarpal fractures. The size of larger skin and soft tissue defects ranged from 4.0 cm×3.5 cm to 5.0 cm×3.0 cm, and the size of smaller defects was from 2.5 cm×2.0 cm to 4.0 cm×3.0 cm. The flap size was from 6 cm×4 cm to 8 cm×3 cm and 3.0 cm×2.5 cm to 5.0 cm×3.0 cm. The donor sites were directly sutured or repaired with free skin graft. ResultsAll the flaps survived, and wound healed in first stage. All the cases were followed up 6-36 months (mean, 20 months). The flaps had good color and texture. Three cases underwent secondary surgery of thinning the flaps. At last follow-up, two-point discrimination of flaps was 10-14 mm, 12 mm on average. According to function standard for evaluation of upper extremity with total active motion of the fingers from the Hand Surgery Society of Chinese Medical Association, the results were excellent in 10 cases, and good in 2 cases. ConclusionForearm interosseous dorsal artery perforators sublobe flaps can be used to repair two wounds in the dorsal hand or wrist simultaneously, and it has the advantages of simple operation, less injury at donor site, and reliable blood supply.
Objective To evaluate the relationship of the organ injury scale (OIS) with clinical characteristics and survival in penetrating cardiac trauma patients. Methods A retrospective review identified 224 patients with penetrating cardiac trauma. A grade assigned on the basis of the American Association for the Surgery of Trauma OIS was assigned to each case studied. Clinical data, including Glasgow coma scale(GCS), revised trauma score(RTS), injury severity score (ISS), penetrating thoracic trauma index (PTTI), penetrating trauma index (PTI), and outcomes were analyzed for association with OIS grade. Results The majority of patients were either grade Ⅳ/ or Ⅴ , with grade Ⅵ having the highest mortality. Patients of grade Ⅰ to Ⅲ were mostly Sub-clinical type patients, and grade Ⅳ to Ⅵ were mostly pericardial tamponade type and hemorrhagic shock type patients. The OIS grade was significantly negative correlated with postinjury duration and GCS (r=-0. 18, -0.16), and positive correlated with transfusion, ISS, PTTI, PT1, and death(r=0. 17,0. 22,0. 40,0. 41,0. 29). Conclusion The OIS appears to correlate with severity of injury and survival, and it may be useful in predicting outcomes in patients with penetrating cardiac injury.
Objective The self-defined multidisciplinary (endocrinology, vascular surgery, and orthopedics) scoring system (EMO scoring system for short) was designed. The feasibility of the EMO scoring system to guide the proximal tibial transverse transport (TTT) for diabetic foot wounds was preliminarily explored. Methods Based on the current commonly used clinical criteria for diabetic foot judgment, expert consensus, guidelines, and related research progress in the treatment of diabetic foot wounds, combined with clinical experience, a set of EMO scoring systems including endocrinology, vascular surgery, and orthopedics was formulated. The criteria for selecting conservative treatment, TTT after baseline improvement, and TTT based on scoring results was proposed. A total of 56 patients with diabetic foot wounds who were admitted between September 2017 and July 2022 and met the selection criteria was taken as the study subjects. Among them, 28 patients were treated with TTT and 28 patients were treated conservatively. The patients were graded according to the EMO scoring system, the corresponding treatment methods were selected, and the actual treatment methods and results of the patients were compared. Results The EMO scoring system was formed through literature retrieval and clinical experiences. The system included three criteria, namely endocrinology (E), macrovascular disease (M), and orthopedics (O), which were divided into multiple subtypes according to the relevant evaluation items, and finally the diabetic foot wound was divided into 8 types, which correspondingly selected TTT, TTT after baseline improvement, and conservative treatment. All 56 patients were followed up 12 months after treatment. Among them, the wound healing rate of the TTT group was 85.71% (24/28), which was higher than that of the conservative treatment group [53.57% (15/28)]. At 12 week after treatment, CT angiography showed that there were more small blood vessels in the wound and ipsilateral limb in TTT group than in the conservative treatment group. Based on the EMO scoring system, 14 of the 56 patients needed conservative treatment, 29 patients needed TTT, and 13 patients needed TTT after baseline improvement. Compared with the clinical data of the patients, the wound healing rate of the patients judged to be TTT was 75.86% (22/29), of which 21 cases were actually treated with TTT, and the healing rate was 90.48%; 8 patients were treated conservatively, and the healing rate was 37.50%. The wound healing rate of the patients judged to be conservative treatment was 92.86% (13/14), of which 1 case was actually treated with TTT, and the healing rate was 100%; 13 cases were treated conservatively, and the healing rate was 92.31%; 1 case experienced minor amputation. The wound healing rate of the patients judged to TTT after baseline improvement was only 30.77% (4/13), of which 6 cases were actually treated with TTT, and the healing rate was 66.67%; 7 cases were treated conservatively, and the healing rate was 0. Conclusion EMO scoring system can comprehensively evaluate the diabetic foot wounds, and make personalized judgment on whether TTT treatment is feasible, so as to improve the level of diabetic foot wound treatment and the prognosis of patients.
It is in urgent need clinically to look for an ideal substance for the coverage of burn wounds owing to shortage of autografts or allografts. After the cadaveric skin was extracted with acetic acid, salted out with NaCl and freeze-dried to prepare a porous collagen membrane. The membrane was seeded with allo-epidermal cells and allo-fibroblasts on its two sides, respectively, and then was cultured to achieve an artificial composite allograft. The artificial composite allograft was then transplanted onto ten severly burned wounds. One-year follow-up showed satisfactory results and the histological examination confirmed that the composite allograft could improve the adherence and growth of the epidermal cells and was helpful for blood vessels and healing of non-inflammatory connective tissues in the wounds.
Objective To observe the effectiveness of disposable skin stretch closure in the treatment of wounds with skin and soft tissue defects that were difficult to close. Methods The clinical data of 13 patients with skin and soft tissue defects that were difficult to close treated with disposable skin stretch closure and met the selection criteria between July 2021 and February 2022 were retrospectively reviewed. There were 9 males and 4 females, the age ranged from 15 to 71 years with a mean of 39.8 years. The causes of injury included falling injury in 5 patients, traffic accident injury in 5 patients, and falling from height injury in 3 patients. The causes of skin soft tissue defects included open fractures in 4 patients, wound infection in 4 patients, osteomyelitis in 3 patients, degloving injury in 1 patient, and necrosis of skin graft in 1 patient. The injury was located at calf in 8 patients, calcaneus in 3 patients, pelvis in 1 patient, and plantar in 1 patient. The skin and soft tissue defects ranged from 5.0 cm×2.0 cm to 10.5 cm×6.5 cm. Wound conditions (wound closure and wound healing) and the presence or absence of complications were recorded. Results All 13 patients were followed up 32-225 days with a median of 164 days. The wound closure time ranged from 5 to 14 days, with a mean of 8.8 days. The wound closure speed ranged from 0.7 to 13.7 cm2/day, with a mean of 3.6 cm2/day. All wounds healed at grade A, and no complication such as skin edge injury, wound necrosis, infection, dehiscence, and edema occurred. No patient complained of pain or discomfort, and no obvious scarring was found during follow-up. The wound healing time ranged from 17 to 28 days, with a mean of 21.7 days. One of them was transferred to other department due to lung cancer condition changes after using disposable skin stretch closure, and the wound had directly healed without suturing at 17 days after operation. Conclusion The effectiveness of disposable skin stretch closure in the treatment of wounds with skin and soft tissue defects that were difficult to close was exact, with short wound closure time, few complications, and easy operation.
ObjectiveTo evaluate the role of triclosan-coated polyglactin 910 suture in reducing wound infections of emergency gastrointestinal surgeries. MethodsThis was a prospective, randomized, controlled, single center study. From May 2009 to August 2010, 412 patients underwent emergency gastrointestinal operations in our department, 198 of them were chose randomly as experimental group using triclosancoated polyglactin 910 suture for abdominal wall closure, 214 using traditional braiding suture were taken as control. The risk factors for wound healing were analyzed, and wound infection rate was compared between two groups. ResultsThere were no significant differences of gender, age, body mass index, combined diabetes, use of immunosuppressant, and glucocorticoid steroid, type of incision, intraoperative bleeding volume, and operation time between two groups (Pgt;0.05). Wound infection rate of experimental group 〔3.0% (6/198)〕 was significantly lower than that of control group 〔11.7% (25/214), Plt;0.001〕. Especially in subgroup of type Ⅲ incision and operative time more than 120 min, wound infection rate was significantly different between experimental group and control group 〔3.5%(5/141) versus 14.3%(22/154); 3.3%(2/60) versus 21.2%(11/52) respectively, Plt;0.001〕. ConclusionTriclosancoated polyglactin 910 suture can reduce wound infection rate of gastrointestinal emergency operations, especially with type Ⅲ incision and operation time ≥120 min.