ABSTRACT:The effect of clay concentration on the oxygen permeability and optical properties of a modified poly-(vinyl alcohol) (PVOH) was studied. Sodium montmorrilonite (MMT-Na ϩ ), at a concentration of 10 wt %, was found to decrease the oxygen permeability of the PVOH below 0.001 cc ⅐ mil/m 2 /day at 55% relative humidity. This low permeability is attributed to the strong interaction between PVOH and clay, as evidenced by an increase of more than 10°C in the glass transition temperature at this concentration. Transmission electron microscopy images show the high level of clay exfoliation that results from the strong affinity to PVOH. Haze and clarity were optical properties that changed significantly with increasing clay concentration.These values were 0.4 and 100%, respectively, in the absence of clay, but became 80 and 23% with 10 wt % MMT-Na ϩ . Transmission did not change as considerably, reaching a low of 73% with a clay concentration of 10 wt %. The ability to reduce the oxygen permeability of PVOH-based systems at elevated humidity may prove advantageous for applications in food and flexible electronics packaging, where moisture sensitivity currently prevents them from being used.
To address the lack of research on the pulmonary health effects of ozone
and fine particulate matter (≤ 2.5 μm in aerodynamic
diameter; PM2.5) on individuals who recreate in the Great Smoky Mountains National Park (USA) and
to replicate a study performed at Mt. Washington, New Hampshire (USA), we
conducted an observational study of adult (18–82 years
of age) day hikers of the Charlies Bunion trail during 71 days
of fall 2002 and summer 2003. Volunteer hikers performed pre- and posthike
pulmonary function tests (spirometry), and we continuously monitored
ambient O3, PM2.5, temperature, and relative humidity at the trailhead. Of the 817 hikers
who participated, 354 (43%) met inclusion criteria (nonsmokers
and no use of bronchodilators within 48 hr) and gave acceptable and
reproducible spirometry. For these 354 hikers, we calculated the posthike
percentage change in forced vital capacity (FVC), forced expiratory
volume in 1 sec (FEV1), FVC/FEV1, peak expiratory flow, and mean flow rate between 25 and 75% of
the FVC and regressed each separately against pollutant (O3 or PM2.5) concentration, adjusting for age, sex, hours hiked, smoking status (former
vs. never), history of asthma or wheeze symptoms, hike load, reaching
the summit, and mean daily temperature. O3 and PM2.5 concentrations measured during the study were below the current federal
standards, and we found no significant associations of acute changes
in pulmonary function with either pollutant. These findings are contrasted
with those in the Mt. Washington study to examine the hypothesis
that pulmonary health effects are associated with exposure to O3 and PM2.5 in healthy adults engaged in moderate exercise.
The consensus process was applied to addressing a public health topic; this was a novel endeavor. The following question was addressed: What role, if any, should sentinel health events play in the decision-making process for identifying the effects of environmental exposure? The panel developed three levels of sentinel health events lists: those that are clearly identifiable, those that are potential signs, and those that are indicators of body burdens. Additionally, the panel developed several salient statements regarding the principles of environmental health surveillance and, especially, recommendations for future research.
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