Irritancy analysis

Pereira, E.M. et al., Tabebuia avellanedae naphthoquinones activity against methi-cillin-resistant staphylococcal strains, cytotoxic activity and in vivo dermal irritability analysis, Ann. Clin. Microbiol. Antimicrob., 22, 5, 2006. 

M. J. Tomlinson and C. L. Wilkins, Evaluation of a semi-automated multidimensional gas chromatography-infared-mass spectrometry system for irritant analysis , J. High Resolut. Chromatogr. 21 347-354 (1998). 

More recent publications on sulfosuccinates have confirmed the minimal or close to zero skin and eye irritation caused by these products. In a general screening of product safety evaluation methods the authors [16] rejected the sulfosuccinate from further consideration in the statistical analysis of experimental data (variance analysis) because the product had not shown any irritation in the Duhring-Chamber test. The sulfosuccinate (based on fatty alcohol ethoxy late) was tested in a screening with 14 other surfactants, namely, alkyl sulfates, sulfonates, ether sulfates, and a protein fatty acid condensation product. 

Cronin MTD. The use of cluster significance analysis to identify asymmetric QSAR data sets in toxicology. An example with eye irritation data. SAR QSAR Environ Res 1996 5 167-75. 

Dermal Effects. Skin irritation was noted in wildlife officers at the RMA after they handled sick or dead ducks without gloves (NIOSH 1981). Although the investigators concluded that diisopropyl methylphosphonate contributed to the local effects, a number of other compounds were present. Analysis of the pond water indicated the presence of a number of organic and inorganic contaminants, including diisopropyl methylphosphonate (11.3 ppm) aldrin (0.368 ppm) dieldrin (0.0744 ppm) dicyclo-pentadiene, bicycloheptadiene, diethyl benzene, dimethyl disulfide, methyl acetate, methyl isobutyl ketone, toluene, and sodium (49,500 ppm) chloride (52,000 ppm) arsenic (1,470 ppm) potassium (180 ppm) fluoride (63 ppm) copper (2.4 ppm) and chromium (0.27 ppm). Because of the presence of numerous compounds, it is unclear whether diisopropyl methylphosphonate was related to the irritation. 

Skin irritation was noted in wildlife officers at the RMA who handled dead or sick ducks without gloves. Analysis of the pond water indicated the presence of a number of organic and inorganic contaminants, including diisopropyl methylphosphonate. Although the investigators concluded that diisopropyl methylphosphonate contributed to the effects, a number of other compounds were identified in the pond, the presence of which makes it unclear whether diisopropyl methylphosphonate was related to the irritation (NIOSH 1981). 

Transfers of materials across tissue surfaces exposed to the atmosphere are critical to life processes for humans, other animals, and plants. Thus, living things are particularly susceptible to harm by airborne irritants or toxins. The risk of such harm has been a major motivation for the development of techniques for the analysis of atmospheric dispersion. 

Toxicological properties Acute toxicity (by two routes of admission) Skin irritation Eye irritation Skin sensitization 28 days subacute toxicity Ames test In vitro metaphase analysis (or mouse micronucleus test)... 

The authors wanted to select indicators that specifically tap melancholic depression. To evaluate this construct, a principal components analysis of the joint pool of K-SADS and BDI items was performed. Two independent statistical tests suggested a two-component solution, but the resulting components appeared to reflect method factors, rather than substantive factors. Specifically, all of the BDI items loaded on the first component (except for three items that did not load on either component) and nearly all of the K-SADS items loaded on the second component. In fact, the first component correlated. 98 with the BDI and the second component correlated. 93 with the K-SADS. Ambrosini et al., however, concluded that the first component reflected depression severity and the second component reflected melancholic depression. This interpretation was somewhat at odds with the data. Specifically, the second component included some K-SADS items that did not tap symptoms of melancholia (e.g., irritability and anger) and did not include some BDI items that measure symptoms of melancholia (e.g., loss of appetite). 

Hematological Effects. Routine blood parameters (hemoglobin, erythrocyte, leukocyte and thrombocyte levels) measured in 11 hexachloroethane workers did not differ from those of the controls (Selden et al. 1994). Plasma hexachloroethane levels in these workers, who wore protective equipment, were 7.3 + 6.04 pg/L at the time of the hematological analysis and 0.08 0.14 gg/L before production resinned (Selden et al. 1993). Mild skin and mucous membrane irritation were reported in the exposed group, suggesting that exposure may have been through either the inhalation or dermal routes of exposure. 

Rat and mouse lethality data from the well-conducted study of Zwart et al. (1990) also suggest that Haber s law is valid for phosgene. The study by ten Berge et al. (1986) has shown that the concentration-exposure-time relationship for many irritant and systemically acting vapors and gasses can be described by the relationship Cnxt=k. When the 10- to 60-min rat LC50 data are utilized in a linear regression analysis a value of the exponent, n, of 0.93 is obtained. The mouse 10- to 60-min lethality data yield a value of 1.3 for n. 

D. Analysis of data The data from the irradiated and nonirradiated sites are evaluated separately. The scores from erythema and eschar formation, and edema at 24, 48, and 72 hr, are added for each animal (six values). The six values are then divided by 3, yielding six individual scores. The mean of the six individual animal irritation scores represents the mean primary irritation score (maximum score = 8, as in the primary dermal irritation study). This method was developed after a human model had been developed. 

Whatever the specific need or application, the use of a tier testing scheme can significantly reduce, and in some cases eliminate, the use of animals. An example of a decision-making tree and its applications in ocular testing is provided in Figure 17.3. First, all available data about a test material (or related compounds), including chemical characteristics, historical data, other known toxicity, and the like, are collected. Analysis of these data could provide a strong indication of irritation potential, in which case the material would be labeled a presumed positive and... 

In that test tube, he now saw, the poison uric acid could exist in solution or as a precipitate. Its condition depended on pH and temperature, just as in an ordinary test tube, and in either event, whether in the blood or tissues, it produced disease. That deposits in the tissues would cause irritation was obvious enough, but the mechanism by which dissolved uric acid worked its havoc required some logical analysis. Since his migraine pain was aggravated by stooping and alleviated by applying pressure to the arteries of the neck, Haig deduced the immediate cause of the headache had to be elevated blood pressure. 

Great difficulties were experienced in laboratories trying to extend Tsvett s approach. Activated charcoal, Cy alumina, and silica gels provided a range of adsorbents with different properties. Irreproduc-ibility between different batches of adsorbent were almost inevitable, and very irritating, before the theoretical complexities of adsorption analysis were understood. Operationally, there were serious difficulties in the nondestructive monitoring of the elution of colorless solutes like amino acids. 

Respiratory Effects. Pleural effusions and alveolar infiltrations were noted in a man who had washed his hair with an unknown amount of diesel fuel (Barrientos et al. 1977). The relative contributions from inhalation and dermal exposure could not be distinguished in this case. There was no throat irritation in six volunteers following a 15-minute exposure to a concentration reported to be 140 mg/m of deodorized kerosene vapor (Carpenter et al. 1976). The authors used a hot nichrome wire for the volatilization of their test material and reported that the concentration was probably the "highest attainable concentration at which vapor analysis is representative of liquid analysis." The air saturating concentration of kerosene is considered to approximate 100 mg/m (room temperature and 760 mmHg) and is dependent on the constituents of the mixture. 

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