Microorganism-induced or enhanced mediator release: a possible mechanism in organic dust related diseases

Microbial air quality in offices at municipal landfills

The purpose of this study was to evaluate the influence of two municipal landfills on the microbiological air quality in offices on landfill sites. The evaluation was based on the concentration levels of airborne bacteria and fungi and the identification of isolated strains. Air samples were collected with a six-stage Andersen impactor. The concentrations of bacterial aerosol ranged from 1.0 x 10(3) to 7.2 x 10(4) colony forming units (CFU)/m(3) indoors, and from 7.0 x 10 to 4.0 x 10(4) CFU/m(3) outdoors. The corresponding fungal aerosol ranges were from 2.3 x 10(2) to 7.3 x 10(3) CFU/m(3) indoors and from 2.0 x 10(2) to 1.2 x 10(4) CFU/m(3) outdoors. The concentration levels were affected by the season of the year. The study showed that both indoor and outdoor air were heavily contaminated with bacteria and fungi. The proximity of the unpaved transport route and the weighing of refuse loads contributed to the increase of bacterial and fungal aerosol concentrations significantly. The air in the offices was characterized not only by elevated concentrations of bacteria and fungi but also by high frequencies of gram-negative bacteria, along with fungal species characteristic of landfills. The quantitative and qualitative changes in the composition of the bacterial and fungal aerosol posed a possible health risk to office workers at municipal waste landfill sites.

Chemical and biological evaluation of endotoxin contamination on natural rubber latex products

Relationship between pyrogenicity and bacterial endotoxin contamination on latex products was demonstrated by chemical analysis and biological assays. In commercially available latex products' surveillance, water extracts prepared from one surgical glove and two silicone elastomer-coated Foley catheters sterilized by gamma-irradiation were obviously pyrogenic in rabbits. The induced fever was monophasic at low dose of the pyrogenic extracts and biphasic at high dose. These extracts exhibited limulus amebocyte lysate gelation activity, and induced inflammatory cytokine (interleukin-1, interleukin-6, and tumor necrosis factor-alpha) production from MM6-CA8 human monocytoid cells. These biological properties, including pyrogenicity, completely disappeared by treating the pyrogenic extracts with endotoxin-adsorbent affinity column. Limulus amebocyte lysate activity and cytokine production from MM6-CA8 cells induced by the extracts were significantly decreased by endotoxin inhibitors, an active fragment peptide of an 18-kDa cationic antimicrobial protein and a synthetic lipid A B464 analogue. Furthermore, very small amounts of 2-keto-3-deoxyoctonate and 3-hydroxy fatty acid, which are common constituents of bacterial endotoxins, were detected by gas chromatography-mass spectrometry analysis of the pyrogenic extracts. These findings clearly showed that the pyrogenicity found in these latex products originated from endotoxins contaminating the products.

Animal models of asthma: potential usefulness for studying health effects of inhaled particles

Asthma is now recognized to be a chronic inflammatory disease that affects the whole lung. Incidence appears to be increasing despite improved treatment regimens. There is substantial epidemiological evidence suggesting a relationship between the incidence and severity of asthma (e.g., hospitalizations) and exposure to increased levels of air pollution, especially fine and ultrafine particulate material, in susceptible individuals. There have been a few studies in animal models that support this concept, but additional animal studies to test this hypothesis are needed. However, such studies must be performed with awareness of the strengths and weaknesses of the currently available animal models. For studies in mice, the most commonly used animal, a broad spectrum of molecular and immunological tools is available, particularly to study the balance between Th1 and Th2 responses, and inbred strains may be useful for genetic dissection of susceptibility to the disease. However, the mouse is a poor model for bronchoconstriction or localized immune responses that characterize the human disease. In contrast, allergic lung diseases in dogs and cats may more accurately model the human condition, but fewer tools are available for characterization of the mechanisms. Finally, economic issues as well as reagent availability limit the utility of horses, sheep, and primates.

Endotoxin as a factor in adverse reactions to latex gloves

BACKGROUND

Endotoxin is an inflammatory made by gram negative bacteria that can irritate the skin, induce respiratory problems, fever, and shock. It is an adjuvant for both delayed hypersensitivity and IgE production and has been shown to magnify antigen specific mediator release. Since many of the clinical problems associated with natural latex products involve similar clinical sequelae, we investigated the possibility that latex gloves might be contaminated with endotoxin.

OBJECTIVE

To measure the endotoxin content of a variety of natural latex gloves, investigate the its distribution and origin, associated with latex proteins, and determine the particle sizes associated with its release.

METHODS

Endotoxin, protein, and allergen were measured using a quantitative kinetic Limulus assay, modified Lowry, and RAST inhibition, respectively. Particle size and density were determined using an Anderson multistage air sampler and CsCl2 gradient.

RESULTS

Endotoxin was found to be a highly significant contaminant of some latex gloves. Levels ranged from 0.09 ng to 2.8 micrograms/g of glove. Protein levels ranged from < 25 to 1150 micrograms/g of glove while allergen levels ranged from < 1 to 837 micrograms/g of glove. Endotoxin and protein eluted rapidly from the interior of the gloves tested. Greater than 70% of the endotoxin was found to be associated with particles in the < 7 microns aerodynamic diameter range. The highest levels of endotoxin were found in nonsterile examination gloves with a tendency towards powdered gloves containing more endotoxin and protein. A slurry containing cross-linked dextran through which gloves were dipped revealed very high endotoxin contamination (64 micrograms/mL) while unused cross-linked dextran has very little associated endotoxin.

CONCLUSIONS

These data demonstrate that some natural rubber latex gloves, particularly nonsterile examination gloves, are contaminated with high amounts of endotoxin and proteins. These were found mostly on the inside of gloves and were released as very small respirable particles that were not physically associated with the powder. These findings support the hypothesis that endotoxin may be responsible for some of the tissue irritation associated with latex glove use. In addition, this material may be responsible for the enhancement of delayed and immediate hypersensitivity reactions to chemicals and proteins found in these products and offers a possible explanation for the disproportionate severity of these reactions.