R. E. Korczynski scite author profile

R. E. Korczynski

5Publications

90Citation Statements Received

25Citation Statements Given

How they've been cited

165

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Affiliations

Manitoba Labour and Immigration, Research Canada

Publications

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Occupational Health Concerns in the Welding Industry

Korczynski

2000

Applied Occupational and Environmental Hygiene

112

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The Workplace Safety and Health Branch initiated a proactive study in the welding industry in Manitoba. Eight welding companies participated in this study. Health concerns raised by welders were welders' flash, sore/red/teary eyes, headaches, nosebleeds, and a black mucous discharge from their nasal membrane. Most welders expressed concern regarding excessive smoke levels in the workplace and inadequate ventilation. Types of welding identified were MIG mild steel, MIG stainless steel, and TIG aluminum. Monitoring involved an assessment of noise levels, fume composition, and carbon monoxide and ozone concentrations. Metal analyses were according to National Institute for Occupational Safety and Health (NIOSH) Method 7300. Noise dosimeters used were the Quest model 100 and Micro 14 & 15. Carbon monoxide was monitored using the Gastech Model 4700 and ozone using the AID Portable Ozone Meter Model 560. In Manitoba, a hearing conservation program is required when the equivalent sound exposure level (normalized Lex 8-hr) exceeds 80 dBA-weighted. The American Conference of Governmental Industrial Hygienists' threshold limit value-time weighted average (ACGIH TLV-TWA) for iron is 5.0 mg/m3, manganese is 0.2 mg/m3, carbon monoxide is 25 ppm, and ozone is 0.05 ppm (heavy work), 0.08 ppm (moderate work), and 0.1 ppm (light work). Welders' personal exposures to manganese ranged from 0.01-4.93 mg/m3 (N = 42; AM = 0.5; GM = 0.2; SD +/- 0.9; GSD +/- 3.2) and to iron ranged from 0.04-16.29 mg/m3 (N = 42; AM = 3.0; GM = 1.4; SD +/- 3.5; GSD +/- 2.5). Noise exposures ranged from 79-98 dBA (N = 44; AM = 88.9; GM = 88.8; SD +/- 4.2; GSD +/- 1.0). Carbon monoxide levels were less than 5.0 ppm (at source) and ozone levels varied from 0.4-0.6 ppm (at source). Ventilation upgrades in the workplace were required in most welding shops. Only 7 percent of the welders wore respiratory protection. A hearing conservation program and hearing protection were required at all monitored workplaces.

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Anesthetic Gas Exposure in Veterinary Clinics

Korczynski¹

1999

Applied Occupational and Environmental Hygiene

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Concerns were raised by several workers from veterinary clinics in Manitoba, Canada, regarding potential exposure to isoflurane and halothane during anesthetic administration. There has been no guideline established for isoflurane by the American Conference of Governmental Industrial Hygienist (ACGIH) or a Permissible Exposure Limit by the Occupational Safety and Health Administration (OSHA) or a recommended exposure limit (REL) by the National Institute for Occupational Safety and Health (NIOSH). The ACGIH TLV-TWA for halothane is 50 ppm and NIOSH has established 2 ppm as a recommended level based on an one-hour sampling. OSHA has established no guideline for halothane. The Miran IB Portable Ambient Air Analyzer was used to conduct real-time sampling and to identify leaks during administration. All veterinary clinics inspected had installed the passive waste gas scavenging system. Ten clinics were each monitored during anesthetic gas delivery for one surgical procedure performed. Induction was 4 to 5 percent and maintenance 1.5 to 2.5 percent. Nine clinics were small animal practices and the tenth was an equine clinic. Veterinarians' personal exposures were higher than the assistants'. Veterinarians' personal exposures for isoflurane ranged from 1.3 to 13 ppm (AM = 5.3; SD +/- 2.7; GM = 4.6; GSD +/- 1.6) and for their assistants, personal exposures ranged from 1.2 to 9 ppm (AM = 4.7; SD +/- 2.5; GM = 3.9; GSD +/- 1.6). Veterinarians' personal exposures for halothane ranged from 0.7 to 12 ppm (AM = 4.2; SD +/- 3.6; GM = 2.9; GSD +/- 1.4) and for their assistants, personal exposures ranged from 0.4 to 3.2 ppm (AM = 1.8; SD +/- 1.0; GM = 1.5; GSD +/- 1.7). One clinic had significant leaks in the anesthetic gas delivery lines. Personal halothane exposure for the veterinarian at this clinic was 7.2 to 65 ppm (AM = 18.0; SD +/- 11.5; GM = 15.9; GSD +/- 1.8). Based on this study, worker exposures were acceptable. Peak exposures were recorded when the cuffed endotracheal tube was removed from the animal. Equipment leaks were minimal when the system was maintained at its optimum operating condition.

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Two new species of Pycnophyes (Homalorhagida, Kinorhyncha) from the Canadian coast of the Beaufort Sea

Higgins¹,

Korczynski²

1989

Can. J. Zool.

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Two new homalorhagid kinorhynchs, Pycnophyes canadensis n.sp. and Pycnophyes borealis n.sp., are described from two localities near Tuktoyaktuk, Northwest Territories, Canada. Material collected in 1986 and 1987 from depths between 9.7 and 22.0 m in Tuktoyaktuk Harbour and nearby Mason Bay also included juvenile stages of a second homalorhagid genus, Kinorhynchus. These constitute the first kinorhynchs described from Canada, the first homalorhagid kinorhynchs from the Beaufort Sea, and the first Kinorhynchus from the Arctic.

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Noise Exposure of Symphony Orchestra Musicians

Sabesky

Korczynski

1995

Applied Occupational and Environmental Hygiene

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Additional records on intersexuality in the isopod Mesidotea sibirica (Birula, 1896)

Korczynski¹

1988

Can. J. Zool.

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R. E. Korczynski

Occupational Health Concerns in the Welding Industry

Anesthetic Gas Exposure in Veterinary Clinics

Two new species of Pycnophyes (Homalorhagida, Kinorhyncha) from the Canadian coast of the Beaufort Sea

Noise Exposure of Symphony Orchestra Musicians

Additional records on intersexuality in the isopod Mesidotea sibirica (Birula, 1896)

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