Comparison of facemask characteristics with user assessment of comfort

Purdy, Matthew

01 January 2019

According to the Occupation Safety and Health Administration (OSHA), an estimated five million workers are required to wear respirators in over one million workplaces in the United States. Occupational respiratory diseases are strongly correlated to inhalation exposure to causative agents. Wearing a respirator has the potential to reduce worker exposure to safe concentrations. Many brands of N95 filtering facepiece respirators (FFRs) are available with various designs and sizes. Studies have indicated that respirator use is often low in many industries. Comfort is a factor that workers use both directly and indirectly to decide if they will wear an FFR. The purpose of this study was to evaluate ten N95 FFRs to determine their physical properties. Physical properties were compared to the perceived comfort ratings given by study participants to determine the strength of the associations. Six FFRs were evaluated using qualitative surveys (n=50). Physical properties of FFRs that were evaluated include: breathability, pressure drop, surface area, water vapor transmission and weight. Several methods were used to evaluate the N95 physical properties. A modified American Society for Testing and Materials (ASTM) method was used to measure water vapor transmission. A pass through column apparatus was used to evaluate pressure drop through each sample at 0.6, 1.6, 2.6, and 3.6 LPM. The N95 FFRs were scanned and evaluated using Adobe Photoshop to determine surface area. A temperature probe was used to measure the influence of an exhalation valve on internal temperature. An inverted microscope was used to determine thickness, a balance was used to determine sample weight. Density could then be used to solve for solidity. Physical properties varied between N95 FFRs. Between two similar FFRs, the exhalation valve was attributed to a 0.59 oC lower temperature in the FFR with and exhalation valve. Pressure drop values at a 3.6 LPM applied flow rate varied between 4.55-12.77 mm H2O. The water vapor transmission between masks was very small with a range of 0.16 mg H2O. Solidity values varied between 0.02 and 0.07, surface area from 134.95- 313.87, and total weight from 9.47-109.41 g. The total scores varied from 10.76 to 14.26 (out of 18). Survey participants were asked to evaluate the N95 FFRs on the basis of fit, temperature, and ease of breathing using a Likert scale of 1-6. Six of the N95 FFRs were worn by participants. Based on participant rankings, the Honeywell 4200 had the highest total score, followed by the Moldex 4200, 3M Aura 9210+, 3M 8511, Moldex 2200, and 3M 8210. The scores for fit varied from 3.16-4.36, temperature 3.66-5.24, and ease of breathing 3.94-4.66. Fit was found to be the most important in terms of discomfort followed by temperature, and ease of breathing. The Kruskal-Waillis test results indicate that there is a significant difference in the median scores between masks types for fit, temperature, and ease of breathing (p<0.001). However, participants’ rankings of fit, temperature, and ease of breathing were not strongly related to a physical property. For example, the Spearman’s correlation coefficient between pressure drop and ease of breathing score was 0.2, and 0.6 for water vapor transmission and temperature. Neither Spearman’s coefficient was statistically significant (p=0.7, p=0.2). In general, the differences in physical properties between N95 FFRs were too small for participants to perceive. The magnitude of difference in physical properties and short use duration and sedentary activity level are likely responsible for this finding.

Genotoxicity of 4-monochlorobiphenyl in the lung of transgenic male 344 Fisher rats

Maddox, Catherine Michael

01 January 2007

The mutagenicity of 4-monochlorobiphenyl (PCB3) in the liver of male 344 Fisher transgenic rats has been established by Lehmann et al (2007). The evidence that PCBs can be deposited in the lung and bound to a protein creates a need to assess the effect of mutagenic effect of PCBs in the lung. The goal of this study was to assess the mutagenicity of PCB3 in the lung of male 344 Fisher transgenic rats. Big Blue® 334 Fisher transgenic rats were given weekly intraperitoneal injections with corn oil as a negative control, 3-methylcholanthrene (3-MC) as a positive control, PCB 3 or 4-hydrox-PCB 3 (4-OH- PCB 3) weekly for 4 weeks. Lungs were removed and analysis performed to determine mutant frequency, mutation spectra, and pathological changes. There was a 2-fold increase in mutant frequency after treatment with PCB 3 and 4- OH-PCB 3 that was not statistically significant. There were changes in the mutation spectra after treatment with PCB 3 or 4- OH-PCB 3. This study shows that PCB 3 and 4-OH-PCB 3 may create mutations in the lung following exposure.

Evaluation of shaker dust collector for use in a swine farrowing barn

Sawvel, Russell

01 July 2014

A shaker dust collector was evaluated to 1. determine filter capacity in terms of mass loading, pressure drop, airflow, and runtime; 2. determine particle collection efficiency by size prior to and following repeated loadings. A shaker dust collector was setup in the laboratory to take in contaminated air, collect dust, and exhaust treated air. For each loading test, Arizona road dust (~1 to 200 μm) was introduced into the airstream entering the dust collector at an emission rate and duration equivalent to 3-months in a swine barn in winter. Filter pressure drop and exhaust velocity pressure were measured throughout loading. Filter collection efficiency was tested using polydisperse solid glass microspheres (~1 to 10 μm) and measured with an aerodynamic particle sizer at the startup and end of loadings. Cleaning cycles were run between loading tests. Overall efficiency was 44% for new filter, and ranged from 27% for 1-μm particles, increasing to 96% for 10-μm particles. Collection efficiency for loaded filter was 99% overall, and 99% over the range of 1 to 10-μm particles. Following cleaning, overall efficiency was 91%, and 91% for 1-μm particles, increasing to 99% for 10-μm particles. Exhaust airflow decreased linearly with pressure drop (r2=0.99) for all three loading tests. At shutdown, system airflows were approximately 700 cfm. Significant recovery of filter residual pressure was observed following primary and secondary cleanings (p<0.001). High removal efficiency was achieved after an initial loading period. The shaker dust collector filter is anticipated to be sufficient to treat air continuously in a swine barn over a 3-month winter period. The engineering control system is recommended for further testing to improve indoor air quality inside a Midwestern farrowing barn during winter.

Assessment of regional fungal concentrations and diversity and their possible association with self-reported health effects among a national sample of office building occupants in the United States

Messer, Shawn Arden

01 August 2018

Data from the Environmental Protection Agency’s Building Assessment and Survey Evaluation (BASE) study was analyzed for culturable fungi detected in air samples collected from 100 office buildings located among ten climate regions in the United States. Fungi identified and quantified in the study were evaluated in indoor and outdoor environments. Evenness of species for both summer and winter, and the diversity and similarity indices of species were calculated between climate region groups in order to observe potential climate-based differences in the fungal microbiome. Respiratory and neurological health symptoms of study building occupants (n = 4,326) were self-reported by questionnaire, and were analyzed in order to assess seasonal and climate differences.

Occupational health and safety survey in small-scale clothing enterprises in Gaborone, Botswana

Gabe, Sanyi George

January 2010

Thesis (MPH) -- University of Limpopo, 2010. / Small-scale enterprises and the informal sector constitute the fastest growing economic sectors and represent the most realistic form of employment creation. In Botswana, the number of informal businesses increased by 72% from 1999 to 2007, an important proportion involved in clothing manufacture. These businesses are vulnerable and prone to concern themselves with survival rather than improving health and safety and as such health risks remain high in their workplaces. The aim of this study was to assess the extent to which small-scale clothing industries in the Gaborone area of Botswana comply with occupational health and safety standards and to make recommendations for the improvement of employee health and safety and productivity. A quantitative cross-sectional survey of 36 small enterprises was conducted and data was collected using an inspection checklist adapted from the ILO's guidelines on Safety, Health and working Conditions inspections. Results showed that the enterprises employed between I – 8 persons with two-thirds (59.4%) employing 1 - 2 persons indicating that small businesses in clothing manufacture comprised mostly self-employed persons. Predominantly females (2 - 1 female to male ratio) were employed thus confirming the findings of the 2007 informal sector survey in Botswana which showed that 67.6% informal businesses were owned by females. However, females are most at risk from health problems inherent in clothing manufacture particularly as studies show that musculoskeletal disorders that cause long-term disabilities and absenteeism are more common among them than males. Work processes in small-scale clothing manufacture was found to be labour-intensive, involving long hours of standing particularly for workers designing, cutting and ironing, and sitting for machinists who do sewing. Work also involved lifting of heavy loads, was repetitive with sustained use of force and high-paced. Workers operated for 5 hours in the morning and 3-5 hours in the afternoon continuously with only a I-hour lunch break without short breaks to rest thus increasing fatigue, risk of injuries and musculoskeletal disorders. Workbenches and chairs were not appropriate for the nature and type of work, causing workers to adopt awkward postures. The businesses were generally complying with requirements for cleanliness and provision of sanitary conveniences but ventilation and lighting were inadequate. None of the workplaces provided localized lighting and in most cases windows were too small to provide natural lighting and ventilation for normal airflow. Most workplaces were not complying with electrical installation standards. 63.9% of the workplaces had entangled wire connections and live wire terminals in the work area living workers exposed to serious injuries electrocution and burns from possible fire. Emergency preparedness of the workplaces was also poor as non-had a first aid kit; only 8.3% had fire extinguishers and most had no emergency exit but only one door serving as entrance and exit. In addition workplaces were not complying with standards for the use of protective clothing and equipment and the maintenance and guarding of machines. Moreover, employers were not complying with their legal obligation to identify, remove or mitigate hazards in the workplace and did not train nor supervise employees in safe work procedures and use of workstations and machinery. This survey revealed that small-scale clothing manufacture enterprises in the Gaborone area of Botswana were in the most not complying with universal occupational health and safety standards leading to a precarious state of workplace health and safety conditions. These findings justify the need to implement such improvements as reorientation of the factories inspection system, redesign of workbenches and chairs, granting employees short breaks to rest and grouping of businesses into small regional committees to facilitate training in occupational health and safety procedures and their use, and the identification and implementation of simple solutions for workplace health and safety problems.

Occupational Health

Clothing Enterprises

Noise exposure for bus drivers in an Iowa City transit system

Pierson, Austin Isamu

01 August 2018

General noise regulations and guidelines protect workers against 8-hour time-weighted average noise exposures > 85-90 dBA that can cause health outcomes and noise induced hearing loss (NIHL), but the bus transportation industry has guidelines limiting lower noise exposures > 75-80 dBA to reduce safety hazards, including distraction and poor communication. These hazards can create dangerous driving conditions, especially for urban bus drivers, potentially causing a collision. Further research was necessary to characterize U.S. urban transit bus driver noise exposures to assess whether they exceeded 75, 80, 85, and 90 dBA, time-weighted, and to identify statistically significant noise exposure risk factors for this local transit system. Time-weighted average noise exposures collected from the local transit system, a small urban bus system serving a university in Iowa City, showed the majority of drivers did not exceed 85 dBA due to short shift times, but these drivers may have been at a safety risk for distractions and poor communication due to loud environments > 75-80 dBA. The driver's AM/FM radio was a statistically significant risk factor (p = 0.004) affecting driver-shift TWA noise exposures. Projected noise exposure calculations showed that with bus driver shifts greater than or equal to 8 hours, the TWA noise exposures measured may exceed 85 dBA. Actual 8- hour time-weighted average noise exposures using sequential bus driver shifts did not exceed 90 dBA.

An epidemiological analysis of a university threat assessment team case load

Cao, Yanyan

01 July 2011

No description available.

Measuring bioaerosol concentrations generated from toilet flushes during hospital-based patient care

Knowlton, Samantha Dawn

01 May 2017

Infectious diseases account for over 15 million deaths worldwide. Those who are at greatest risk of contracting an infectious disease are immunocompromised. These individuals may be admitted to a healthcare-based setting where they may become infected. In the United States, 1.7 million immunocompromised individuals contract a healthcare-associated infection which lengthens stay, increases medical costs, and puts lives at stake. The transmission routes for these infections occur from direct contact with healthcare staff and contaminated surfaces. Indirect contact methods, such as bioaerosols suggest, but are not a well-examined route of infection. One possible bioaerosol generator includes the flushing of loose stools in toilets from infected patients. To date, no study has investigated the particle or bioaerosol changes in the air resulting from toilet flushing loose fecal wastes in a healthcare setting. The purpose of this study was to investigate changes in the air before and after a toilet flush to support hypotheses that toilets can produce an aerosol containing viable microorganisms, potentially spreading infectious disease. Particle and bioaerosol concentrations were measured in hospital bathrooms across 3 sampling conditions; no waste no flush, no waste with flush, and fecal waste with flush. Particle concentrations were measured with a particle counter 3 minutes before a flushing event and throughout the bioaerosol collection period. Bioaerosol concentrations were measured with BioStage impactors fixed on a sampling cart at distances of 0.15, 0.5, and 1 m that was placed in front of a toilet. For each sampling trial, 3 time measurements were recorded after a flushing event (i.e., 5, 10, 15 minutes). Particle concentrations measured before and after the flush were found to be significantly different in 0.3 (p-values= 0.002, 0.002, 0.015), 0.5 (p-values= 0.002, 0.002, 0.018), 1 (p-values= 0.003, 0.003, 0.027), and 3 µm (p-values= 0.016, 0.032) size bins of the no waste with flush and 0.3 (p-values= 0.009, 0.007, 0.007), 0.5 (p-values= 0.018, 0.006, 0.004), 1 µm (p-values= 0.023, 0.013,) size bins of the fecal waste with flush conditions. Bioaerosol concentrations measured in the no waste no flush and fecal waste with flush were found to be significantly different (p-value= 0.005). However, the bioaerosol concentrations measured were not significantly different across time (p-value= 0.977) or distance (p-value= 0.911). From the study, we concluded that toilets in this unit produce particles when flushed. The particles aerosolized include microorganisms remaining from previous use or from loose fecal wastes. Differences in bioaerosol concentrations across conditions also suggest that toilets flushed containing wastes may be a likely source of bioaerosols that could allow transmission of infectious microorganisms. No observed differences across time and distance of bioaerosol concentrations suggests that generated aerosols quickly diffuse in the air. Since this study is the first to quantify particles and bioaerosols produced from flushing a hospital toilet, future studies are needed for comparison and for intervention development.

Measuring manufacturing assembly worker task duration with radio frequency identification technology

Kersten, Joshua Todd

01 May 2017

Musculoskeletal disorders (MSDs) are common among working populations, especially manufacturing workers, with exposure to non-neutral postures frequently cited as a risk factor. However, the magnitudes and precision of risk estimates vary between field-based studies, as it is difficult to continually follow and sample large study samples with time-varying exposures to non-neutral postures. Development of a low cost location-tracking system may help overcome this methodological limitation. The purpose of this thesis was to explore the utility of radio frequency identification (RFID) technology for extracting task-specific exposure data from full-shift measurements of upper arm posture as machine-paced assembly workers rotated job tasks. Full-shift upper arm posture and movement velocities were recorded using inertial measurement units (IMUs) across up to 15 consecutive working days from among a sample of 8 participants. Workers scanned RFID tags with RFID readers at job task workstation as they started and finished performing a task, effectively measuring task duration. At the end of each shift, workers self-reported task duration estimates in a diary. Self-report and RFID-based measurement bias and agreement range were estimated using Bland-Altman analyses. Fully nested, random-effects analysis of variance (ANOVA) models were used to estimate the relative contribution of components of exposure variance to overall posture and movement exposure variance. The study observed a slight measurement bias for self-reported task duration estimates when comparing both incomplete (i.e., single measurement from either self-report or RFID methodology) and complete task observation data (i.e., measurements from both methodologies), while the RFID system displayed a similar bias when comparing only complete task observation data. However, regardless of the data set, a large measurement agreement range was observed. The between-subjects and between-tasks-within-day (and within-subject) variance components generally contributed the most to total exposure variance, with the between-day-within-subject component contributing little if nothing at all. Depending on velocity level summary measure, between 65.7% and 84.5% of the total exposure variance was associated with the between-tasks-within-day (and within-subject) component. The RFID system did prove useful in extracting task-specific exposure data from full-day IMU measurements. However, there were unexpected instances in which workers failed to follow RFID system user protocol and generate irregular timestamp sequences. Future research and development is encouraged to refine the pairing of RFID technology with IMUs for ergonomic exposure assessment. Specifically, an active RFID system with adjustable read range could potentially overcome the limitation of requiring that a worker place the RFID tag within inches of the low frequency RFID reader to perform a scan.

Effect of deposited polydispersed particles on respirable cyclone penetration

Leach, William Andrew

01 May 2013

Workplace aerosol sampling has been used to assess exposure to airborne materials that are known to cause adverse health effects in the respiratory system. Respirable cyclones are a common instrument used to monitor occupational exposures to respirable particles and are designed to have a penetration similar to the definition for the respirable fraction. However, deposited particles inside the walls of the cyclone may influence the penetration of cyclones. The aim of this study was to determine if there is a difference in collection efficiencies of a clean SKC 37-mm aluminum cyclone compared to a SKC 37-mm aluminum cyclone deposited with polydispersed dust. Glass beads (Count Median Diameter CMD 3.3 µm, Geometric Standard Deviation GSD 1.7) were used to test a clean cyclone. The cyclone was then loaded by sampling with one of three dust types individually for three hours at concentrations of at least 3 mg/m3: Arizona Road Dust (CMD 1.04 µm, GSD 1.57), organic dust (CMD 2.90 µm, GSD 1.77), and titanium oxide (CMD 0.85 µm, GSD 1.28). After the cyclone was deposited with dust without cleaning, glass beads were used to retest the penetration. Particle penetration was measured using the Aerosol Particle Sizer (APS, TSI 3321). Particles depositing on the walls of the cyclone caused a shift in the penetration compared to clean samplers. When the cyclone was loaded with Arizona Road Dust, the penetration of particles increased as much as 5% at 3.5 µm. Depositing with Organic Dust increased particle penetration as much as 4% at 3.5 µm. Depositing did not occur with Titanium Oxide and did not significantly particle penetration. Sampling with cyclones deposited with polydispersed particles can cause sampling errors by oversampling, and therefore overestimate the respirable concentration relative to a clean sampler. To counteract sampling errors from deposited particles would require the cyclone to be thoroughly dried and clean before sampling.