1. Acute diesel exhaust exposure and postural stability: a controlled crossover experiment
- Author
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Jason Curran, Michael S. Koehle, Nadine M. Sinnen, Rachel Cliff, and Christopher Carlsten
- Subjects
Balance ,medicine.medical_specialty ,Diesel exhaust ,Scoring system ,Short Report ,Air pollution ,Postural stability ,010501 environmental sciences ,Toxicology ,01 natural sciences ,Exposure ,03 medical and health sciences ,lcsh:RC963-969 ,0302 clinical medicine ,Physical medicine and rehabilitation ,Crossover experiment ,medicine ,Traffic ,0105 earth and related environmental sciences ,Balance (ability) ,business.industry ,Public Health, Environmental and Occupational Health ,Crossover study ,Ambient air ,Crossover design ,lcsh:Industrial medicine. Industrial hygiene ,business ,Safety Research ,Balance impairment ,Bess ,030217 neurology & neurosurgery - Abstract
Recent epidemiological evidence connects ambient air pollutants to adverse neurobehavioural effects in adults. In animal models, subchronic controlled exposures to diesel exhaust (DE) have also showed evidence of neuroinflammation. Evidence suggests that DE not only affects outcomes commonly associated with cognitive dysfunction, but also balance impairment. We conducted a controlled human exposure experiment with 28 healthy subjects (average age = 28 years (SD = 7.1; range = 21–49); and 40% female) who were exposed to two conditions, filtered air (FA) and DE (300 μg PM2.5/m3) for 120 min, in a double-blinded crossover study with randomized exposures separated by four weeks. Postural stability was assessed by the Balance Error Scoring System (BESS), a brief, easily-administered test of static balance. The BESS consists of a sequence of three stances performed on two surfaces. With hands on hips and eyes closed, each stance is held for 20 s. “Error” points are awarded for deviations from those stances. Pre- and immediately post-exposure BESS “error” point totals were calculated and the difference between the two timepoints were compared for each of the two exposure conditions. A mixed effect model assessed the significance of the association. While our data demonstrates a trend of reduced postural stability in response to exposure to DE, exposure was not significantly associated with BESS value. This is the first study to investigate changes in postural stability as a result of exposure to DE in human subjects.
- Published
- 2018