Overcoming the challenges
Expect more… healing
| In a non-comparative study there was a significant reduction in mean wound area from 10.1cm2 at baseline to 5.1cm2 at four weeks (p<0.001) and healed in five subjects (11%)1* |
 |
Baseline mean
wound size
(ulcer area)1
|
Final evaluation mean
wound size
(ulcer area)1
|
| 50% |
decrease in mean wound area from baseline to final evaluation.* |
|
In a wound area measurement study, the healing rates at 4 weeks
were powerful predictors of complete wound healing at 12 weeks.2
|
| *Using protocols of care that included Versiva® XC® dressing with sustained graduated compression bandages. |
Expect more… healthy periwound skin
| Challenge |
Retention of fluid and lateral spread |
| Maceration of periwound skin is a common complication.3 Some dressings absorb exudate within their “air pocket structure” which is released when pressure is applied, potentially causing maceration.4 |
 |
 |
| Allevyn® NA cross section |
Allevyn® dressing* |
 |
 |
| Mepilex® cross section |
Mepilex® dressing* |
| Solution |
Because Versiva® XC® dressing contains Hydrofiber® Technology, the unique gelling action locks in fluid,5 preventing it spreading laterally, retaining it, even under pressure.6 In vitro testing of Versiva®XC® dressing compared to traditional foam dressings (Allevyn® and Mepilex®) demonstrated its superior retention capability, with more than 90 percent of fluid retained within the dressings under a 40 mmHg load (p<0.05).6
Photo used with the kind permission of nurses Esperanza Manzanero and Salomé Fernández. This photo represents one wound and may not be typical of all wounds. |
 |
 |
| Versiva® XC® cross section |
Versiva® XC® dressing* |
| *In an in vitro test a 5 kg weight was applied to each saturated dressing (equivalent to 40 mmHg pressure).6 |
 |
Expect more… exudate control
| Challenge |
Solution |
| Dressings that exhibit a high moisture vapour transmission rate (MVTR) may not always provide the optimal moist wound healing environment due to high levels of moisture lost through the surface of the dressing.8 |
The fluid retention properties of the Hydrofiber® Technology component of Versiva® XC® dressing, combined with its lower MVTR, ensure that the wound healing environment remains moist.7,9 |
Versiva® XC® dressing maintains moisture within the dressing for a longer period than other dressings tested.10*
*In vitro data testing Allevyn®, Mepilex® and Versiva® XC® dressing.
Expect more… contouring
| Challenge |
Contours11, 12 |
Dressings that do not contour to the wound bed may leave dead space.4
Versiva® XC® dressing contains Hydrofiber® Technology, which conforms closely to the wound surface, helping to minimize dead space where bacteria can thrive as demonstrated by in vitro testing.11,12
*Depiction of a simulated exuding
wound environment. |
 |
 |
Versiva® XC® dressing*
Hydrofiber® Technology
minimizes dead space
|
Allevyn® dressing*
Dead space |
|
Expect more… comfort
| 84% |
of patients reported a reduction of pain compared with previous treatment at study end.1 |
References [+]
- Vanscheidt W, Munter KC, Klovekorn W Vin F, Gauthier JP, Ukat A . A prospective study on the use of a non-adhesive gelling foam dressing on exuding leg ulcers. J Wound Care. 2007;16(6):261-265.
- Cardinal M, Eisenbud D, Phillips T, Harding K. Early healing rates and wound area measurements are reliable predictors of later complete wound closure. Wound Repair Regen. 2008;16: 19-22.
- World Union of Wound Healing Societies (WUWHS). Principles of Best Practice: Wound Exudate and the Role of Dressings. A Consensus Document. London: MEP Ltd, 2007.
- Best Practice Statement: Optimising the use of Versiva® XC® gelling foam dressing. Wounds UK, Aberdeen, 2009.
- Waring MJ, Parsons D. Physico-chemical characterisation of carboxymethylated spun cellulose fibres. Biomaterials. 2001;22:903-912.
- Griffiths B, Adams S, Kelly S, Shaw H. Retention of fluid and lateral spread in a new gelling foam dressing versus other foam dressings. Poster presented at: 20th Annual Symposium on Advanced Wound Care and the Wound Healing Society Meeting; April 28-May 1, 2007; Tampa, FL.
- A Comparison Of Moisture Balance At a Simulated Wound Dressing/Wound Bed Interface Between Versiva® XC® and foam dressings WHRI3248 TA176.
- Lin Y, Chen J, Li Q, Pan K. Moisture vapor transmission rates of various transparent dressings at different temperatures and humidities. Chin Med J. 2009;122(8):927-930.
- Retention of fluid under compression of non-adhesive versions of Versiva® XC® vs. Allevyn®, Biatain® and Mepilex®. WHRI2932 TA110. November 28, 2006. Data on file, ConvaTec.
- Comparison of the performance characteristics of Versiva® XC™ against foam dressings. WHRI2720 AI127. November 22, 2006. Data on file, ConvaTec.
- A new method to demonstrate intimate contact with a simulated wound bed of Versiva® XC® dressings versus foam dressings. WHRI2938 TA111. December 11, 2006. Data on file, ConvaTec.
- Jones SA, Bowler PG, Walker M. Antimicrobial activity of silver-containing dressings is influenced by dressing conformability with a wound surface. Wounds. 2005;17:263-270. sequestration and bactericidal activity within hydrating Hydrofiber® wound dressings. Biomaterials. 2006;27:1129-1139.