Flammability of topical preparations and surgical dressings in cutaneous and laser surgery: A controlled simulation study

Background Surgical fires are a rare, but serious complication of dermatologic procedures involving electrosurgical and laser devices. Given the lack of data regarding basic fire safety principles, many dermatologists remain unaware of this potential risk. Objective We evaluated the flammability of...

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Bibliographic Details
Published in:Journal of the American Academy of Dermatology 2012-10, Vol.67 (4), p.700-705
Main Authors: Arefiev, Katharine, MD, Warycha, Melanie, MD, Whiting, Dennis, PA-C, Alam, Murad, MD, MSCI
Format: Article
Language:English
Subjects:
2-Propanol - chemistry
Aluminum Compounds - chemistry
Animals
Bandages - standards
Bedding and Linens - standards
Biological and medical sciences
carbon-dioxide laser
Chlorhexidine - analogs & derivatives
Chlorhexidine - chemistry
Chlorides - chemistry
Dermatologic Surgical Procedures - adverse effects
Dermatology
electrosurgery
Electrosurgery - adverse effects
Equipment Safety
fire
Fires - prevention & control
Laser Therapy - adverse effects
Lasers, Gas - adverse effects
Materials Testing - methods
Medical sciences
Operating Rooms - standards
Oxygen - chemistry
patient safety
Skin
skin preparation
surgical fires
Swine
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Summary:Background Surgical fires are a rare, but serious complication of dermatologic procedures involving electrosurgical and laser devices. Given the lack of data regarding basic fire safety principles, many dermatologists remain unaware of this potential risk. Objective We evaluated the flammability of topical preparations and surgical drapes commonly encountered in the immediate operative field during cutaneous and laser surgery. Methods Surgical dressings, drapes, and pork belly skin were examined for fire risk upon exposure to isopropyl alcohol, chlorhexidine gluconate, and aluminum chloride under dry, saturated, and damp conditions. Both electrosurgery and a carbon-dioxide laser were used as ignition sources. Results At least some char was observed in 86 of 126 simulated conditions (68%). Flames occurred in 2 test conditions: dry underpad drapes and cotton balls exposed to the carbon-dioxide laser. In general, drapes and dressings dampened or saturated with isopropyl alcohol failed to ignite with electrofulguration or electrodessication, although sparks and moderate char developed on pork belly skin and the underpad drape. Materials dampened or saturated with chlorhexidine gluconate, which contains isopropyl alcohol, generated less smoke and char compared with materials exposed to aluminum chloride, which does not contain alcohol. Limitations Future studies may assess the flammability of materials in the setting of oxygen supplementation. Conclusion In common cutaneous surgical environments, electrosurgery or ablative laser may lead to char and rarely to fire. Char may be seen in up to two thirds of simulated conditions, and in a minute proportion of conditions, fire is observed.
ISSN:0190-9622
1097-6787
DOI:10.1016/j.jaad.2012.04.026