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Two-year skin carcinogenicity studies were conducted in C3H mice to assess the effects of irritation and selected compositional parameters on the carcinogenic potential of four petroleum liquids. Three samples (lightly refined paraffinic oil, LRPO; lightly hydrodesulfurized specialty oil, LHSO; jet fuel, JF) can be generically classified as middle distillates, i.e. distillation occurs between 350 and 700 degrees F (175-370 degrees C). The fourth sample was a Steam Cracked Gas Oil (SCGO) that distilled within the same range. In studies that assess the effects of irritation on tumorigenicity, LRPO was tested undiluted or was diluted to 50% and 25% in either mineral oil (which eliminated irritation of the skin) or toluene (which did not). Undiluted LRPO elicited tumors in 8% of the mice. Both dilution procedures eliminated tumorigenic potential. Thus, it was possible to maintain a visible level of skin irritation equivalent to that elicited by undiluted LRPO without inducing tumors. SCGO elicited a chronic irritant state grossly equivalent to LRPO but was not tumorigenic. Jet Fuel A (JF) was tested undiluted using both a standard skin painting protocol and an intermittent dosing schedule in which treatment was suspended periodically to allow skin irritation to resolve. The standard treatment protocol of JF resulted in both marked skin irritation and tumors in 44% of the mice. However, using the intermittent schedule, the tumor yield was reduced to 2%. Collectively these data demonstrate that tumor formation is not a necessary sequelae to chronic skin irritation. Conversely, prevention of a marked chronic irritant state was accompanied by decreased tumor yield. These data suggest that the chronic irritant state may be a necessary but not sufficient condition for tumor formation. In studies to assess the effects of compositional parameters, a lightly hydrodesulfurized specialty oil (LHSO) similar to LRPO but refined to have negligible levels of sulfur compounds (3 ppm), elicited chronic irritant and tumor responses (10%) similar to LRPO. Thus, the level of sulfur compounds does not appear to affect the tumorigenic activity for products in this boiling range. The SCGO which did not produce tumors contained only aromatic hydrocarbons, a finding consistent with previous reports that aromatics may not be the source of tumorigenic potential in petroleum fractions boiling between 350 and 700 degrees F (175-370 degrees C).
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PMID:Evaluation of the contribution of chronic skin irritation and selected compositional parameters to the tumorigenicity of petroleum middle distillates in mouse skin. 837 36

The role of skin irritation and other factors on the tumorigenic activity of petroleum middle distillates (PMDs) in mice was examined in a comprehensive research program. The program culminated in a 2-year dermal carcinogenicity study which compared the effects of equal weekly doses of irritating and nonirritating PMDs. Modified Ames mutagenicity studies and three- to seven-ring polycyclic aromatic compound (PAC) analyses indicated that the mutagenic activity of PMDs was correlated to PAC content. In subchronic and subacute studies, PMDs produced marked skin irritation which was ameliorated if the test samples were diluted in mineral oil. The reduction in irritation level was not a result of reduced dermal absorption. Straight-run kerosine (SRK), straight-run gas oil (SRGO), and catalytically cracked light cycle oil (LCO) were evaluated in the dermal carcinogenicity study. Test materials were applied either undiluted (2x/week) or as 28.5% (7x/week) or 50% (4x/week) concentrations in mineral oil for a total weekly dose of 100 microliters PMD per animal. All three materials produced moderate to marked skin irritation and increased tumor frequency when applied undiluted. When diluted, the irritant effects of SRK and SRGO, which contain low levels of PACs, were ameliorated, and there were no significant increases in tumors relative to controls. LCO, containing 8.7% three- to seven-ring PACs, increased tumor frequency when diluted, even when skin irritation was limited. These data indicate that the tumorigenic activity of straight-run MDs is likely a consequence of a nongenotoxic process, associated with frequent cell damage and repair. PMDs which contain low levels of three- to seven-ring PACs are unlikely to cause tumors in the absence of prolonged skin irritation. In addition, genotoxic mechanisms may also contribute to tumor formation for other PMDs containing higher levels of PACs, e.g., products blended with cracked stocks.
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PMID:A comprehensive evaluation of the mechanism of skin tumorigenesis by straight-run and cracked petroleum middle distillates. 972 Jan 37

Keratinocytes respond to skin irritation and injury by cytokine release and a rapid but transient activation of arachidonic acid metabolism along both the cyclooxygenase and lipoxygenase pathways. In the first part of this article results are reviewed indicating that the release of pro-inflammatory mediators such as eicosanoids and interleukin-1 from keratinocytes provides a suitable in vitro parameter of irritancy. Based on this response an assay system has been established which may partially replace animal tests such as the Draize test. A permanent overactivation of arachidonic acid metabolism appears to be a driving force of tumor development in both experimental animals and man. Inhibition of the enzymes involved (such as cyclooxygenases by nonsteroidal antiinflammatory drugs) provides, therefore, a powerful and promising measure of cancer chemoprevention. The state of the art in this rapidly developing field is briefly reviewed in the second part of this article.
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PMID:Arachidonic acid metabolism as a reporter of skin irritancy and target of cancer chemoprevention. 982 Jun 55

Topical application of certain petroleum middle distillates (PMD) to mice produces skin tumors after long latency, and initiation/promotion protocols indicate that this effect is associated with their tumor promoting activity. Since induction of sustained, potentiated epidermal hyperplasia is predictive of promoting activity, five compositionally distinct PMD [hydrodesulfurized kerosene (API 81-07); hydrodesulfurized PMD (API 81-10); odorless light petroleum hydrocarbons; severely hydrotreated light vacuum distillate (LVD); and lightly refined paraffinic oil (LRPO)] were assessed for their effects on epidermal hyperplasia. PMD were administered (2 x/week for 2 weeks) to skin of CD-1 mice. Four quantitative biomarkers of epidermal hyperplasia were evaluated: epidermal thickness, number of nucleated epidermal cells per unit length of basement membrane, labeling (BrdUrd) index of epidermal cells, and induction of epidermal ornithine decarboxylase (ODC) activity. As positive controls, 12-O-tetradecanoylphorbol-13-acetate (TPA) and n-dodecane were utilized. PMD-induced skin irritation was evaluated visually and/or histopathologically. All five PMD produced dose-dependent, skin irritation and epidermal hyperplasia. On a weight basis the magnitude of the maximal PMD-induced effects was similar to that produced by n-dodecane, but > 1000-fold less than that produced by TPA. Epidermal hyperplasia and subacute skin irritancy produced by the five PMD were similar. Of the four short-term markers of tumor promotion assessed, labeling index and epidermal ODC activity were predictive of the relative promoting activities of those PMD for which tumorigenicity bioassay data are available, i.e., API 81-07 > API 81-10 > LRPO. An apparent discrepancy to the predictability of epidermal ODC activity occurred with LRPO:toluene [1:1 (v/v)]. This mixture is nontumorigenic, yet significantly induced epidermal ODC activity. This mixture, however, produced severe epidermal toxicity that precluded any meaningful analysis of short-term biomarkers in relationship to biological activity.
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PMID:Short-term biomarkers of tumor promotion in mouse skin treated with petroleum middle distillates. 984 20

Skin irritation is a complex phenomenon that involves resident epidermal cells, fibroblasts of dermis, and endothelial cells as well as invading leukocytes interacting with each other under the control of a network of cytokines and lipid mediators. Keratinocytes play an important role in the initiation and perpetuation of skin inflammatory reactions through the release of, and responses to cytokines. While resting keratinocytes produce some cytokines constitutively, a variety of environmental stimuli, such as tumor promoters, ultraviolet light and chemical agents, can induce epidermal keratinocytes to release inflammatory cytokines (IL-1, TNF-alpha), chemotactic cytokines (IL-8, IP-10), growth promoting cytokines (IL-6, IL-7, IL-15, GM-CSF, TGF-alpha) and cytokines regulating humoral vs. cellular immunity (IL-10, IL-12, IL-18). The role of cytokines in xenobiotics-induced skin irritation and the early molecular events that follow the treatment with irritant compounds will be discussed.
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PMID:Cytokines and irritant contact dermatitis. 1002 66

Middle distillate fuels (MDFs), which include jet fuel, kerosene, and diesel fuel, are a class of hydrocarbons distilled from crude oil at approximately 350-700 degrees F (176-371 degrees C). Although MDFs generally do not contain appreciable levels of potentially carcinogenic polycyclic aromatic compounds (PACs), they have produced weak tumorigenic responses in mouse skin characterized by low tumor yield and long latency. Recent studies demonstrated that the tumorigenic effects of these MDFs were dependent upon chronic dermal irritation. In the absence of skin irritation, tumors did not develop. Mechanistic studies suggest that straight-run MDFs containing low levels of PACs cause skin tumors through a nongenotoxic mechanism. MDFs cause chronic skin irritation and injury with repeated application to the skin. They have been found to have little or no activity in the modified Ames mutagenicity assay, lack tumor initiating activity, and are active skin tumor promoters. It has been hypothesized that the tumorigenic response to MDFs results from the promotion of preexisting, spontaneously initiated cells. Two recent studies, a one-year tumor promotion study and a two-year skin painting study, evaluated the role of skin irritation on the tumorigenic activity of MDFs in mice. MDFs were applied in pure and diluted forms to assess the effect of equal weekly doses of irritating and nonirritating test materials. The tumorigenicity of straight-run MDFs correlated to the level of skin irritation. No significant increase in tumor incidence occurred under conditions that resulted in minimal skin irritation and injury. These studies indicate that the tumorigenic activity of MDFs containing low levels of PACs is secondary to chronic skin irritation. These materials should not present a carcinogenic hazard in the absence of prolonged skin irritation.
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PMID:A comprehensive evaluation of the carcinogenic potential of middle distillate fuels. 1018 77

Petroleum middle distillates (PMDs), a class of hydrocarbons which boil between 350-700 degrees F, are tumor promoters in mouse skin. The promotional activity is produced under conditions that also result in local changes, including chronic irritation and epidermal hyperplasia. The present study was conducted by comparing equal weekly doses of irritating and minimally or nonirritating test materials, to assess whether tumor promotion was a secondary response to these effects. Four PMDs, C10-C14 normal paraffins (NP), lightly refined paraffinic oil (LRPO), Jet Fuel A (JF), and steam-cracked gas oil (SCGO), were evaluated. Test materials were applied undiluted (2x/week) or as 28.6% (7x/week) or 50% (4x/week) concentrations in mineral oil for 52 weeks following initiation with dimethylbenzanthracene (DMBA). When applied undiluted, all materials produced moderate irritation and significant increase in tumor incidence. When NP, LRPO, or JF were applied in mineral oil diluent, skin irritation was generally ameliorated and few, if any, tumors were produced. SCGO was irritating and produced a significant increase in tumor frequency when administered in mineral-oil diluent. These data indicate that the promotional activity of straight-run PMDs is likely related to chronic irritation at the application site and not to dose. Thus, when used appropriately in the absence of prolonged irritation, these materials should not present a tumorigenic hazard to humans.
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PMID:The role of dermal irritation in the skin tumor promoting activity of petroleum middle distillates. 1036 41

Cancer results from disturbances of cellular signal transduction and data processing at the genetic and epigenetic level. In the early phase of the disease these disturbances are mainly caused by environmental toxic agents, i.e. genotoxic and non-genotoxic carcinogens, whereas endogenous agents derived from dys-regulated metabolic reactions may take over this role at later stages, thereby leading to a state of 'genetic instability' and 'growth autonomy'. Among these metabolic reactions becoming dys-regulated in the course of tumorigenesis, eicosanoid biosynthesis from arachidonic acid seems to play a particular role. A steadily increasing body of evidence indicates a causal relationship between cancer development and an abnormal overexpression of eicosanoid-forming enzymes, i.e. cyclooxygenases and lipoxygenases, in a wide variety of human and animal tumors. This overexpression seems to result from disturbances of cellular signaling cascades such as the Ras-Raf-MAPkinase cascade due to oncogenic gene mutations. Presently, research is focussed on the proinflammatory enzyme cyclooxygenase-2 (COX-2) the pathological overexpression of which has been found to be related to key events of tumor promotion such as cellular hyperproliferation, inhibition of programmed cell death, and tumor angiogenesis. In the mouse skin model of multistage carcinogenesis COX-2-derived prostaglandin F(2alpha) has been indentified as an endogenous tumor promoter. Moreover, genotoxic byproducts of both cylooxygenase and lipoxygenase-catalyzed arachidonic acid metabolism (such as active oxygen species, free radicals etc.) are suspected to contribute to 'genetic instability' and thus to malignant progression of tumor cells. The enzymes of eicosanoid biosynthesis rank therefore among the most attractive targets for cancer chernoprevention. In fact, both nonsteroidal antiinflammatory drugs, i.e. non-specific COX inhibitors, and isozyme-specific COX-2 inhibitors have been shown to inhibit experimental and human cancer development, in the latter case in particular in the large bowel. Beside their role as indicators of neoplastic development eicosanoids may be also used as reporters of skin irritation. Based to this concept an in vitro test system for skin toxicity has been developed in which the release of arachidonic acid and interleukin-1alpha, i.e. two key mediators of acute inflammation, from a human keratinocyte cell line is measured. The excellent correlation found between this mediator release and the effects of various chemical irritants on human skin in vivo indicates that, in the near future, this and related methods may help to do without animal experiments in toxicological testing.
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PMID:A causal relationship between unscheduled eicosanoid signaling and tumor development: cancer chemoprevention by inhibitors of arachidonic acid metabolism. 1109 Sep 44

Aqueous solutions of > or =5% glutaraldehyde (GA) are of moderate acute peroral toxicity and those of < or =2% are of slight toxicity. By single sustained skin contact, aqueous GA solutions of > or =45% are of moderate acute percutaneous toxicity, those of 25% are of slight toxicity and those of </=15% do not present an acute percutaneous hazard. Vapor generated at ambient temperature may cause sensory irritant effects to the eye and respiratory tract, but not acute respiratory tract injury. The 50% decrease in respiratory rate (rd(50)) is 13.86 ppm. A 0.1% solution of GA is not irritating to the eye; the threshold for conjunctival irritation is 0.2% and for corneal injury it is 1.0%. Eye injury is moderate at 2% and severe at > or =5%. Primary skin irritation depends on the duration and contact site, occlusion and solvent. By sustained contact, the threshold for skin irritation is 1%, above which erythema and edema are dose related. With 45% and higher, skin corrosion may occur. There is a low incidence of skin sensitizing reactions, with an eliciting threshold of 0.5% aqueous GA. However, GA is neither phototoxic nor photosensitizing. Subchronic repeated exposure studies by the peroral route show only renal physiological compensatory effects, secondary to reduced water consumption. Repeated skin contact shows only minor skin irritant effects without systemic toxicity. By subchronic vapor exposure, effects are limited to the nasal mucosa at 1.0 ppm, with a no-effect concentration generally at 0.1 ppm. There is no evidence for systemic target organ or tissue toxicity by subchronic repeated exposure by any route. A chronic drinking water study showed an apparent increase, in females only, of large granular cell lymphocytic leukemia but this was not dosage related. This is most likely the result of a modifying effect on the factor(s) responsible for the expression of this commonly occurring rat neoplasm. A chronic (2-year) inhalation toxicity/oncogenicity study showed inflammatory changes in the anterior nasal cavity but no neoplasms or systemic toxicity. In vitro genotoxicity studies--bacterial mutagenicity, forward gene mutation (HGPRT and TK loci), sister chromatid exchange, chromosome aberration, UDS and DNA repair tests--have given variable results, ranging from no effect through to weak positive. In vivo genotoxicity studies--micronucleus, chromosome aberration, dominant lethal and Drosophila tests--generally have shown no activity but one mouse intraperitoneal study showed bone marrow cell chromosome aberrations. Developmental toxicity studies show GA not to be teratogenic, and a two-generation study showed no adverse reproductive effects. Percutaneous pharmacokinetic studies showed low skin penetration, with lowest values measured in vitro in rats and human skin. Overexposure of humans produces typical sensory irritant effects on the eye, skin and respiratory tract. Some reports have described an asthmatic-like reaction by overexposure to GA vapor. In most cases this resembles reactive airways dysfunction syndrome, and the role of immune mechanisms is uncertain. Local mucosal effects may occur if medical instruments or endoscopes are not adequately decontaminated. Protection of individuals from the potential adverse effects of GA exposure requires that there be adequate protection of the skin, eyes and respiratory tract. The airborne concentration of GA vapor should be kept below the recommended safe exposure level (e.g. the threshold limit value) by the use of engineering controls. Those who work with GA should, through a training program, be aware of the properties of GA, its potential adverse effects, how to handle the material safely and how to deal with accidental situations involving GA. If effects develop in exposed workers, the reasons should be determined immediately and corrective methods initiated. (c) 2001 John Wiley & Sons, Ltd.
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PMID:Toxicological, medical and industrial hygiene aspects of glutaraldehyde with particular reference to its biocidal use in cold sterilization procedures. 1128 36

Acetyl Triethyl Citrate, Acetyl Tributyl Citrate, Acetyl Trihexyl Citrate, and Acetyl Trioctyl Citrate all function as plasticizers in cosmetics. Additionally, the Trihexyl and Trioctyl forms are described as skin-conditioning agents-emollients, although there are currently no reported uses of Acetyl Trihexyl Citrate or Acetyl Trioctyl Citrate. Acetyl Triethyl Citrate and Acetyl Tributyl Citrate are used in nail products at concentrations up to 7%. Recognizing that there are no reported uses of Acetyl Trihexyl or Trioctyl Citrate, if they were to be used in the future, their concentration of use is expected to be no higher than that reported for Acetyl Triethyl and Tributyl Citrate. These ingredients were sufficiently similar in structure that safety test data on one were considered applicable to all. Approximately 99% of orally administered Acetyl Tributyl Citrate is excreted-intermediate metabolites include acetyl citrate, monobutyl citrate, acetyl monobutyl citrate, dibutyl citrate, and acetyl dibutyl citrate. In acute, short-term, subchronic, and chronic feeding studies, these ingredients were relatively nontoxic. Differences from controls were either not statistically significant or not related to any organ toxicity. Ocular exposures produced moderate reactions that cleared by 48 hours after instillation. Dermal application was not toxic in rabbits. In a guinea pig maximization test, Acetyl Triethyl Citrate was a sensitizer whereas Acetyl Tributyl Citrate was not. Limited clinical testing of Acetyl Triethyl Citrate and Acetyl Tributyl Citrate was negative for both skin irritation and sensitization. These clinical data were considered more relevant than the guinea pig maximization data, suggesting to the Cosmetic Ingredient Review Expert Panel that none of these ingredients would be a sensitizer. Physiologic effects noted with intravenous delivery of Acetyl Triethyl Citrate or Acetyl Tributyl Citrate include dose-related decreases in blood pressure and intestinal muscular spasms. These ingredients were not genotoxic in bacterial or mammalian test systems. No significant differences in tumor induction (lymphomas) were noted in rats fed Acetyl Tributyl Citrate for 2 year. Acetyl Tributyl Citrate was not a developmental or reproductive toxicant in studies in mice and rats. Based on all the available data, these ingredients were considered safe as used in cosmetics.
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PMID:Final report on the safety assessment of acetyl triethyl citrate, acetyl tributyl citrate, acetyl trihexyl citrate, and acetyl trioctyl citrate. 1239 73

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