Last year we posted two blogs on the use of computerized tomography (CT) scans of the chest for lung cancer screening — Helical CT Scans and Lung Cancer Screening1 and Low-dose CT Scans and Lung Cancer Screening in the Occupational Setting.2 Since the postings, various organizations have provided guidance with differing implications for early detection of lung cancer in workers who have been exposed to lung carcinogens in the occupational setting. This blog provides an update on scientific investigation and the various recommendations that have been made in this area.
Selected Category: Respiratory health
Lung Cancer Screening in the Occupational Setting – An Update
Categories: Cancer, reproductive and cardiovascular diseases, Respiratory health, Technology
August 29th, 2012 10:58 am ET - Simone Tramma, MD, MS; Eileen Storey, MD, MPH; David Weissman, MD
Wildland Fire Fighting Safety and Health
Categories: At-risk populations, Cancer, reproductive and cardiovascular diseases, Emergency response, Outdoor work, Personal protective equipment, Respiratory health
July 13th, 2012 4:40 pm ET - Corey Campbell and Liz Dalsey
Wildland fires continue to increase in the Western United States as hot, dry and windy conditions persist, resulting in an extended fire season and factors conducive to fires. Currently, drought conditions are prevalent in the West due to low snow-pack levels, below average rainfall, record setting temperatures and high winds, resulting in a greater than average number of fires this year. Since January 2012, over 32,000 fires have burned almost 3.3 million acres in the US. [NIFC, 2012a]. Additionally, in the last 50 years, there has been a general increase in the occurrence and severity of forest wildfires in the US, as over 5 million wildfires have burned over 206 million acres [NIFC, 2012b].
When wildland fires occur in the Wildland Urban Interface (WUI), the area where houses meet undeveloped land, they can easily become catastrophic because a large number of people, homes and structures are at-risk. When a fire ignites in these areas, a quick and aggressive response from wildland fire agencies and wildland fire fighters is required.
Worker Exposure to Crystalline Silica During Hydraulic Fracturing
Categories: Personal protective equipment, Respiratory health
May 23rd, 2012 8:52 am ET - Eric Esswein, MSPH; Max Kiefer, MS; John Snawder, PhD; and Michael Breitenstein, BS
Hydraulic fracturing or “fracking” is the process of injecting large volumes of water, sand, and chemicals into the ground at high pressure to break up shale formation allowing more efficient recovery of oil and gas. This form of well stimulation has been used since the late 1940s, but has increased substantially over the last 10 years with the advent of horizontal drilling technology that greatly improves access to gas deposits in shale. Approximately 435,000 workers were employed in the US oil and gas extraction industry in 2010; nearly half of those workers were employed by well servicing companies, which includes companies that conduct hydraulic fracturing (BLS).1
To date, most of the attention on the safety and health implications of hydraulic fracturing has been related to impacts on the environment, primarily the potential for ground water contamination by hydraulic fracturing fluids. Although worker safety hazards in the oil and gas extraction industry are well known, there is very little data regarding occupational health hazards during hydraulic fracturing operations; for example, whether workers are exposed to toxic chemicals at hazardous concentrations.
Respiratory Protection for Workers Handling Engineered Nanoparticles
Categories: Nanotechnology, Respiratory health
December 7th, 2011 10:17 am ET - Ziqing Zhuang, PhD, and Dennis Viscusi
Introduction
Each day millions of workers in the United States use National Institute for Occupational Safety and Health (NIOSH) certified respirators to reduce exposure to harmful gases, vapors, and particulate hazards. NIOSH has certification, quality assurance, and auditing procedures in place (42 CFR Part 84) that assure purchasers and users that the products they are buying/using have been tested and manufactured to strict standards. When selected, maintained and used in the context of an Occupational Safety and Health Administration (OSHA)-compliant respiratory protection program, in which personal protective technology is part of the hierarchy of controls to protect the worker, respirator users can expect that their respirator is working and reducing the amount of hazards that they could potentially breathe. However, as new hazards emerge, the applicability of the science that NIOSH uses to base respirator test methods, performance requirements, and use recommendations needs to be continually reaffirmed, updated and improved to assure the expected level of protection is provided.
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