Sinikka Vainiotalo scite author profile

Human-induced resuspension of floor dust is a dynamic process that can serve as a major indoor source of biological particulate matter (bioPM). Inhalation exposure to the microbial and allergenic content of indoor dust is associated with adverse and protective health effects. This study evaluates infant and adult inhalation exposures and respiratory tract deposited dose rates of resuspended bioPM from carpets. Chamber experiments were conducted with a robotic crawling infant and an adult performing a walking sequence. Breathing zone (BZ) size distributions of resuspended fluorescent biological aerosol particles (FBAPs), a bioPM proxy, were monitored in real-time. FBAP exposures were highly transient during periods of locomotion. Both crawling and walking delivered a significant number of resuspended FBAPs to the BZ, with concentrations ranging from 0.5 to 2 cm (mass range: ∼50 to 600 μg/m). Infants and adults are primarily exposed to a unimodal FBAP size distribution between 2 and 6 μm, with infants receiving greater exposures to super-10 μm FBAPs. In just 1 min of crawling or walking, 10-10 resuspended FBAPs can deposit in the respiratory tract, with an infant receiving much of their respiratory tract deposited dose in their lower airways. Per kg body mass, an infant will receive a nearly four times greater respiratory tract deposited dose of resuspended FBAPs compared to an adult.

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Cooking Fumes as a Hygienic Problem in the Food and Catering Industries

Vainiotalo

Matveinen

1993

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The guideline and target values for total volatile organic compound concentrations in industrial indoor environments in Finland

Tuomi

Vainiotalo

2014

Indoor and Built Environment

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As an indicator of general indoor air quality in industrial facilities, the concentrations of total volatile organic compounds (TVOC) were determined in the workplaces of 37 industry sectors during the years of 2006-2011. For comparison, the TVOC levels in office-type workplaces were also determined. Based on the results, the TVOC target and guideline values are proposed for industrial workplaces. The geometric mean and median concentrations in the industrial workplaces were 778 and 845 mg/m 3 , respectively, while the 90th, 25th percentiles were, respectively, 6616 and 270 mg/m 3 . In the office-type environments, the geometric mean and median concentrations were 55 and 50 mg/m 3 , and the 90th and 25th percentiles were 230 and 27 mg/m 3 . Based on the measured TVOC distributions and the target values previously set, we propose a TVOC target value of 300 mg/m 3 and guideline value of 3000 mg/m 3 for the general indoor air in industrial workplaces. The concentration of 3000 mg/m 3 could be achieved with reasonable measures by most industry sectors, but does not guarantee that the inhalation exposure to volatile organic compounds in the occupational environments is free from health concerns or perceived discomfort. Therefore, when reasonably achievable, a TVOC concentration close to or below the target value is recommended. This would make the TVOC levels in industrial facilities similar to those in the non-occupational indoor environments.

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Customer exposure to MTBE, TAME, C6 alkyl methyl ethers, and benzene during gasoline refueling.

Vainiotalo

Peltonen²,

Ruonakangas³

et al. 1999

Environ Health Perspect

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We studied customer exposure during refueling by collecting air samples from customers' breathing zone. The measurements were carried out during 4 days in summer 1996 at two Finnish self-service gasoline stations with "stage I" vapor recovery systems. The 95-RON (research octane number) gasoline contained approximately 2.7% methyl tert-butyl ether (MTBE), approximately 8.5% tert-amyl methyl ether (TAME), approximately 3.2% C6 alkyl methyl ethers (C6 AMEs), and 0.75% benzene. The individual exposure concentrations showed a wide log-normal distribution, with low exposures being the most frequent. In over 90% of the samples, the concentration of MTBE was higher (range <0.02-51 mg/m3) than that of TAME. The MTBE values were well below the short-term (15 min) threshold limits set for occupational exposure (250-360 mg/m3). At station A, the geometric mean concentrations in individual samples were 3.9 mg/m3 MTBE and 2. 2 mg/m3 TAME. The corresponding values at station B were 2.4 and 1.7 mg/m3, respectively. The average refueling (sampling) time was 63 sec at station A and 74 sec at station B. No statistically significant difference was observed in customer exposures between the two service stations. The overall geometric means (n = 167) for an adjusted 1-min refueling time were 3.3 mg/m3 MTBE and 1.9 mg/m3 TAME. Each day an integrated breathing zone sample was also collected, corresponding to an arithmetic mean of 20-21 refuelings. The overall arithmetic mean concentrations in the integrated samples (n = 8) were 0.90 mg/m3 for benzene and 0.56 mg/m3 for C6 AMEs calculated as a group. Mean MTBE concentrations in ambient air (a stationary point in the middle of the pump island) were 0.16 mg/m3 for station A and 0.07 mg/m3 for station B. The mean ambient concentrations of TAME, C6 AMEs, and benzene were 0.031 mg/m3, approximately 0.005 mg/m3, and approximately 0.01 mg/m3, respectively, at both stations. The mean wind speed was 1.4 m/sec and mean air temperature was 21 degreesC. Of the gasoline refueled during the study, 75% was 95 grade and 25% was 98/99 grade, with an oxygenate (MTBE) content of 12.2%.ImagesFigure 1Figure 2Figure 3Figure 4

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