Passive and Active Sampling of Occupational Exposures to Nitrous Oxide Among Indian Health Service Dental Employees and Possible Mitigating Factors

Abstract

Nitrous oxide is a commonly used gas in dental facilities and considered safe for patients undergoing dental procedures. However, epidemiological studies show that there are adverse health effects associated with chronic occupational exposure to nitrous oxide, including reproductive issues, neurologic, renal and liver disease. Indian Health Service reports have documented high levels of nitrous oxide during dental procedures. This study compared sampling using the Thermo ScientificTM Miran SapphIRe portable analyzer with the Advanced Chemical Sensor Passive Badge, and characterized dental personnels exposure to nitrous oxide levels in the breathing zones during dental procedures. Similar exposure groups were determined by job title (Dentist and Dental Assistant) and an ANOVA was used to explore the appropriateness of considering similarity of the groups across 6 dental clinics within the Indian Health Service. An independent t- test was used to determine if there was a mean difference of exposure between the similar exposed groups. A paired t-test was used to compare the similarity of the two sampling methods, and the Bland-Altman analysis was used to assess level of agreement between the two methods. Finally, this study looked at the effect of nitrous oxide concentration/flow rate and room air exchange rates on exposure levels. Excursion levels over the occupational exposure limit of 250 ppmv were exceeded in 21 of 41 (51%) procedures in this study. Mean upper tolerance limit estimates for dental procedures were 1245 ppmv for dentists and 802 ppmv for dental assistants. Four passive 8-hour TLV-TWAs were over the 50 ppmv occupational exposure limit, two for dentists (55.6 and 152 ppmv) and two for dental assistant (81.3 and 56.0 ppmv). There was no significant difference between similar exposure group concentrations using either sampling method (Miran SapphIRe portable analyzer, 0.071; Advanced Chemical Sensor Passive Badge, p-value 0.106).

Document Details

Document Type

Technical Report

Publication Date

Mar 22, 2017

Accession Number

AD1063983

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