Vacuum-assisted abdominal closure: its role in the treatment of complex abdominal and perineal wounds. Experience in 48 patients

INTRODUCTION: Vacuum-assisted closure (VAC) is a promising approach for the management of complex abdominal and perineal wounds. This paper summarizes our experience with this therapeutic modality and demonstrates its efficacity in difficult situations. PATIENTS AND METHODS: From January 2003 until December 2005, 48 patients (age 30-89) were treated with VAC therapy for open abdomen, infected laparotomy wounds, or tissue loss due to debridement of Fournier's gangrene. Wound dressings were changed every 2-3 days. RESULTS: Thirty-eight patients (79%) had major co-morbid conditions liable to impact negatively on wound healing. The treatment duration with VAC varied from 20-30 days with an average of eleven dressing changes (minimum 3-maximum 18). Treatment was effective in all patients. Spontaneous closure was achieved in 36 cases (75%); nine patients (19%) required a split-thickness skin graft, and three (6%) underwent delayed secondary closure. CONCLUSION: In our institution, VAC has become the treatment of choice for complex abdominal and perineal wounds. It is a safe, simple, and effective technique to speed wound healing and it has reduced the duration of hospital treatment in difficult clinical situations and in patients whose general condition is often severely compromised.     

The use of vacuum-assisted closure therapy for the treatment of a large infected facial wound

Chronic wounds in difficult locations pose constant challenges to health care providers. Negative-pressure wound therapy is a relatively new treatment to promote wound healing. Laboratory and clinical studies have shown that the vacuum-assisted closure (VAC) therapy increases wound blood flow, granulation tissue formation, and decreases accumulation of fluid and bacteria. VAC therapy has been shown to hasten wound closure and formation of granulation tissue in a variety of settings. Accepted indications for VAC therapy include the infected sternum, open abdomen, chronic, nonhealing extremity wounds and decubitus ulcers. We report the first case of VAC therapy successfully used on a large infected wound to the face to promote healing.     

Problem-adapted application of vacuum occlusion dressings: case report and clinical experience

Vacuum-assisted closure (VAC), a technique using subatmospheric pressure dressings, has been widely used for treatment of various chronic and complicated wounds. In addition to the advantages of an occlusive dressing therapy, the VAC therapy has proved effective in evacuating wound fluid, increasing tissue oxygen tension, decreasing bacterial contamination, and stimulating granulation tissue formation. This leads to more rapid re-epithelialization of wounds compared to conventional dressings. A two-phase VAC technique to provide enhanced coverage of an ischemic ulcer of the lower leg in a diabetic patient is presented. The refined VAC therapy scheme is described in detail and the results in a further 19 patients with complicated wounds of the lower leg and feet are reported. Received: 26 January 2000 / Accepted: 11 May 2000     

The vacuum-assisted closure system for the treatment of deep sternal wound infections after cardiac surgery

BACKGROUND: The VAC system (vacuum-assisted wound closure) is a noninvasive active therapy to promote healing in difficult wounds that fail to respond to established treatment modalities. The system is based on the application of negative pressure by controlled suction to the wound surface. The method was introduced into clinical practice in 1996. Since then, numerous studies proved the effectiveness of the VAC System on microcirculation and the promotion of granulation tissue proliferation. METHODS: Eleven patients (5 men, 6 women) with a median age of 64.4 years (range 50 to 78 years) with sternal wound infection after cardiac surgery (coronary artery bypass grafting = 5, aortic valve replacement = 5, ascending aortic replacement = 1) were fitted with the VAC system by the time of initial surgical debridement. RESULTS: Complete healing was achieved in all patients. The VAC system was removed after a mean of 9.3 days (range 4 to 15 days), when systemic signs of infection resolved and quantitative cultures were negative. In 6 patients (54.5%), the VAC system was used as a bridge to reconstructive surgery with a pectoralis muscle flap, and in the remaining 5 patients (45.5%), primary wound closure could be achieved. Intensive care unit stay ranged from 1 to 4 days (median 1 day). Duration of hospital stay varied from 13 to 45 days (median 30 days). In-hospital mortality was 0%, and 30-day survival was 100%. CONCLUSIONS: The VAC system can be considered as an effective and safe adjunct to conventional and established treatment modalities for the therapy of sternal wound infections after cardiac surgery.     

Effect of subatmospheric pressure on the acute healing wound

PURPOSE: Vacuum-assisted closure (VAC), originally developed as an adjunct to wound care, has gained popularity in managing complex, chronic wounds. This study was designed to compare VAC with traditional saline-wet-to-dry (WD) dressings on acute wound healing in a pig model. METHODS: Nine animals were divided into groups of 3. Three rows of 2, 4-cm diameter circular defects were excised on each animal. Vacuum-assisted closure therapy was applied to 2 adjacent wound beds, WD dressings were applied to 2 adjacent wound beds, and ventilated transparent dressing covered the 2 remaining wounds as controls. Random members from each group had their wounds harvested on postoperative days (POD) number 4, 7, and 9, respectively. The specimens were histopathologically evaluated and graded with regard to immature granulation tissue, mature granulation tissue, necropurulent surface crust, proliferating cell nuclear antigen (PCNA), and collagen deposition. RESULTS: The WD-treated wounds had less necropurulent material on the surface compared with the VAC and control groups (p < 0.05). Day 9 specimens demonstrated increased immature collagen in the VAC and WD groups compared with control. No other statistically significant variations existed between the treatment groups. CONCLUSIONS: Under the conditions of this study, the histopathologic observations do not support more rapid wound healing for the acutely injured VAC-treated wound compared with the WD-treated wound in young healthy pigs.     

封闭负压技术治疗各种术后伤口裂开

目的：观察封闭负压技术治疗外科手术后伤口裂开的临床效果及总结应用经验。方法：从2007年5月至2009年12月,采用封闭负压技术治疗各类外科术后伤口裂开患者17例,其中男10例,女7例,平均年龄41岁。创面面积为0.5cm×3.2cm～5.5cm×18.6cm,创面形成时间为8～94天,期间采用常规湿敷或中药换药治疗伤口未愈。给予-120mmHg～-150mmHg负压持续吸引,治疗时间为6～37天。结果：10例经封闭负压治疗后创面直接愈合,其余7例创面清洁,肉芽组织新鲜,伤口缩小,4例清创缝合,2例行局部皮瓣转移,1例行皮片移植修复,伤口均一期愈合。术后随访2～12个月,所有伤口愈合良好,无再次裂开。结论：封闭负压技术简便、无创,能有效促进伤口清洁,加快肉芽组织生长,缩短创面愈合时间,适合治疗各种外科术后伤口裂开,有较高的临床推广应用价值。     

A Prospective Randomized Evaluation of Negative-pressure Wound Dressings for Diabetic Foot Wounds

Optimal treatment for large diabetic foot wounds is ill defined. The purpose of this study was to compare the rate of wound healing with the Vacuum Assisted Closure device (VAC) to conventional moist dressings in the treatment of large diabetic foot wounds. Diabetics with significant soft tissue defects of the foot were considered for enrollment. Patients were randomized to receive either moist gauze dressings or VAC treatments for 2 weeks, after which they were treated with the alternative dressing for an additional 2 weeks. Wounds were photographed weekly and wound dimensions calculated in a blinded fashion with spatial analysis software. Percent change in wound dimensions were calculated and compared for each weekly assessment and over 2 weeks of therapy with each dressing type. Ten patients were enrolled in the trial, but two were lost to follow-up and two were withdrawn. Complete data were available for analysis on seven wounds in six patients. Average length, width, and depth of the wounds at initiation of the trial was 7.7, 3.5, and 3.1 cm, respectively. Only the wound depth was significantly decreased over the weeks of the trial to 1.2 cm (p < 0.05). VAC dressings decreased the wound volume and depth significantly more than moist gauze dressings (59% vs. 0% and 49% vs. 8%, respectively). VAC dressings were associated with a decrease in all wound dimensions while wound length and width increased with moist dressings. In summary, over the first several weeks of therapy, VAC dressings decreased wound depth and volume more effectively than moist gauze dressings. Negative-pressure wound treatment may accelerate closure of large foot wounds in the diabetic patient. Presented at the Thirteenth Annual Winter Meeting of the Peripheral Vascular Surgery Society, Snowmass, CO, January 31–February 2, 2003.     

Experience with wound VAC and delayed primary closure of contaminated soft tissue injuries in Iraq

BACKGROUND: Wartime missile injuries are frequently high-energy wounds that devitalize and contaminate tissue, with high risk for infection and wound complications. Debridement, irrigation, and closure by secondary intention are fundamental principles for the management of these injuries. However, closure by secondary intention was impractical in Iraqi patients. Therefore, wounds were closed definitively before discharge in all Iraqi patients treated for such injures at our hospital. A novel wound management protocol was developed to facilitate this practice, and patient outcomes were tracked. This article describes that protocol and discusses the outcomes in a series of 88 wounds managed with it. METHODS: High-energy injuries were treated with rapid aggressive debridement and pulsatile lavage, then covered with negative pressure (vacuum-assisted closure [VAC]) dressings. Patients underwent serial operative irrigation and debridement until wounds appeared clean to gross inspection, at which time they were closed primarily. Patient treatment and outcome data were recorded in a prospectively updated database. RESULTS: Treatment and outcomes data from September 2004 through May 2005 were analyzed retrospectively. There were 88 high-energy soft tissue wounds identified in 77 patients. Surprisingly, for this cohort of patients the wound infection rate was 0% and the overall wound complication rate was 0%. CONCLUSION: This series of 88 cases is the first report of the use of a negative pressure dressing (wound VAC) as part of the definitive management of high-energy soft tissue wounds in a deployed wartime environment. Our experience with these patients suggests that conventional wound management doctrine may be improved with the wound VAC, resulting in earlier more reliable primary closure of wartime injuries.     

VAC therapy to promote wound healing after surgical revascularisation for critical lower limb ischaemia

Vacuum‐assisted closure (VAC) therapy is a new emerging non‐invasive system in wound care, which speeds up wound healing by causing vacuum, improving tissue perfusion and suctioning the exudates, and facilitating the removal of bacteria from the wound. The application of sub‐atmospheric pressure on the lesions seems to alter the cytoskeleton of the cells on the wound bed, triggering a cascade of intracellular signals that increase the rate of cell division and subsequent formation of granulation tissue. The aim of this study is to analyse the results of VAC therapy used as an adjuvant therapy for the treatment of foot wounds in patients affected by critical limb ischaemia (CLI) (Rutherford 6 class) after distal surgical revascularisation, to promote and accelerate the healing of ulcers. Twenty‐nine patients (20 males, 9 females; mean age 68·4) affected by CLI of Rutherford 6 class, after surgical revascularisation of the lower limb, underwent VAC therapy in order to speed up wound healing. Complete wound healing was achieved in 19 patients (65·51%), in an average period of 45·4 ± 25·6 days. VAC therapy is a valid aid, after surgical revascularisation, to achieve rapid healing of foot lesions in patients with CLI.     

Role of different negative pressure values in the process of infected wounds treated by vacuum‐assisted closure: an experimental study

Vacuum‐assisted closure (VAC) device is widely used to treat infected wounds in clinical work. Although the effect of VAC with different negative pressure values is well established, whether different negative pressures could result in varying modulation of wound relative cytokines was not clear. We hypothesise that instead of the highest negative pressure value the suitable value for VAC is the one which is the most effective on regulating wound relative cytokines. Infected wounds created on pigs' back were used to investigate the effects of varying negative pressure values of VAC devices. Wounds were treated with VAC of different negative pressure values or moist gauze, which was set as control. The VAC foam, semiocclusive dresses and moist gauze were changed on days 3, 5, 7 and 9 after wounds were created. When changing dressings, tissues from wounds were harvested for bacteria count and histology examination including Masson's trichrome stain and immunohistochemistry for microvessels. Western blot was carried out to test the expression of vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF). Results showed that on days 3 and 5 the number of bacteria in wounds treated by VAC with 75, 150, 225 and 300 mmHg was significantly decreased compared with that in wounds treated by gauze and 0 mmHg pressure value. However, there was no difference in wounds treated with negative pressure values of 75 , 150, 225 and 300 mmHg at any time spot. Immunohistochemistry showed that more microvessels were generated in wounds treated by VAC using 75 and 150 mmHg negative pressure comparing with that using 225 and 300 mmHg on days 3 and 5. However this difference vanished on days 7 and 9. Morphological evaluation by Masson's trichrome staining showed increased collagen deposition in VAC of 75 and 150 mmHg compared with that in VAC of 225 and 300 mmHg. Western blot showed that the expression of VEGF and bFGF significantly increased when the wounds treated with 75 and 150 mmHg negative pressure values compared with the wounds treated with 225 and 300 mmHg on day 5. Treatment using VAC with different negative pressure values more than 75 mmHg has similar efficiency on reducing bacteria in the infected wound. VAC with negative pressure values of 75 and 150 mmHg promote wound healing more quickly than other pressure values. Moreover, comparing with vigorous negative pressure, relatively moderate pressures contribute to wound healing via accelerated granulation growth, increased angiogenic factor production and improved collagen fibre deposition. Further study of this model may show other molecular mechanisms.     

The evaluation of subatmospheric pressure and hyperbaric oxygen in ischemic full-thickness wound healing

We evaluated the efficacy of subatmospheric pressure and hyperbaric oxygen (HBO) as adjuncts in the treatment of hypoxic full-thickness wounds in a rabbit model. We hypothesized that subatmospheric pressure and HBO independently are effective in improving wound healing in the ischemic wound model and that when they are used in combination there is an increased positive effect on wound healing. Using a standard ischemic wound model four full-thickness wounds were created on each ear of 41 male New Zealand white rabbits (N = 82 ears). On each rabbit one ear was dressed with the vacuum-assisted closure (VAC) device and connected to suction; the other was dressed identically without the suction and suction tubing. Twenty rabbits were treated with HBO daily for 10 days at 2.0 atmospheres absolute for 90 minutes plus descent and ascent times. Necropsy on all rabbits was performed on postoperative day 10. Four ischemic wound treatment groups were evaluated: Group 1 (N = 21) VAC dressing alone; Group 2 (N = 20) VAC dressing plus HBO; Group 3 (N = 21) VAC dressing to suction alone; and Group 4 (N = 20) VAC dressing to suction and HBO. Using light microscopy a veterinary pathologist blinded to treatment groups quantified peak granulation tissue, granulation tissue gap, and epithelialization tissue gap. Data were analyzed by analysis of variance with significance indicated by P < 0.05. Statistical significance was found in a comparison of VAC dressing to suction and VAC dressing alone for peak granulation tissue and granulation tissue gap both with and without use of HBO. VAC device use appears to increase the rate of healing in a rabbit ischemic wound model. HBO therapy did not significantly affect the rate of healing in this model.     

Combination therapy of oxidised regenerated cellulose/collagen/silver dressings with negative pressure wound therapy for coverage of exposed critical structures in complex lower‐extremity wounds

Complex wounds with exposed critical structures such as tendon and bone are a conundrum in wound management, especially in the setting where the patient is not a suitable candidate for flap surgery. While the individual use of negative pressure wound therapy (NPWT) and oxidised regenerated cellulose (ORC)/collagen/silver (PROMOGRAN PRISMA) dressing has been described in the literature, there are little data on the efficacy of their combined use. In this study, we describe a novel technique of combining the use of NPWT and ORC/collagen/silver dressings to manage complex wound beds as an alternative management option for patients not suitable for reconstructive flap surgery. This technique was performed in a series of 37 patients with complex lower‐extremity wounds that were not healing with conventional NPWT alone. All patients had open wounds with exposed critical structures that were difficult to manage, such as exposed tendon, bone, deep crevices, and joint. Successful coverage of exposed critical structures was achieved in 89% of patients, and coverage was achieved within 28 days of combination therapy in 82% of these patients, without any complications. The novel technique of combining ORC/collagen/silver dressing and NPWT provides a useful option in the armamentarium of a reconstructive surgeon dealing with difficult complex lower‐extremity wounds.     

VAC therapy for the treatment of complex wounds after cardio‐thoracic surgery

The aim of this study is to report our experience about the treatment of complex sternal and thoracic wounds following cardiothoracic surgery, using vacuum‐assisted closure (VAC therapy. Twelve patients presenting with sternal (five cases) and thoracic (seven cases) wounds that were difficult to heal were treated through VAC therapy after the first surgical debridement. The duration of VAC application ranged from 12 to 36 days with an average hospital stay of 24·6 ± 11·4 days. During a mean follow‐up of 12 months, we observed complete wound healing in seven cases (58·3%), in an average period of 25·5 ± 14·3 days; one patient died during follow‐up, two patients were lost to follow‐up and two patients required definitive surgical closure of the wound cavity. In conclusion, VAC therapy promotes faster wound healing, with shorter hospital stay and subsequent lesser in‐hospital cost, reducing the mortality rate in the long run. It also promotes early rehabilitation and alleviates the need for a second procedure, thus improving patient satisfaction, with minimal discomfort or inconvenience.     

Vacuum-assisted closure for fasciotomy wounds following compartment syndrome of the leg

This study evaluated the efficacy of vacuum-assisted closure (VAC) for treatment of fasciotomy wounds for traumatic compartment syndrome. The authors reviewed the records of a consecutive series of 34 patients who had compartment syndrome of the leg requiring the standard two-incision release of all four compartments and received the application of VAC therapy until the time of definitive wound closure or coverage. A matched series of 34 consecutive antecedent patients with the same entry criteria, except for the use of the VAC, were also studied and served as a control group. The main parameter of interest was the time to "definitive closure" (delayed primary closure with sutures or skin graft coverage) of the wounds. Of the 68 wounds in 34 patients managed with VAC, the average time to definitive closure for both the lateral and the medial wounds was 6.7 days. For the 70 wounds in the 34 control patients, the average time to definitive closure was 16.1 days. This difference in time to wound closure between the VAC group and the non-VAC group was statistically significant (p < .05). Subatmospheric treatment for compartment syndrome of the leg after fasciotomy theoretically helps to speed the resolution of the swelling and tissue edema that are often components of this clinical entity. Experimental work has shown vacuum-assisted wound management to be effective in hastening the resolution of wound edema, enhancing local blood flow, promoting granulation tissue, and thwarting bacterial colonization. These factors may account for its utility in the management of fasciotomy wounds in the setting of compartment syndrome of the leg.     

Retention of polyurethane foam fragments during VAC therapy: a complication to be considered

Vacuum‐assisted closure (VAC) therapy is a closed‐loop, non‐invasive active system, characterised by a controlled and localised negative pressure applied on porous polyurethane absorbent foams. It promotes healing of acute and chronic wounds. Therapeutic effects of VAC therapy have been proved and demonstrated; however, this method can have some disadvantages. Even if it is a quite versatile device, only qualified medical/paramedical personnel should use it in order to avoid possible complications that can occur after an improper application. In this report, 11 cases of foam‐fragment retention within the wound are presented. This rare complication did not promote healing, but further hindered it. On the basis of our experience, it is mandatory to define the indications, benefits and limitations of VAC therapy.     

Loxoscelism and negative pressure wound therapy (vacuum‐assisted closure): an experimental study

Brown recluse spider (Loxosceles) bites cause lesions ranging from chronic necrotic ulcers to acute life‐threatening sepsis. Based on our experience in treating acute and chronic wounds with negative pressure, we postulated that vacuum‐assisted closure (VAC) would be valuable in this application. Chester pigs were procured and injected with purified brown recluse spider venom, 1 µl of venom in two anterior sites and 0·1 µl of venom in two posterior sites on their dorsum. For each concentration of venom, treatment consisted of either VAC or dry, non adherent dressings (control group). Each day, the wounds were inspected and measured. For wounds receiving 1·0 µl of venom, the control wounds decreased in surface area to 50% of initial size after 7 days and none had healed, whereas VAC‐treated wounds were less than 50% after 48 hours and completely healed and reepithelialised after 8 days. Wounds with 0·1 µl of venom had 50% reduction after 5 days with no complete healing for control wounds, and the VAC wounds were 50% after 48 hours and all had closed and reepithelialised after 5 days. Our experimental study showed an accelerated healing time in the animals treated with the VAC as compared with controls.     

Vacuum-assisted closure therapy leads to an increase in plasma fibronectin level

An extensive research has been performed to investigate the mechanisms of action by which the application of subatmospheric pressure to wounds increases the rate of healing. Increased blood flow with vacuum-assisted closure (VAC) use is the most popular aspect. Fibronectin, which is an adhesion molecule, has several functional domains mediating chemotaxis, adhesion and migration. This is thereby involved in differentiation, proliferation, inflammation and thus in wound healing. In this study, plasma fibronectin levels were measured before and after VAC in patients with wounds. The results showed that there was an increase in pre- and post-VAC levels of plasma fibronectin. This statistically significant increase could be another explanation of how VAC therapy promotes wound healing.     

Bioartificial dermal substitute: a preliminary report on its use for the management of complex combat-related soft tissue wounds

OBJECTIVE: To report our institutional experience with the use of a bioartificial dermal substitute (Integra) combined with subatmospheric pressure [vacuum-assisted closure (VAC)] dressings followed by delayed split-thickness skin grafting for management of complex combat-related soft tissue wounds secondary to blast injuries. DESIGN: Retrospective review of patients treated December 2004 through November 2005. SETTING: Military treatment facility. PATIENTS/PARTICIPANTS: Integra grafting was performed 18 times in 16 wounds at our institution. Indications for Integra placement were wounds not amenable to simple split-thickness skin grafting, specifically those with substantial exposed bone and/or tendon. INTERVENTION: Patients underwent an average of 8.5 irrigation and debridement procedures and concurrent VAC dressings prior to placement of the Integra. Following Integra grafting, all patients were managed with VAC dressings, changed every 3 to 4 days at the bedside or in clinic, with subsequent split-thickness skin grafting an average of 19 days later. MAIN OUTCOME MEASUREMENTS: The mechanism and date of injury, size of residual soft tissue deficit, indication for Integra placement, number of irrigation and debridement procedures prior to Integra placement, days from injury to Integra placement, days from Integra placement to split-thickness skin grafting, and clinical outcome were recorded. RESULTS: Integra placement and subsequent skin grafting was successful in achieving durable and cosmetic definitive coverage in 15 of 16 wounds with two of these patients requiring repeat Integra application. Two patients with difficult VAC dressing placement had early Integra graft failure but successfully healed following repeated Integra application and skin grafting. CONCLUSIONS: Bioartificial dermal substitute grafting, when coupled with subatmospheric dressing management and delayed split-thickness skin grafting, is an effective technique for managing complex combat-related soft tissue wounds with exposed tendon. This can potentially lessen the need for local rotational or free flap coverage.     

Systematic review of negative pressure wound therapy for head and neck wounds with fistulas: Outcomes and complications

Fistula formation in head and neck wounds is considered one of the most challenging complications that a head and neck reconstructive surgeon may encounter. The current mainstay of treatment is aggressive surgical debridement followed by vascularised soft tissue coverage. Negative pressure wound therapy (NPWT) has been successfully used for the closure of complicated wounds for decades. This study analysed the outcomes and complications of NPWT in the management of head and neck wounds with fistulas. A systematic search of studies published between January 1966 and September 2019 was conducted using the PubMed, MEDLINE, EMBASE, and SCOPUS databases and using the following key words: “negative pressure wound therapy,” “head and neck,” and “fistula.” We included human studies with abstract and full text available. Analysed endpoints were rate of fistula closure, follow‐up duration, and complications if present. Nine retrospective case series (Level IV evidence) that collectively included 122 head and neck wounds with orocutaneous fistulas, pharyngocutaneous fistulas, and salivary contamination were examined. The number of patients included in each study ranged from 5 to 64. The mode of NPWT varied among the included studies, with most adopting a continuous pressure of −125 mm Hg. Mean durations of NPWT ranged from 3.7 to 23 days, and the reported fistula closure rate ranged from 78% to 100%. To achieve complete wound healing, six studies used additional procedures after stopping NPWT, including conventional wound dressings and vascularised tissue transfer. Information regarding follow up was provided in only three of the nine studies, where patients were followed for 5, 10, and 18 months. No serious adverse events were reported. NPWT for head and neck wounds with fistulas may be considered a safe treatment method that yields beneficial outcomes with a low risk of complications. The current data originated mainly from studies with low levels of evidence characterised by heterogeneity. Therefore, definitive recommendations based on these data cannot be offered. Additional high‐quality trials are warranted to corroborate the findings of this systematic review.     

Transverse rectus abdominis myocutaneous flap wound-healing complications in breast reconstruction: assisted closure using foam suction dressing

Transverse rectus abdominis myocutaneous (TRAM) flap necrosis is a difficult reconstructive problem which historically has entailed protracted management with poor aesthetic outcome. The use of a foam suction dressing achieves effective delayed primary closure of the flap wound with an acceptable aesthetic result. The results of using a vacuum-assisted closure (VAC) system were examined in three patients. The VAC system was found to be safe and effective in facilitating the closure of large and complex wounds without skin grafting. This option should thus be given serious consideration in some difficult wound healing situations.