H Tezel1, O S Ertas, C Erakin, A Kayali. 1. Department of Restorative Dentistry and Endodontics, Faculty of Dentistry, Ege University, Bornova Izmir, Turkey.
Abstract
OBJECTIVE: To determine the blood mercury levels in dental students and clinical teaching staff in a dental school using amalgam as a restorative material. SETTING: A dental school in Ege University, Turkey surveyed during one academic year. SUBJECTS AND METHODS: Cross-sectional study of groups of dental students (n=92) in years I to V, clinical teachers in restorative dentistry (n=16) and controls (n=14). Mercury concentration was estimated in venous blood samples using a cold vapour atomic absorption method at the commencement and end of the academic year. Daily air mercury levels were determined in clinical and teaching areas by measuring the darkening of palladium chloride discs using spectrophotometry. RESULTS: There were statistically significant increases (p<0.001) in plasma mercury concentration between measurements in all groups at the end of the academic year. Red cell mercury levels were also consistently elevated. Although the highest levels of mercury were recorded in persons working with amalgam, increased levels were also found in subjects working in the teaching classrooms but not with amalgam (controls and first year students). CONCLUSION: Increased mercury levels appeared to be due to background exposure from spillage of mercury and amalgam residues on floors. Increased mercury hygiene and regular control of working atmosphere should be implemented to prevent mercury exposure in the dental pre-clinical laboratory.
OBJECTIVE: To determine the blood mercury levels in dental students and clinical teaching staff in a dental school using amalgam as a restorative material. SETTING: A dental school in Ege University, Turkey surveyed during one academic year. SUBJECTS AND METHODS: Cross-sectional study of groups of dental students (n=92) in years I to V, clinical teachers in restorative dentistry (n=16) and controls (n=14). Mercury concentration was estimated in venous blood samples using a cold vapour atomic absorption method at the commencement and end of the academic year. Daily air mercury levels were determined in clinical and teaching areas by measuring the darkening of palladium chloride discs using spectrophotometry. RESULTS: There were statistically significant increases (p<0.001) in plasma mercury concentration between measurements in all groups at the end of the academic year. Red cell mercury levels were also consistently elevated. Although the highest levels of mercury were recorded in persons working with amalgam, increased levels were also found in subjects working in the teaching classrooms but not with amalgam (controls and first year students). CONCLUSION: Increased mercury levels appeared to be due to background exposure from spillage of mercury and amalgam residues on floors. Increased mercury hygiene and regular control of working atmosphere should be implemented to prevent mercury exposure in the dental pre-clinical laboratory.
Authors: Nadia Jamil; Mujtaba Baqar; Samar Ilyas; Abdul Qadir; Muhammad Arslan; Muhammad Salman; Naveed Ahsan; Hina Zahid Journal: Biomed Res Int Date: 2016-06-30 Impact factor: 3.411