The skin was washed

with 70% (v/v) ethanol and left to dr

The skin was washed

with 70% (v/v) ethanol and left to dry prior to wound creation. Excision wounds were created by pinching and lifting the skin of the back using sterile forceps and cutting a 6 mm circular (28 mm2) area using sharp BMS-354825 cell line scissors to cut down to the subcutaneous areolar tissue. Twenty-five μl of the bacterial suspension was then added to the wound (108 CFU of EMRSA-16), and incubated for one hour prior to treatment. MRSA was found to be the predominant bacterium colonising the wound at day 5 (data not included). Superficial wound model The preparation of the animals for this model was as described for the excisional wound model above. 25 mm2 square shaped wounds were created in the skin of the back by scarification using a 27G needle, run ten times parallel in one direction and another ten times perpendicular to the original tracks. The wounds were visibly red and mildly swollen after 30 minutes. Ten μl of the bacterial suspension was placed on the wound (4 × 107 CFU of EMRSA-16), and incubated for one hour prior to treatment. This method also resulted in a reproducible MRSA wound colonisation

model, which persisted for up to 5 days post inoculation (data not shown). Photodynamic therapy (PDT) All experiments were carried out under subdued room lighting. PDT was performed 1 hour after inoculating the wounds with the bacterial suspension. The excision wounds received 25 μl of MB (100 μg/ml) solely at the start of irradiation, whilst the superficial scarified wounds received 10 μl of MB just before the start of irradiation and a further 10 μl after 15 minutes of irradiation. The wounds were irradiated GSI-IX immediately after the application of MB and continued for 30 minutes. This equated to a total delivered light dose of 360 J/cm2. Following the completion of treatment, a circular area of skin and associated subcutaneous tissue of 1 cm diameter with the wound at its centre, was removed using sterile scissors. These were then placed

in 0·5 ml Stuart’s transport medium and shielded from light until Dapagliflozin delivery to the microbiology laboratory for processing and analysis within 2 hours. The animals were subsequently culled in accordance with the Animal Scientific Procedures act (1986). Control groups were used to test the effect of MB alone (by incubating wounds in the dark for the equivalent time period as needed for irradiation, L-S+, where L denotes light treatment and S denotes photosensitiser), light alone (by illuminating wounds in the absence of MB, L+S-). A final untreated control group received no MB or light illumination (L-S-). PBS was used instead of MB in the control wounds that received no MB. Twelve mice per group were examined in the excision wound model, whereas 6 mice per group were used in the superficial scarified wound model. In preliminary experiments, the dose of MB (concentration and volume of solution) was optimised to achieve maximum bacterial kill.

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