LIPOPOLYSACCHARIDE, PSEUDOMONAS AERUGINOSA (F-D TYPE 1)
Flammability | 1 | |
Toxicity | 2 | |
Body Contact | 0 | |
Reactivity | 0 | |
Chronic | 3 | |
SCALE: Min/Nil=0 Low=1 Moderate=2 High=3 Extreme=4 |
Bacterial macromolecule with pyrogenic (fever- producing) activity used in the study of
endotoxic shock and in the activation of certain cells to produce cytokines. Bacterial
pyrogens have been given by intravenous injection as a test for pituitary- adrenal
function and have been found on occasion in tap water or detected in potable or distilled
water which has been allowed to stand for some time.
endotoxin, "cytokinase activator", lipo-polysaccharide, liposaccharide, "P. aeruginosa
macromolecule", "bacterial pyrogen", LPS
Although ingestion is not thought to produce harmful effects, the material may still be damaging to the health of the individual following ingestion, especially where pre- existing organ (e.g. liver, kidney) damage is evident. Present definitions of harmful or toxic substances are generally based on doses producing mortality (death) rather than those producing morbidity (disease, ill-health). Gastrointestinal tract discomfort may produce nausea and vomiting. In an occupational setting however, ingestion of insignificant quantities is not thought to be cause for concern. Considered an unlikely route of entry in commercial/industrial environments.
Although the material is not thought to be an irritant, direct contact with the eye may produce transient discomfort characterized by tearing or conjunctival redness (as with windburn).
The material is not thought to produce adverse health effects or skin irritation following contact (as classified using animal models). Nevertheless, good hygiene practice requires that exposure be kept to a minimum and that suitable gloves be used in an occupational setting. The material may accentuate any pre-existing skin condition. Open cuts, abraded or irritated skin should not be exposed to this material.
Inhalation may produce health damage*. The material is not thought to produce respiratory irritation (as classified using animal models). Nevertheless inhalation of the material, especially for prolonged periods, may produce respiratory discomfort and occasionally, distress. Respiratory sensitization may result in allergic/asthma like responses; from coughing and minor breathing difficulties to bronchitis with wheezing, gasping. Persons with impaired respiratory function, airway diseases and conditions such as emphysema or chronic bronchitis, may incur further disability if excessive concentrations of particulate are inhaled.
There is some evidence that inhaling this product is more likely to cause a sensitization reaction in some persons compared to the general population.
Principal routes of exposure are usually by skin contact/absorption and inhalation of generated dust. Bacterial lipopolysaccharides are the active components of gram-negative bacterial endotoxins and have been studied principally to elucidate pathophysiological aspects of endotoxin shock, a profound life-threatening consequence of bacterial sepsis. Endotoxins are not secreted but are released following cell disruption. They are less potent and less specific than exotoxins and do not form toxoids. The polysaccharide unit (somatic O antigen) is responsible for antigenicity and the phospholipid moiety (lipid A) is the source of toxicity. Host-cell (e.g. B lymphocytes, macrophages) activation by lipopolysaccharide to produce functional differentiation may also be responsible for pluropotential immunostimulatory activity. Such activation may result in a cascade of hormone-active lymphokines and monokines (including interferons alpha-, beta- and gamma-, interleukins 1 and 6, tumour necrosis factor, platelet activating factor and procoagulant tissue factor).The capacity of endotoxin lipopolysaccharides and/or their active lipid A component to initiate a variety of biochemical cell activation pathways (PKC, cAMP-dependent protein kinase, arachidonate metabolism, protein myristolation and activation of G-proteins) has been exploited in the study the mechanics of cell-activation.