Your search keyword '"Freeman JJ"' showing total 9 results

1. Development of a screening tool to prioritize testing for the carcinogenic hazard of residual aromatic extracts and related petroleum streams.

Author

Goyak KO, Kung MH, Chen M, Aldous KK, and Freeman JJ

Subjects

Animals, Carcinogenesis, Carcinogens toxicity, Chromatography, Gas, Humans, Mutagenicity Tests, Mutagens toxicity, Skin Neoplasms chemically induced, Skin Neoplasms pathology, Structure-Activity Relationship, Carcinogenicity Tests methods, Petroleum toxicity, Petroleum Pollution adverse effects, Polycyclic Aromatic Hydrocarbons toxicity

Abstract

Residual aromatic extracts (RAE) are petroleum substances with variable composition predominantly containing aromatic hydrocarbons with carbon numbers greater than C25. Because of the high boiling nature of RAEs, the aromatics present are high molecular weight, with most above the range of carcinogenic polycyclic aromatic hydrocarbons (PAHs). However, refinery distillations are imperfect; some PAHs and their heteroatom-containing analogs (collectively referred to as polycyclic aromatic content or PAC) may remain in the parent stream and be extracted into the RAE, and overall PAC content is related to the carcinogenic potential of an RAE. We describe here a real-time analytical chemistry-based tool to assess the carcinogenic hazard of RAE via the development of a functional relationship between carcinogenicity and boiling point. Samples representative of steps along the RAE manufacturing process were obtained from five refineries to evaluate relationships between mutagenicity index (MI), PAC ring content and gas chromatographic distillation (GCD) curves. As expected, a positive linear relationship between MI and PAC ring content occurred, most specifically for 3-6 ring PAC (R 2 =0.68). A negative correlation was found between MI and temperature at 5% vaporization by GCD (R 2 =0.72), indicating that samples with greater amounts of lower boiling constituents were more likely to be carcinogenic. The inverse relationship between boiling range and carcinogenicity was further demonstrated by fractionation of select RAE samples (MI=0.50+0.07; PAC=1.70+0.51wt%; n=5) into low and high boiling fractions, where lower boiling fractions were both more carcinogenic than the higher boiling fractions (MI=2.36±0.55 and 0.17±0.11, respectively) and enriched in 3-6 ring PACs (5.20+0.70wt% and 0.97+0.35wt%, respectively). The criteria defining carcinogenicity was established as 479°C for the 5% vaporization points by GCD, with an approximate 95% probability of a future sample having an MI below the recommended limit of 0.4 for RAEs. Overall, these results provide a cost-efficient and real-time tool by which the carcinogenic potential of RAEs can be assessed at the refinery level, ultimately providing a means to readily monitor and minimize the carcinogenic potential of RAEs., (Copyright © 2016. Published by Elsevier Ireland Ltd.)

Published

2016

2. A GHS-consistent approach to health hazard classification of petroleum substances, a class of UVCB substances.

Author

Clark CR, McKee RH, Freeman JJ, Swick D, Mahagaokar S, Pigram G, Roberts LG, Smulders CJ, and Beatty PW

Subjects

Animals, European Union, Government Regulation, Hazardous Substances toxicity, Petroleum toxicity, Product Labeling legislation & jurisprudence, Product Labeling methods, Product Labeling standards, United States, Hazardous Substances chemistry, Hazardous Substances classification, Petroleum classification

Abstract

The process streams refined from petroleum crude oil for use in petroleum products are among those designated by USEPA as UVCB substances (unknown or variable composition, complex reaction products and biological materials). They are identified on global chemical inventories with unique Chemical Abstract Services (CAS) numbers and names. The chemical complexity of most petroleum substances presents challenges when evaluating their hazards and can result in differing evaluations due to the varying level of hazardous constituents and differences in national chemical control regulations. Global efforts to harmonize the identification of chemical hazards are aimed at promoting the use of consistent hazard evaluation criteria. This paper discusses a systematic approach for the health hazard evaluation of petroleum substances using chemical categories and the United Nations (UN) Globally Harmonized System (GHS) of classification and labeling. Also described are historical efforts to characterize the hazard of these substances and how they led to the development of categories, the identification of potentially hazardous constituents which should be considered, and a summary of the toxicology of the major petroleum product groups. The use of these categories can increase the utility of existing data, provide better informed hazard evaluations, and reduce the amount of animal testing required., (Copyright © 2013 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2013

3. Paving asphalt products exhibit a lack of carcinogenic and mutagenic activity.

Author

Goyak KO, McKee RH, Minsavage GD, McGowan C, Daughtrey WC, and Freeman JJ

Subjects

Animals, Benzo(a)pyrene toxicity, Dimethyl Sulfoxide toxicity, Male, Mice, Mice, Inbred C3H, Mineral Oil toxicity, Salmonella typhimurium drug effects, Salmonella typhimurium growth & development, Toxicity Tests, Chronic, Carcinogens toxicity, Hydrocarbons toxicity, Mutagens toxicity, Petroleum toxicity, Skin Neoplasms chemically induced

Abstract

A paving asphalt and a vacuum residuum (derived from crude oil by atmospheric and subsequent vacuum distillation and used as a blend stock for asphalt) were tested in skin carcinogenesis assays in mice and in optimized Ames assays for mutagenic activity. In the skin cancer tests, each substance was applied twice weekly for 104 weeks to the clipped backs of groups of 50 male C3H mice. Neither the paving asphalt nor the vacuum residuum (30% weight/volume and 75% weight/weight in US Pharmacopeia mineral oil, respectively) produced any tumors. The positive control benzo[a]pyrene (0.05% w/v in toluene) induced tumors in 46 of 50 mice, demonstrating the effectiveness of the test method. Salmonella typhimurium tester strain TA98 was used in the optimized Ames assay to evaluate mutagenic potential. Dimethylsulfoxide (DMSO) extractions of the substances were not mutagenic when tested up to toxic limits. Thus, under the conditions of these studies, neither the paving asphalt nor the vacuum residuum was carcinogenic or mutagenic.

Published

2011

4. The role of dermal irritation in the skin tumor promoting activity of petroleum middle distillates.

Author

Nessel CS, Freeman JJ, Forgash RC, and McKee RH

Subjects

9,10-Dimethyl-1,2-benzanthracene toxicity, Animals, Dose-Response Relationship, Drug, Hydrocarbons toxicity, Male, Mice, Mutagenicity Tests, Carcinogens toxicity, Irritants toxicity, Mutagens toxicity, Petroleum toxicity, Skin Neoplasms chemically induced

Abstract

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.

Published

1999

5. Assessment of the utility of the micronucleus test for petroleum-derived materials.

Author

Przygoda RT, McKee RH, Amoruso MA, and Freeman JJ

Subjects

Animals, Cricetinae, Dose-Response Relationship, Drug, Mesocricetus, Mice, Micronucleus Tests, Mutagenicity Tests, Micronuclei, Chromosome-Defective drug effects, Mutagens toxicity, Petroleum toxicity

Abstract

The micronucleus test is a commonly used in vivo assay for chromosomal damage and is an integral part of many mutagenicity testing strategies. The present report describes an assessment of the micronucleus test for the detection of mutagenic potential of petroleum-derived materials. To this end, studies were conducted with catalytically cracked clarified oil (CCCO). This material contains high levels of polycyclic aromatic constituents (PAC) and is a very potent inducer of mouse skin tumors. CCCO is also active in the Salmonella assay and other in vitro tests. As CCCO is the most potent of the various petroleum-derived materials in other assays, it was assumed to be the most easily detectable in the micronucleus test. CCCO was tested in standard mouse micronucleus tests utilizing oral and intraperitoneal injection for test material administration. All of these studies were negative, although DMBA, tested at roughly equivalent levels based on potency in the Salmonella assay, produced statistically significant increases in micronucleus frequency. In a second series of studies, aromatic fractions of CCCO were prepared and tested at up to acutely toxic levels. Results of these studies were also negative. Finally, another petroleum-derived material which is carcinogenic and contained PAC was tested in the micronucleus assay. It also produced negative results. Thus, it was concluded that petroleum-derived materials do not produce clastogenic effects in vivo in the mouse micronucleus test, despite the fact that some pure polycyclic aromatic hydrocarbons are quite active in this assay., (Copyright 1999 Elsevier Science B.V.)

Published

1999

6. Short-term biomarkers of tumor promotion in mouse skin treated with petroleum middle distillates.

Author

Walborg EF Jr, DiGiovanni J, Conti CJ, Slaga TJ, Freeman JJ, Steup DR, and Skisak CM

Subjects

Administration, Topical, Animals, Biomarkers, Cell Division drug effects, Dermatitis, Irritant pathology, Enzyme Induction, Female, Hyperplasia chemically induced, Mice, Mutagenicity Tests, Ornithine Decarboxylase biosynthesis, Salmonella typhimurium drug effects, Salmonella typhimurium genetics, Skin enzymology, Skin pathology, Carcinogens toxicity, Dermatitis, Irritant etiology, Petroleum toxicity, Skin drug effects

Abstract

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.

Published

1998

7. Increased frequency of resistance to terminal differentiation in C3H mouse cells produced by genotoxic but not nongenotoxic carcinogens.

Author

Przygoda RT, Freeman JJ, Katz S, and McKee RH

Subjects

Animals, Calcium physiology, Cells, Cultured, Male, Mice, Mice, Inbred C3H, Mutagenicity Tests methods, Salmonella genetics, Skin cytology, Skin drug effects, Carcinogens toxicity, Cell Differentiation drug effects, Mutagens toxicity, Petroleum toxicity

Abstract

Certain cells present in mouse skin are resistant to calcium-induced terminal differentiation. It is believed that these calcium-resistant cells (CRCs) represent an early stage in the carcinogenic process, in part, because frequency increases after treatment with mutagens. The frequency of CRCs in C3H mouse skin was measured before and after treatment with certain petroleum-derived materials. One objective was to determine whether this assay could differentiate between genotoxic and nongenotoxic mouse skin carcinogens. An additional objective was to determine whether CRCs are an important factor in the tumorigenicity of petroleum middle distillates (PMDs), a class of apparently nongenotoxic mateials. Three petroleum-derived materials were tested: mineral oil (MO), a noncarcinogenic product used as the negative control; catalytically cracked clarified oil (CCCO), a highly carcinogenic and mutagenic material; and a lightly paraffinic (LRPO), a PMD which has produced tumors when repeatedly applied, but is not mutagenic and does not initiate most skin tumors. The CRC frequency was not increased by LRPO treatment; however, a statistically significant and dose-related increase was produced by CCCO. These results are consistent with observations that genotoxic, petroleum-derived liquids are capable of tumor initiation in mouse skin, whereas PMDs which are not genotoxic do not initiate skin tumors. The number of CRCs in untreated and MO-treated mice was approximately twice the tumor frequency measured in bioassays of PMDs. Thus, tumor production associated with these products could be due to promotion of preexisting, spontaneously initiated cells.

Published

1994

8. Evaluation of the contribution of chronic skin irritation and selected compositional parameters to the tumorigenicity of petroleum middle distillates in mouse skin.

Author

Freeman JJ, Federici TM, and McKee RH

Subjects

Animals, Male, Mice, Mice, Inbred C3H, Skin Neoplasms pathology, Petroleum toxicity, Skin Neoplasms chemically induced

Abstract

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).

Published

1993

9. A 90-day toxicity study of the effects of petroleum middle distillates on the skin of C3H mice.

Author

Freeman JJ, McKee RH, Phillips RD, Plutnick RT, Scala RA, and Ackerman LJ

Subjects

Animals, Body Weight drug effects, Irritants, Male, Mice, Mice, Inbred C3H, Skin Diseases pathology, Time Factors, Petroleum toxicity, Skin Diseases chemically induced

Abstract

Petroleum middle distillates (PMDs) elicit skin tumors in mouse epidermal carcinogenesis studies. The response is characterized by a long latency with only a small percentage of animals developing tumors. Although the carcinogenic activity of certain other petroleum hydrocarbons largely depends upon the presence of polycyclic aromatic hydrocarbons (PAHs), many PMDs contain relatively low concentrations of PAHs. PMDs are also irritating to mouse skin, and chronic irritation may be involved in the development of skin tumors. This study was conducted to investigate the patterns of cutaneous irritation elicited by topical application of PMDs having compositional differences. The three PMDs selected for study were a steam cracked gas oil (SCGO), a lightly refined paraffinic oil (LRPO), and a jet fuel (JF). Male C3H/HeNCr1BR mice (25/group) were treated topically (37.5 microliters 2x/week for 13 weeks) with 10%, 50% or 100% (undiluted) concentrations of each PMD. Catalytically cracked clarified oil (CCCO, 10%), a potent carcinogen to mouse skin, was also tested. The vehicle was a noncarcinogenic mineral oil with a viscosity of 90 SUS. Cutaneous changes were evaluated by gross observations and light microscopy. Cutaneous irritation was the only significant toxic response in this study. Neither the vehicle nor any of the 10% PMD concentrations produced significant cutaneous irritation. The 10% CCCO and 50% PMD treatments all elicited slight to moderate proliferative and inflammatory changes in mouse skin. Ulcers were also observed microscopically in mice treated with 10% CCCO and 50% SCGO. The 100% SCGO treatment produced evidence of necrosis on Days 1-7 but not later in the study despite continued treatment. In contrast, the irritating effects of 100% LRPO were not evident until 2-3 weeks of study, and at study completion were characterized by moderately severe inflammatory and proliferative changes. The effects of 100% JF were qualitatively similar to 100% LRPO but less marked. Thus, the SCGO caused a different pattern of cutaneous responses than either LRPO or JF. The possible relationships of these cutaneous changes to epidermal carcinogenesis are being studied further.

Published

1990