Lung tissue

Paraffins. Methane and ethane are simple asphyxiants, whereas the higher homologues are central nervous system depressants. Liquid paraffins can remove oil from exposed skin and cause dermatitis or pneumonia in lung tissue. Generally, paraffins are the least toxic class of hydrocarbons. [Pg.370]

The degree to which inhaled gases, vapors, and particulates are absorbed, and hence their potential to produce systemic toxicity, depends on their solubihty in tissue fluids, any metaboHsm by lung tissue, diffusion rates, and equiUbrium state. [Pg.230]

Physiological Effects. The sulfur and nitrogen mustards act first as cell irritants and finally as a cell poison on all tissue surfaces contacted. The first symptoms usually appear in 4—6 h (4). The higher the concentration, the shorter the interval of time between the exposure to the agent and the first symptoms. Local action of the mustards results in conjunctivitis (inflammation of the eyes) erythema (redness of the skin), which may be followed by blistering or ulceration and an inflammatory reaction of the nose, throat, trachea, bronchi, and lung tissue. Injuries produced by mustard heal much more slowly and are much more Fable to infection than bums of similar intensity produced by physical means or by other chemicals. [Pg.398]

Reactive halides and anhydrides. Substances like acid chlorides, low molecular weight anhydrides and some inorganic halides (e.g. PCI3) can be highly toxic and lachrymatory affecting mucous membranes and lung tissues. Utmost care should be taken when working with these materials. Work should be carried out in a very efficient fnme cupboard. [Pg.5]

Components/ mechanism of action Light-activated polyethylene-glycol (PEG) polymer sealant for lung tissue. Monomeric (2-octyl cyanoacrylate) formulation tissue adhesive for skin closure. Bovine albumin cross-linked with gluteraldehyde tissue adhesive/sealant. [Pg.1107]

In the past number of years a number of studies have shown that in a variety of diseases there is a significant oxidation of Met residues to Met(O) in specific proteins that results in a loss of biological activity. These diseases include cataracts, rheumatoid arthritis, adult respiratory distress syndrome and emphysema. The most convincing evidence that Met(O) in proteins may be involved in the etiology of a pathological condition comes from studies with a-l-PI. It is well accepted that a-l-PI is inactivated upon oxidation of its Met residues. A decreased activity of a-l-PI in lung tissue that would result in an increased elastase activity has been associated with pulmonary emphysema. In patients who have a... [Pg.866]

B. Active elastase +, 1 or no a,-AT -> Active elastase Proteolysis of lung -> Tissue damage... [Pg.589]

When asbestos is handled, microscopic fibers become suspended in the atmosphere and are breathed into the lungs. There, they lodge in lung tissue, where they remain for many years, causing irritation that eventually leads to loss of lung function. Asbestos, which was once used extensively as insulation, is now recognized as a significant health hazard. [Pg.618]

Radon-222 is an unstable nuclide that has been detected in the air of some homes. Its presence is a concern because of high health hazards associated with exposure to its radioactivity. Gaseous radon easily enters the lungs, and once it decays, the products are solids that remain embedded in lung tissue. Radon-222 transmutes to a stable nuclide by emitting a and P particles. The first four steps are a, a, P, p. Write this sequence of nuclear reactions and identify each product. [Pg.1568]

SCHMITZ H H, POOR c L, WELLMAN R B and ERDMAN J w Jr (1991) Concentrations of selected carotenoids and vitamin A in human liver, kidney and lung tissue. J Nutr 121(10) 1613-21. [Pg.126]

Sommerburg, O. et al.. Cytotoxic and genotoxic effects due to beta-carotene cleavage products possibly formed in inflamed lung tissue. Free Rad. Biol. Med., 36, S56, 2004. [Pg.192]

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