The impacts of larval density and protease inhibition on feeding in medicinal larvae of the greenbottle fly Lucilia sericata.

Larval therapy, the therapeutic use of blowfly larvae to treat chronic wounds, is primarily used in debridement. There are, however, gaps in current knowledge of the optimal clinical application of the therapy and mechanisms of action in the debridement process. Using an artificial assay, two studies were undertaken to investigate these aspects of larval debridement by Lucilia sericata Meigen (Diptera: Calliphoridae); the first studied the effects of the density of larvae on tissue digestion and larval mass, and the second considered the effects on the same parameters of incorporating protease inhibitors into the feeding substrate. The total mass of tissue digested increased with larval density until saturation was observed at 5.0-7.5 larvae/cm(2) . This range was considered optimal as lower doses resulted in the removal of less tissue and higher doses offered no additional tissue removal and appeared to exacerbate competition for feeding. In the second study, increased protease inhibitor concentration led to significant decreases in tissue digestion and larval mass, suggesting that serine proteases, particularly trypsin, may play major roles in larval digestion. Such information is important in elucidating the main constituents that make up larval digestive products and may be significant in the development of new therapies.

Does maggot therapy promote wound healing? The clinical and cellular evidence.

The larvae of Lucillia sericata, or maggots of the green-bottle fly, are used worldwide to help debride chronic, necrotic and infected wounds. Whilst there is abundant clinical and scientific evidence to support the role of maggots for debriding and disinfecting wounds, not so much emphasis has been placed on their role in stimulating wound healing. However, there is accumulating evidence to suggest that maggots and their externalized secretions may also promote wound healing in stubborn, recalcitrant chronic ulcers. There are a growing number of clinical reports which support the observation that wounds which have been exposed to a course of maggot debridement therapy also show earlier healing and closure end-points. In addition, recent pre-clinical laboratory studies also indicate that maggot secretions can promote important cellular processes which explain this increased healing activity. Such processes include activation of fibroblast migration, angiogenesis (the formation of new blood vessels from pre-existing vessels) within the wound bed, and an enhanced production of growth factors within the wound environment. Thus, in this review, we summarize the clinical evidence which links maggots and improved wound healing, and we précis recent scientific studies which examine and identify the role of maggots, particularly individual components of maggot secretions, on specific cellular aspects of wound healing.

The role of oxygen-associated therapies for the healing of chronic wounds, particularly in patients with diabetes.

This paper discusses the role of molecular oxygen as an aid to wound healing, and the potential value of the three major therapies which allow the delivery of oxygen to the wound site: Hyperbaric Oxygen Therapy (HBOT), Topical Oxygen Therapy (TOT) and a new sterile wound dressing, Oxyzyme™. We summarize studies which have been undertaken using these interventions, and discuss their reported effect on chronic, non-healing wounds, in particular, on ulcers associated with Diabetes. The main conclusions drawn from the studies reviewed indicate that therapeutic oxygen can be used as an aid to the healing of chronic wounds; and benefits are clearly evident with the use of both HBOT and TOT. There is also potential for the use of a new, portable, topical oxygen delivery system, oxyzyme. However its use is still embryonic and studies on its effectiveness are limited. More robust measures of its efficacy are urgently needed.

Amino acid derivatives from Lucilia sericata excretions/secretions may contribute to the beneficial effects of maggot therapy via increased angiogenesis.

BACKGROUND: Maggot therapy, utilizing the larvae of Lucilia sericata, has been reported to reduce the bacterial load within wounds and also to enhance wound healing. Maggot excretions/secretions (ES) have been shown to have a role in the success of maggot therapy. While the protein content of ES has been investigated, to date little research has focused on the small metabolites present in ES and their potential contribution to the therapy. Study of the molecular composition of the secretions and the potential bioactivities present will allow for a more detailed evaluation of the efficacy of maggot therapy. OBJECTIVES: We studied the amino acid-like compounds present in ES of L. sericata larvae in order to determine the compounds present and their potential role in the wound healing process. METHODS: These included thin-layer chromatography/mass spectrometric analysis of ES to identify amino acid-like components, a turbidometric assay to investigate their potential antibacterial activity and cell proliferation studies to investigate their potential mitogenic ability. RESULTS: Three prominent compounds were detected and identified as histidine, valinol and 3-guanidinopropionic acid. While these amino acids were not shown to exhibit antibacterial activity, a proliferative effect on the growth of human endothelial cells, but not fibroblasts, was noted. CONCLUSIONS: The demonstrated proliferative effect, selectively on endothelial cells, suggests that the amino acid-like compounds present in maggot ES may have a role in wound healing, by stimulating angiogenesis.