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Original ArticleOpen Access
The Potential Alveolar Hazard of Carbon Dioxide Laser-Induced Smoke
Kunachak S 
,
Sobhon P
,
Sobhon P Carbon dioxide laser is a continuous wave laser, it is well known for its capacity of
tremendous smoke production while contact with tissue. Smoke may cause nausea, vomiting,
headache and airway irritation. Smoke particles 0.5-2 micrometers in diameter usually travel
down the tracheobronchial tree and lodge in the alveoli posing a health hazard. The objectives of
this study were to evaluate possible health hazards of carbon dioxide laser smoke in the operating
room environment, by determining the size and density of smoke particles also determine the
efficacy of surgical masks as a smoke protectant. Ten fresh specimens of papillomatous tissue
obtained from the patients were lased by carbon dioxide laser in a continuous mode. The plume
generated was collected by 0.45 micrometers pore size microfilter which was attached to the tip of
a suction hose connecting the smoke evacuator. The effectiveness of 2 types of commonly used
surgical masks were also determined by trapping the smoke after passing through each mask
using the same model. Smoke particles were evaluated by scanning electron microscope. The
smoke particle density of microfilter that directly trap plume averaged 6 particles/mm2, particles
ranging in size from 0.5-27 micrometers, of which 70 per cent were 0.8 micrometers. For the particles
trapped after passing through both cotton and paper surgical mask, the size were ranging from
1.6-37 micrometers where 65 per cent were 3.7 micrometers and the particle density average
2.7/mm2. We concluded that the smoke particles derived from carbon dioxide laser application are
within the alveolar hazard zone. The conventional surgical masks may not be an effective tool
against laser smoke hazard.
tremendous smoke production while contact with tissue. Smoke may cause nausea, vomiting,
headache and airway irritation. Smoke particles 0.5-2 micrometers in diameter usually travel
down the tracheobronchial tree and lodge in the alveoli posing a health hazard. The objectives of
this study were to evaluate possible health hazards of carbon dioxide laser smoke in the operating
room environment, by determining the size and density of smoke particles also determine the
efficacy of surgical masks as a smoke protectant. Ten fresh specimens of papillomatous tissue
obtained from the patients were lased by carbon dioxide laser in a continuous mode. The plume
generated was collected by 0.45 micrometers pore size microfilter which was attached to the tip of
a suction hose connecting the smoke evacuator. The effectiveness of 2 types of commonly used
surgical masks were also determined by trapping the smoke after passing through each mask
using the same model. Smoke particles were evaluated by scanning electron microscope. The
smoke particle density of microfilter that directly trap plume averaged 6 particles/mm2, particles
ranging in size from 0.5-27 micrometers, of which 70 per cent were 0.8 micrometers. For the particles
trapped after passing through both cotton and paper surgical mask, the size were ranging from
1.6-37 micrometers where 65 per cent were 3.7 micrometers and the particle density average
2.7/mm2. We concluded that the smoke particles derived from carbon dioxide laser application are
within the alveolar hazard zone. The conventional surgical masks may not be an effective tool
against laser smoke hazard.
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