Discussion Topical NPWT involves ac

Discussion
Topical NPWT involves active drainage of chronic over-exudative wounds. In this technique, a porous material (antimicrobial gauze or foam) is placed in the wound bed and enclosed using polyurethane films to form an airtight seal.3,4 This kind of dressing has been shown to be beneficial in a wide variety of wounds, including pressure ulcers, leg ulcers, skin grafts, sternal and abdominal wounds, traumatic injuries, postfasciotomy closures, and lymphorrhea.4,5 Although the bulk of the literature regarding NPWT describes one vacuum-assisted closure system (V.A.C. Therapy®, KCI, San Antonio, TX), the use of alternative dressing interfaces and vacuum sources also has been presented. The first use of gauze as a medium was reported by Chariker et al6 in 1989. They reported that negative pressure enhanced the closure of incisional fistulae by improving drainage control, reducing skin damage, improving wound granulation and contraction, and reducing nursing costs. The technique uses moistened gauze as a wound interface and 80 mm Hg of negative pressure.7 Campbell et al8 published a retrospective analysis in 2008, which proved the effectiveness of gauze as a wound filler material and applied the pressure at -80 mm Hg for the duration of therapy. Generally, pressures are targeted at -125 mm Hg, although no clinical data identify an optimum pressure. However, in a recent report, reduction in wound volume was suggested to be unrelated to pressures between -50 mm Hg and -125 mm Hg.8 In this study, the authors used continuous 125 mm Hg of negative pressure in wounds for the first 48 hours. After the wounds were properly cleaned by continuous and high pressure, the authors continued dressings with intermittent 80 mm Hg of negative pressure at 24- to 48-hour intervals. The pressure delivered to the wound bed by a suction tube and a wound filler—gauze, or foam—creates the mechanical stress on the surface of the wound. In the cells exposed to negative pressure, integrin bridges in their cytoskeletons are disrupted; thus, cell proliferation is stimulated. The other effect of negative pressure is elimination of proteases that inhibit healing of the lesion.9,10 The most important effect of negative pressure is provided by the mechanical pump. Therefore, a useful wound filler material should transduce the negative pressure to the wound bed equally.