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J O U R N A L O F WO U N D C A R E

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J O U R N A L O F WO U N D C A R E  Vo l 2 2 . N o 1 . E W M A D o c u M E N t 2 0 1 3

Larvaedebridement

therapy

T

he removal of devitalised tissue is an

essential component of wound care.

Larval therapy, also known as maggot

debridement therapy (MDT) or biosurgery, is a

form of mechanical debridement whereby live

maggots, raised in sterile conditions, usually Lucilia

sericata (common green bottle fly), are placed

on necrotic/sloughy wounds. Maggot secretions

contain antibacterial substances that reduce

bacterial load by exerting a bacteriostatic effect,

and proteolytic enzymes cause eschar degradation

by disrupting the tissue collagen matrix. These

actions promote wound healing and amplify

human fibroblast and chondrocyte growth.

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Larval therapy has been around for the last 400 years

and has been primarily used for debridement of

wounds when traditional methods of debridement

(autolytic, mechanical or surgical) are unsuccessful.

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During the First World War, Baer successfully used

sterile larval therapy in the treatment of leg ulcers

and osteomyelitis.

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With the development of

antibiotics and advanced surgical technique, the use

of larval therapy decreased and it was only used in

chronic wounds as a last resort.

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However, in recent

years, the treatment is re-emerging, due to the rise

in chronic wounds and the emergence of antibiotic-

resistant strains of bacteria, such as MRSA.

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Action

The actions of the larvae are threefold:

•

Debridement

•

Antimicrobial

•

Stimulation of healing.

The larvae feed on necrotic tissue and exudate

within the wound, thereby debriding it of

devitalised tissue. The digestive juices secreted

by larvae contain proteolytic enzymes,

including trypsin-like and collagenase, and

these selectively debride necrotic tissue, leaving

viable tissue unharmed.

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The movement of

the larvae stimulates exudate production, thus

increasing irrigation of the wound and assisting

in the removal of bacteria;

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the larvae ingest

the liquefied tissue, neutralising the bacteria in

their gut.

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Additionally, bacteria that are not

destroyed in the acidic alimentary canal are

contained within a tubular structure, known

as the peritrophic membrane, thus preventing

contamination.

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Larvae also inhibit bacterial

activity by producing inhibiting secretions.

Steenvoorde and Jukema

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argue that adequate

numbers of larvae are necessary to eradicate some

Gram-negative species such as Escherichia coli;

however, Van de Plas

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contends that the larvae are

antibacterial and useful in the eradication of biofilms.

The larvae secretions contain alkaline components,

thereby altering the PH of the wound and enabling

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