Moist wound healing: a review of evidence, application and outcome

Diabetic foot disease is estimated to affect 15% of all people with diabetes (Mancini and Ruotolo, 1997). A recent study has estimated that the annual cost of diabetic peripheral neuropathy in the UK is around £250 million, and that 76% of all diabetic foot ulcers have a neuropathic element (Gordois et al, 2003). As this cost does not include purely ischaemic ulcers, the true costs of diabetic foot complications are likely to be much higher.

Wound healing in people with diabetes
Abnormal wound healing in people with diabetes is well recognised (Bouter et al, 1993). However, there is very little evidence regarding many aspects of foot care in people with diabetes, including wound healing (Pecoraro et al, 1991). The American Diabetes Association (1991) suggested the following predisposing factors to explain the faulty healing of wounds in people with diabetes:

• Abnormal cellular and/or inflammatory pathways
• Peripheral neuropathy
• Vascular disease and/or tissue hypoxia.

Abnormal cellular function, particularly in fibroblasts and neutrophils, have been found in people with diabetes. In vitro, hyperglycaemia may be toxic to these cellular elements; in vivo, it may result in greater susceptibility to infection. Modest differences in the cellular function of neutrophils, macrophages, and fibroblasts associated with hyperglycaemia have been postulated, but not conclusively shown in vivo. Advanced glycosylation end-products accumulate in diabetes as a result of hyperglycaemia, leading to the non-enzymatic glycosylation of collagen (McInnes, 2001). This process results in the production of abnormal collagen, which is highly inflexible and prone to breakdown, particularly over pressure areas (Elkes and Wolfe, 1991).

The factor most consistently associated with foot ulcers in people with diabetes is peripheral neuropathy. Trauma during walking may not only create a wound but also keep it in a chronic inflammatory phase. This could explain why foot ulcers in people with diabetes fail to heal and become chronic. Figure 1 shows a typical presentation of chronic diabetic neuropathic ulceration. Motor neuropathy results in weakness and changes in foot structure, which may contribute to continued tissue injury. Sensory neuropathy impairs the neuroinflammatory response, while autonomic neuropathy impairs the normal maintenance of skin integrity, vascular tone and the thermoregulatory response, all of which can interfere with normal wound repair.

Disturbances in the inflammatory and proliferation phases of wound healing have been suggested in diabetic wound healing (Loots et al, 1999). During the proliferation phase, the extracellular matrix is remodelled and rebuilt. Fibroblasts are the main producers of this extracellular matrix. Loots et al (1999) examined the proliferation of fibroblasts from diabetic ulcers. They concluded that the diabetic process and the ulcer environment itself cause the fibroblasts to age. Overall functional activity is therefore reduced.

Other studies conducted on animals have shown that the defects that occur in diabetic wound healing may be caused by altered collagen metabolism, resulting in reduced collagen levels and abnormal granulation tissue formation (Spanheimer et al, 1988). Hence, even when the wounds do heal they will tend to have reduced tensile strength (Andreassen and Oxlund, 1987). This is seen clinically, as people with healed diabetic ulcers are more prone to future tissue breakdown over previous ulcer sites.

Other factors for consideration
In addition to physiological predisposing factors, there is evidence that psychological stress adversely affects the immune system, and this could impact on wound healing. Ashford et al (2000) showed that foot complications impact further on the psychological effects of chronic illness than living with diabetes alone.

Patient compliance should always be considered when ulcers fail to heal within expected timeframes. It may be that the patient is not wearing the recommended footwear or is not resting as advised (Close-Tweedie, 2002). Again, this could be linked to the psychological effects of living with a chronic disease (McPherson and Binning, 2002). Such issues should be dealt with sensitively so as not to alienate patients and further reduce compliance.

The body of evidence clearly suggests that people with diabetes are prone to foot wounds. Once formed these are difficult to heal, owing to a combination of physiological and psychological factors.

Effect of a moist environment on chronic wound healing
Overall, research has shown that moist wound environments are associated with:

• Less intense, less prolonged inflammation (Rovee et al, 1972)
• More rapid keratinocyte proliferation (Madden et al, 1989) and migration (Winter, 1962)
• Earlier differentiation of keratinocytes to restore cutaneous barrier function (Vogt et al, 1995)
• Increased fibroblast proliferation (Katz et al, 1991)
• Increased collagen synthesis (Leipziger et al, 1985)
• Earlier, less prolonged angiogenesis (Lydon et al, 1989)
• Earlier full-thickness wound contraction (Pirone et al, 1990).

However, clinically, some caution should be observed with a moist wound environment, particularly in the management of ischaemic and neuroischaemic foot ulcers. Moist wound dressings (e.g. hydrogels) can be used to soften dry hard eschar, often found on such ulcers. Treatment should be on an individual basis after careful assessment because of the increased risk of spreading infection and increasing pain in those with marked ischaemia (Findlow et al, 2001). Figure 2 shows how a moist environment can assist in the desloughing of a wound.

Dressings for use in moist wound healing
Over the past 30 years, hundreds of dressings that help to create a moist wound environment have been developed. Table 1 summarises the key categories. Healthcare professionals should be aware of the characteristics of an ideal moist wound dressing, and be able to differentiate between the dressing categories so that the most appropriate decisions regarding topical therapy of chronic wounds can be made for the patient (Seaman, 2002).

Characteristics of an ideal moist wound dressing
Seaman (2002) suggested six properties that an ideal dressing should have:

• Maintains a moist wound environment
• Absorbs excess exudate
• Eliminates dead space
• Does not harm the wound
• Provides thermal insulation
• Provides a bacterial barrier.

Considerable care and attention is needed by the healthcare professional in choosing and applying the most appropriate dressing for a chronic wound.

For example, although a moist wound environment is important in wound healing, excessive moisture can contribute to delayed healing and further breakdown of the skin. Unmanaged exudate can contribute to increased wound bacterial counts, skin maceration, wound odour, and increased cost of care as dressings will need to be changed more frequently (Rolstad et al, 2000). Hence, healthcare professionals need to consider the absorptive capacity of the dressing as well as its moisture vapour transmission rate (MVTR) when a high rate of exudate absorption (the capacity to allow the passage of water vapour through a dressing to the outside environment) is required. Dressings with a high MVTR will allow a greater absorption of exudates (Seaman, 2002). Figure 3 shows an infected ulcer with a high level of exudate.

Consideration should also be given to the fact that the properties of dressings may be altered when on the foot. Dressings are not designed to take the high and repetitive forces exerted on the sole of the foot when walking (Baker, 1997).

Recent advances in dressings
Many modern dressings provide several of the ideal characteristics of moist wound dressings but few (if any) contain all of them (Table 1). Recent developments in wound healing include new treatments such as skin substitutes, epidermal grafts dermal replacements, composite grafts, and growth factors. Composite grafts and growth factors have shown some particularly promising initial results in the treatment of diabetic foot ulcers (Page, 2002).

New developments should be considered, particularly in the management of the diabetic foot where standard treatments may be less effective. One novel approach currently being developed for the management of neuropathic diabetic ulcers and leg ulcers is a non-contact boot-shaped plastic film device (Kerraboot®). In clinical investigations to date, this device has been shown to efficiently absorb excess ulcer exudate, reduce wound malodour and, of greatest importance, maintain a warm, moist environment to optimise the healing process (Leigh et al, 2003). Further studies will be required to validate these initial observations.

Evidence-based medicine
There is now an expectation that working practice should aim to be consistent with evidence-based medicine. When it comes to management of the diabetic foot, randomised controlled trials:

• Are uncommon
• Usually only concern the latest biotechnologies
• Have produced confusing results – for a number of reasons.

Many new innovations are presented in glossy brochures with no objective evidence of efficacy. We all believe that neuropathic ulcers will not heal without pressure relief, but other than consensual experience there is little evidence for this (Masson, 1999).

Following the development of new materials and devices to create a moist wound environment, there have been very limited data to support their use, if one requires evidence that they have produced more rapid healing in chronic wounds kept moist than in those kept dry. Perhaps this is a problem with the outcome measure, rather than the materials themselves (Harding et al, 2000).

So where does this leave us? Should we join in the cry for more randomised controlled trials? Perhaps we should question the validity of endpoint studies in wound healing research. We could base treatments on clinical experience obtained from treating many patients, indicating that they are cost-effective and benefit patients in terms of healing efficacy and by their ability to reduce pain, odour and wound leakage.

Conclusion
It must be recognised that dressings are not the ‘be all and end all’ when it comes to the management of diabetic foot ulceration. All too often, non-healing is attributed to the wrong dressing. We must first address the main barriers to healing, as described earlier. If infection is not controlled, pressure not relieved and vascular deficiencies not addressed, then the choice of dressing will be largely irrelevant. However, once these factors are confronted, then wound management becomes important.