Publications

This page is a list of publications in reverse chronological order. Please use search or the filters to browse by research areas, publication types, and content types.

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New Methods in Ozone Toxicology: Abstracts of Six Pilot Studies

Health Effects Institute
1992
Communication 1
Ozone & Oxidants
Biological Methods

HEI Communications 1 contains abstracts for six feasibility studies that were funded under RFA 89-2: Health Effects of Chronic Ozone Inhalation: Collaborative National Toxicology Program–Health Effects Institute Studies: Pilot Studies.

The Role of Ozone in Tracheal Cell Transformation

David G Thomassen
Jack R Harkema
James D Sun
Nicole D Stephens
William C Griffith
1992
Research Report 50
Ozone & Oxidants

Ozone is a highly reactive gas that is a pervasive air pollutant at ground level. It is a major component of urban smog, forming when emissions from mobile and industrial sources interact with sunlight. When inhaled, ozone can cause cough, shortness of breath, and transient changes in breathing patterns; however the health significance of these effects is unknown. Dr. David Thomassen and coworkers examined the ability of ozone to alter the structure and growth characteristics of epithelial cells from rat tracheas in ways consistent with precancerous changes.

Mechanisms of Aldehyde-Induced Bronchial Reactivity: Role of Airway Epithelium

George D Leikauf
1992
Research Report 49
Air Toxics

Dr. George Leikauf and coworkers at the University of Cincinnati Medical Center examined the mechanism by which aldehyde inhalation can alter breathing patterns and damage cells lining the airways. Emissions from motor vehicles using gasoline and diesel fuels add to the outdoor levels of aldehydes, including formaldehyde and acrolein, which are known irritants of the respiratory tract. The investigators prposed to examine whether airway constriction due to exposure to aldehydes is caused by damage to airway cells, by the entry of white blood cells into the lungs, or both.

Effects of Ozone Exposure on Airway Epithelial Permeability and Ion Transport

Philip A Bromberg
Venkatachalam Ranga
M Jackson Stutts
1991
Research Report 48
Ozone & Oxidants

Ozone is a highly reactive gas that is a pervasive air pollutant at ground level. It is a major component of urban smog, forming when emissions from mobile and industrial sources interact with sunlight. When inhaled, ozone can cause cough, shortness of breath, and transient changes in breathing patterns; however the health significance of these effects is unknown. Dr. Philip Bromberg and coworkers at the University of North Carolina, Chapel Hill examined whether exposure to ozone alters properties of the airway epithelium.

Murine Respiratory Mycoplasmosis: A Model to Study Effects of Oxidants

Jerry K Davis
Maureen Davidson
Trenton R Schoeb
1991
Research Report 47
Nitrogen Oxides

Nitrogen dioxide is an ubiquitous air pollutant resulting from the combustion of fossil fuels. When inhaled at high levels, it reacts with and damages lung cells, including those cells that fight infection. This damage can affect breathing and may increase the risk of respiratory infections. Dr. J.K. Davis and his colleagues at the University of Alabama, Birmingham examined whether exposure to lower levels of nitrogen dioxide (less than 5 ppm) compromises mouse lung defense.

Role of Ring Oxidation in the Metabolic Activation of 1-Nitropyrene

Frederick A Beland
1991
Research Report 46
Diesel Exhaust

Nitropyrenes are a class of chemicals found in diesel engine exhaust that can form DNA adducts and are suspected animal carcinogens. Dr. Beland at the University of Arkansas for Medical Sciences examined the relationship between DNA adducts and cancer in laboratory animals treated with 1-nitropyrene, the major nitropyrene present in diesel engine exhaust. The investigator used state-of-the-art techniques to study DNA adducts formed from 1-nitropyrene under different conditions of exposure, with an emphasis on identifying unique adducts that had not been recognized before.

The Effects of Exercise on Dose and Dose Distribution of Inhaled Automotive Pollutants

Michael T Kleinman
William J Mautz
1991
Research Report 45
Air Toxics
Diesel Exhaust
Nitrogen Oxides
Biological Methods

The human health effects that result from breathing air pollutants depend on the amount of pollutant inhaled from the air (exposure dose) and the amount of inhaled material that stays in the respiratory tract (retained dose). Because the retained dose of a pollutant may damage the respiratory tract and cause disease, it is a key factor for determining appropriate government regulations for air pollutants. Drs.

Leukocyte-Mediated Epithelial Injury in Ozone-Exposed Rat Lung

Kenneth Donaldson
Geraldine M Brown
David M Brown
Joan Slight
William M Maclaren
John MG Davis
1991
Research Report 44
Ozone & Oxidants

Ozone is a highly reactive gas that is a pervasive air pollutant at ground level. It is a major component of urban smog, forming when emissions from mobile and industrial sources interact with sunlight. When inhaled, ozone can cause cough, shortness of breath, and transient changes in breathing patterns; however the health significance of these effects is unknown. Drs. Kenneth Donaldson and coworkers at the Institute of Occupational Medicine examined whether exposure to ozone activates white blood cells to release substances that can damage lung tissue.

Effects of Methanol Vapor on Human Neurobehavioral Measures

Mary R Cook
Fred J Bergman
Harvey D Cohen
Mary M Gerkovich
Charles Graham
Roger K Harris
Linda G Siemann
1991
Research Report 42
Air Pollution
Air Toxics
Emerging Technologies
Fuels & Fuel Additives

In this pilot study, Dr. Mary Cook and colleagues at the Midwest Research Institute explored how exposure to methanol vapor might affect the human nervous system. Methanol could be used as an alternative fuel, but it may lead to increased levels of methanol and formaldehyde in the atmosphere. The investigators exposed 12 young male volunteers to either filtered air or methanol vapor and assessed their response using 20 commonly used tests of sensory, behavioral, and reasoning performance before, during, and after each exposure.

Mechanisms of Nitrogen Dioxide Toxicity in Humans

Mark J Utell
Mark W Frampton
Norbert J Roberts Jr
Jacob N Finkelstein
Christopher Cox
Paul E Morrow
1991
Research Report 43
Nitrogen Oxides

Nitrogen dioxide is an ubiquitous air pollutant that can react with and damages lung cells when inhaled at high levels. Although outdoor and indoor levels of nitrogen dioxide are usually below the annual standard of 0.053 ppm, peaks can occur that reach up to 10 times this standard. Dr. Mark Utell and coworkers at the University of Rochester examined the human health impacts of higher (peak) levels of nitrogen dioxide that exceed the annual standard. The investigators exposed healthy, nonasthmatic, human volunteers to either nitrogen dioxide or filtered air for three hours.