This report was produced in collaboration between SBU and the Regional HTA Centre of Region Västra Götaland
Vacuum assisted closure (VAC) therapy is a method intended to accelerate the healing of surgical wounds and wounds that fail to heal on their own (primary healing), e.g. after suturing. In recent years, Swedish hospitals have started to use this method to a greater extent.
Many controlled trials have been published that address the method’s effects on wound healing, length of hospital stay, and complications involving different types of wounds. Further, a smaller number of studies have been published regarding the effects on mortality. None are of high scientific quality, and only a few are of moderate scientific quality.
* Plastic surgery procedure where a section of the epidermis is removed and transplanted to another site on the body.
Vacuum assisted closure therapy is used for many different types of wounds that require secondary healing (i.e. from the wound floor and edges). Reasons could be that the wound is infected, that the tissue near the wound is damaged or swollen, or that a healing wound has opened. Generally, patients with such wounds are severely ill and often require a long period of hospital care. Also, mortality is high in some categories of patients.
Vacuum assisted closure therapy requires a sealed and moist wound environment. The intent is that negative pressure in the wound will cause swelling to subside more quickly, that the wound will be cleansed more effectively, and that blood circulation in the wound region will increase. Hence, the wound healing processes (granulation) will accelerate, along with reformation of the outer (epithelial) layer of skin, so the wound will heal faster.
An advantage of vacuum assisted closure therapy is that usually the wound only needs to be dressed every second or third day instead of daily, as is the case with conventional treatment.
The method was first used in Sweden in the early years after 2000. Knowledge about its mechanism of action is based mainly on animal studies. In recent years, further controlled trials and case series have been published.
The patient groups that we analysed in this report are adult patients with surgical wounds after some type of intervention where primary wound healing cannot take place. However, we did not include patients with pressure sores or diabetes patients with wounds that have only been debrided surgically.
An ethical dilemma could arise if a health care provider does not offer VAC therapy, and the clinician asserts that the patient is being denied a beneficial, non-dangerous therapy that involves fewer dressing changes and less-offensive odour. On the other hand, one must question whether it is defensible to generally use a treatment method that is not shown to be superior to conventional wound therapy for several different types of wounds.
The cost of treating wounds with vacuum assisted closure therapy is comparable to the cost of conventional wound treatment. Hence, the method is cost-effective in treating categories of wounds for which the evidence indicates a shortened length of stay and reduced mortality. Regarding other wound categories, further clinical studies are required to show whether or not vacuum assisted wound closure therapy is cost-effective.
Four levels are used in grading the strength of the scientific evidence on which conclusions are based:High quality evidence (). Based on high or moderate quality studies with no factors that weaken the overall assessment.Moderate quality evidence (). Based on high or moderate quality studies with isolated factors that weaken the overall assessment.Low quality evidence (). Based on high or moderate quality studies having factors that weaken the overall assessment.Very low quality evidence (). Scientific evidence is deemed insufficient when scientific findings are absent, the quality of available studies is low, or studies of similar quality present conflicting findings.
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