Objective To investigate the method and effectiveness of vacuum seal ing drainage (VSD) combined with debridement for treatment of deep infection after hip or knee replacement. Methods Between September 2006 and May 2010, 13 cases of deep infection after joint replacement surgery were treated, including 5 males and 8 females with an average ageof 62.5 years (range, 56-78 years). Infection occurred at 7 days to 1 year and 2 months (median, 14 days) after joint replacement surgery. The time from infection to admission was 8 days to 4 years and 6 months (median, 21 days). Purulent secretion with or without blood were observed in all patients; sinus formed in 5 cases; and unhealing of incision or drainage opening disunion were observed in 8 cases. The size of skin defect at secretion drainage or sinus opening site was 5 mm × 3 mm to 36 mm × 6 mm; the depth of drainage tunnel or sinus was 21-60 mm. The histopathological examination in 11 patients showed acute infection or chronic infection with acute onset in 10 cases, and tuberculosis in 1 case. In 6 cases of secretion culture, Staphylococcus aureus was isolated from 5 cases. After thorough debridement, wound irrigation was performed during the day and VSD during the night in 10 cases. VSD was merely performed in 3 cases. Results In 1 case after revision total hip arthroplasty, the wound bled profusely with VSD, then VSD stopped and associated with compression bandage, VSD proceeded again 3 days later with no heavy bleeding. All the patient were followed up 1 year to 4 years and 5 months (mean, 2 years and 11 months). Infection were controlled 7-75 days (mean, 43 days) after VSD in 10 cases. In these cases, prosthesis were reserved, no recurrent infection was observed, wound were healed, limb function were reserved. VSD was refused in 1 case because of hypersensitive of the pain at the vacuum site, infection control was failed and amputation at the thigh was proceeded. The effect was not evident in 1 case with tuberculosis infection, then the prosthesis was removed and arthrodesis was proceeded followed by complete union. In 1 case, infection was cured with VSD, recurrent infection happened after 9 months, antibiotic-impregnated cement spacer was used at end, and no recurrence was observed 1 year and 4 months later. Conclusion VSD combined with debridement can drainage deep infection sufficiently, promote wound healing, reduce recurrent infection rate, maximize the possibil ity of prosthesis preservation.
Objective To explore the feasibil ity, indications, and effects of vacuum seal ing drainage (VSD) combined with flaps for repairing skin and soft tissue defects of lower l imbs. Methods From June 2006 to November 2009, 15 patients with skin and soft tissue defects of lower l imbs were treated with VSD combined with flaps (VSD group, n=5) and only flaps (non-VSD group, n=10). In VSD group, there were 3 males and 2 females with an average age of 46 years (range, 32-69 years), including 3 cases of traffic accident injury, 1 case of skin necrosis after amputation, and 1 case of plate exposureafter operation. The locations were lower leg in 1 case, ankle in 2 cases, dorsum of foot in 1 case, and forefoot in 1 case. The defect size ranged from 6.5 cm × 6.0 cm to 23.0 cm × 17.0 cm. The disease course ranged from 2 hours to 2 months. In non- VSD group, there were 5 males and 5 females with an average age of 50 years (range, 23-58 years), including 6 cases of traffic accident injury, 1 case of crush injury in earthquake, 1 case of osteomyel itis, and 2 cases of plate exposure after operation. The locations were lower leg in 1 case, ankle in 3 cases, forefeet and dorsum of feet in 4 cases, and heel in 2 cases. The defect size ranged from 4 cm × 4 cm to 20 cm × 12 cm. The disease course ranged from 1 hour to 2 months. There was no significant difference in general data between 2 groups (P gt; 0.05). Results In VSD group, the preoperative hospital ization days, postoperative hospital ization days, and total hospital ization days were (11.8 ± 9.5), (35.4 ± 28.3), and (47.2 ± 35.8) days, respectively; the size of flap was (232.8 ± 142.0) cm2; and the infection rate after VSD-use was 0. In non-VSD group, the preoperative hospital ization days, postoperative hospital ization days, and total hospital ization days were (25.8 ± 12.4), (33.9 ± 28.1), and (59.7 ± 32.4) days, respectively; the size of flap was (97.3 ± 93.6) cm2; and the infection rate after 8 to 14 days of regular therapy was 80%. There were significant differences in the preoperative hospital ization days and the size of flap between 2 groups (P lt; 0.05). All flaps were al ive except 3 partial necrosis (1 case in VSD group, 2 cases in non-VSD group). The 3 flaps healed by skin grafting and suturing. The donor sites healed by first intention. All patients were followed up 5-41 months (22.1 months on average). All flaps were good in color, texture, and wear abil ity. Conclusion It is effective to apply VSD combined with proper flap to repair skin and soft tissue defects of lower l imbs, which can cut down infection rate, improve blood supply, shorten the preoperative hospital ization days, and facil itate heal ing, but whether it can shorten the postoperative hospital ization days and total hospital ization days need further research.
Objective To investigate the causes of the vacuum seal ing drainage (VSD) compl ications during treatment of extremity wounds. Methods Between February 2005 and February 2010, 174 patients with skin and soft tissue defect of extremities were treated with VSD. Among them, 12 patients (6.9%) had compl ications and the cl inical data were analyzed retrospectively. There were 7 males and 5 females aged from 17 to 65 years (mean, 36.1 years). Injury was caused bytraffic accident in 8 cases, and by machine extrusion in 4 cases. The locations were forearm in 3 cases, upper arm in 2 cases, thigh and calf in 1 case, calf in 4 cases, and foot in 2 cases. The size of defect ranged from 10 cm × 7 cm to 90 cm × 40 cm. The time from injury to hospital ization was 3-8 hours (mean, 4.2 hours). Results At 1 day postoperatively, moderate to severe anemia and hypokalemia occurred in 6 cases, and the hemoglobin value increased to 100 g/L and the electrolyte disorder was rectified after blood transfusion and fluid infusion. At 2 days, 2 patients had local skin allergic symptoms, and local rash disappeared after oral administration of Clarityne. At 3 days, 2 patients complained pain and the pain was released after the suction pressure was decreased by 50%; 2 patients had infection and received VSD demol ition, debridement and draining, and anti-infection treatment. Tissue necrosis occurred in 1 case at 4 days and pressure ulcer in 1 case at 5 days, VSD was immediately changed and wound was repaired by spl it thickness skin graft or local flap. Conclusion Compl ications associated with VSD therapy for the wounds of the extremities are not very common. Most causes are related to the location of wound, the technique of the operators, and the conditions of the patients.
To investigate the method of using vacuum seal ing drainage (VSD) technique to repair the wound of the injured in Wenchuan earthquake and its therapeutic effect. Methods From May 12, 2008 to June 12, 2008, 52 injured persons (83 wounds) were treated, including 27 males and 25 females aged 11-83 years old (average 42 years old). There were 22 cases of crush injury, 9 cases of contusion and laceration injury, 17 cases of compression injury receiving incision decompression of fascia compartment and 4 cases of open amputation. And 37 wounds were on the leg, 13 woundson the thigh, 17 wounds on the forearm, 11 wounds on the upper arm and 5 wounds on the trunk. The wound ranged from3 cm × 2 cm to 30 cm × 15 cm, and the time from injury to undergoing VSD treatment was 12 hours-18 days. After complete debridement, the wound was covered by VSD dressing, and antibiotics were given according to the result of drug sensitive test. When wound infection was under control and granulation tissues grew well, the method of either direct suture or skin grafting or flap transposition was used to repair the wounds. Results In 21 cases (40.4%), wound secretion smear was positive, and multiple species of bacteria were detected, such as staphylococcus aureus, escherichia col i, proteus and klebsiella pneumoniae. After initial operation, 7 injured persons were transferred to the hospital outside of Sichuan province for further treatment. VSD treatment was performed on 33 cases (45 wounds) once, 6 cases (10 wounds) twice, 2 cases (3 wounds) three times and 1 case (1 wound) four times, resulting in the control of wound infection and the growth of granulation tissue. Then the wounds were repaired by either direct suture or skin grafting or flap transposition. Three cases (4 wounds) underwent VSD treatment ten times, leading to the control of infection and the stabil ity of condition. Conclusion VSD treatment can cover the wound promptly, el iminate contamination, prevent secondary infection and benefit late-stage wound repair. During the process of treatment, no medical necessity for frequent change of dressing can rel ieve the pain suffered by the injured and decrease theworkload of medical stuff, thus facil itating the rescue work.
Objective To study the therapeutic effect of combining vacuum seal ing drainage (VSD) with gluteus maximus myocutaneous flap on the repair of soft tissue defect caused by the resection of sacral tumors. Methods From June2007 to June 2008, 6 patients with skin and soft tissue necrosis in the sacrococcygeal region, deep infection, and formation of cavity at 3-6 weeks after sacral tumors resection were treated. There were 4 males and 2 females aged 17-51 years old. The size of skin and soft tissue defects ranged from 15 cm × 11 cm × 6 cm to 20 cm × 18 cm × 7 cm. Every patient underwent VSD treatment for 7-10 days, and the recombinant bovine bFGF was injected into the wound intermittently for 7-14 days (250-300 U/ cm2 once, twice daily). The wound was repaired by either the gluteus maximus myocutaneous flap (5 cases) or the lumbar-gluteus flap (1 case), and those flaps were 9 cm × 9 cm-20 cm × 18 cm in size. The donor site were sutured or repaired with spl itthickness skin graft. Results All the flaps survived uneventfully. The wound healed by first intention in 5 cases, but 1 case suffered from fat l iquefaction 2 weeks after operation and healed after drainage and dressing change. All the donor sites healed by first intention, and all the skin grafts survived uneventfully. All the patients were followed up for 6-10 months, there was no relapse of sacral tumor, and the flaps showed no obvious swell ing with good color and elasticity. Conclusion With fewer compl ications, the combination of VSD and gluteus maximus myocutaneous flap is a safe and rel iable operative method for repairing the skin and soft tissue defects caused by the resection of sacral tumors.
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.