Abstract  These guidelines revise and replace the U.S. Environmental Protection Agency’s (EPA’s, or the Agency’s) Guidelines for Carcinogen Risk Assessment, published in 51 FR 33992, September 24, 1986 (U.S. EPA, 1986a) and the 1999 interim final guidelines (U.S. EPA, 1999a; see U.S. EPA 2001b). They provide EPA staff with guidance for developing and using risk assessments. They also provide basic information to the public about the Agency's risk assessment methods.

Abstract  This monograph evaluates the evidence of carcinogenicity of metallic cobalt particles with or without tungsten carbide, to which workers in the hard-metal industry are exposed, and of cobalt sulfate and other soluble cobalt (II) salts. It also evaluates three other particulate compounds: gallium arsenide and indium phosphide, which are used extensively in the microelectronics industry; and vanadium pentoxide, a contaminant at facilities refining and processing vanadium-rich ores and in various workplaces that use oil-fired boilers and furnaces.

Abstract  Vanadium pentoxide (V2O5) is the most toxic form of vanadium for mammals, presumably because of its inhibitory effects on several enzymes. We have previously demonstrated an increase in polyploid cell frequency and a decrease in the mitotic index of human lymphocytes treated in vitro with V2O5. The administration of metavanadate to adult rats induced impairment of spermatogenesis, and a decrease in the mobility of spermatozoa, while its administration to pregnant rats increased the mortality rate of embryos. In vitro orthovanadate inhibited luteinising: hormone-induced cyclic adenosine monophosphate (cAMP) in isolated corpora lutea from psuedopregnant rats. Since puberty is the result of several modifications in the mechanisms controlling gonadotrophin secretion and gonadal reactivity to them, we decided to compare the effects of V2O5 administered to male and female prepubertal rats.

Abstract  Tissue vanadium levels were determined in rats of different age by neutron activation analysis. The vanadium concentrations in the tissues of rats 21 days old are of the order of few tens of ng/g. Significant depletions of these concentrations were observed in kidney, liver lung and spleen at 115 days postnatal period. At this time the vanadium content in all tissues analysed did not exceed 10 ng/g.

Abstract  This guideline summarizes pertinent information about vanadium pentoxide dust for workers and employers as well as for physicians, industrial hygienists, and other occupational safety and health professionals who may need such information to conduct effective occupational safety and health programs. Recommendations may be superseded by new developments in these fields; readers are therefore advised to regard these recommendations as general guidelines and to determine periodically whether new information is available.

Abstract  126 enamellers and 64 decorators from 5 factories underwent dermatological and allergological examination using occupational test series in order to evaluate the prevalence of dermatitis and contact sensitization, and to identify the most important sensitizing substances. 48 workers (corresponding to 25.26% of the study population) were sensitized, with a total of 55 positive patch tests. Dermatitis was present in 22 workers, whereas 44 subjects claimed to have had skin lesions in the past. We found 17 positivities to specific substances: 7 to red iron oxide; 2 to antimony trioxide, manganese dioxide and maleic anhydride; and 1 to red copper oxide, cadmium chloride, vanadium pentoxide and sodium tripolyphosphate.

Abstract  Arsenic and vanadium are important environmental and industrial pollutants. Due to their widespread occurrence and potential genotoxicity, we studied the aneuploidy-inducing effects of these elements in cultured human lymphocytes using a variety of techniques including fluorescence in situ hybridization (FISH) with DNA probes for chromosomes 1 and 7, immunostaining of the lymphocyte spindle apparatus, and an in vitro assay measuring the polymerization and depolymerization of tubulin. Dose-related increases in hyperdiploidy were seen in lymphocyte cultures treated with sodium arsenite (NaAsO2) or vanadium pentoxide (V2O5) over concentrations ranging from 0.001 to 0.1 microM. NaAsO2-treated cells from different donors exhibited similar hyperdiploid frequencies, whereas substantial inter-individual variability was seen in the V2O5-treated cells. Examination of the spindle apparatus using an anti-beta-tubulin antibody indicated that these compounds might disrupt spindle formation by interacting with microtubules. Additional in vitro assays using purified tubulin indicated that both compounds inhibited microtubule assembly and induced tubulin depolymerization. These results indicate that in vitro exposure to both NaAsO2 and V2O5 can induce aneuploidy in human lymphocytes, and that this effect may occur through a disruption of microtubule function.

Abstract  Vanadium compounds are extensively used in modern industry and occupational exposure to high doses of Vanadium is quite common. In this study, the genotoxicity of vanadium pentoxide (V2O5) was evaluated directly in whole blood leukocytes and in human lymphocyte cultures using the single-cell gel electrophoresis assay (Comet Assay) to detect DNA damage expressed as DNA strand breaks and alkali labile sites. This chemical produces a clear dose-response in DNA migration in whole blood leukocytes and a significative positive effect only with the highest tested concentration in human lymphocyte cultures. After different recovery times the level of DNA damage returned to the control values. These results indicate that V2O5 is capable to induce DNA single-strand breaks and/or alkali-labile damage.

Abstract  Vanadium was determined in urine and blood of two workers (Worker Nos. 1 and 2 with direct exposure to vanadium pentoxide) and 13 fellow workers (with indirect or no vanadium exposure), and the results were compared by means of personal and stationary sampling of vanadium in air. Worker No. 1, a foreman with the heaviest exposure to vanadium, had a green tongue, complained of frequent productive coughing, and excreted 47 to 124 ng/ml vanadium in his late morning and mid-afternoon urine. Worker No. 2, a helper to the foreman with less exposure, had no green tongue or subjective complaints, and excreted no vanadium at a measurable level even in his mid-shift urine. No vanadium was detected in urine samples from other workers, nor in blood from all workers including Worker Nos. 1 and 2. Application of inductively coupled plasma emission spectrometry to measurement of vanadium in biological materials is discussed.

Abstract  Vanadium was determined by both instrumental neutron activation analysis (INAA) and NAA with radiochemical separation (RNAA) in hair of normal children and of children potentially exposed by accidental drinking of vanadium contaminated water (long-term, low-dose exposure). Vanadium hair levels in the two groups did not differ significantly and were in the range 46-313 micrograms/kg (median 98 micrograms/kg) and 24-235 micrograms/kg (median 88 micrograms/kg for the normal and exposed groups, respectively. Using RNAA with proven reliability at the ultratrace level, vanadium was determined in whole blood of the exposed and normal children, normal adults and workers professionally exposed to vanadium in a factory producing vanadium pentoxide. Significantly increased vanadium concentrations were found in blood of exposed children (range 0.018-0.239 micrograms/l, median 0.078 micrograms/l) compared to normal children (range 0.024-0.226 micrograms/l, median 0.042 micrograms/l), while no differences could be detected between blood vanadium levels of normal children and normal adults (range 0.032-0.095 micrograms/l, median 0.056 micrograms/l). Preliminary results for vanadium in blood of occupationally highly exposed persons showed values 2-4 orders of magnitude higher than in normal adults.

Abstract  8 men who had been maintaining a very large oil-fired boiler for a few weeks suffered acute respiratory and other symptoms. The crude oil used contained a small amount of vanadium as an impurity. Work was done inside the boiler and in the deadspace at the top. The workers inside the boiler were in close contact with scale contaminated by condensed vanadium pentoxide. Samples of scale from 3 areas inside the boiler contained 14.2, 10, and 5.8% vanadium pentoxide. There were no residual health effects. Protective clothing had not been worn. Recommendations are made concerning: pre-employment and other medical examinations; selection of breathing and eye protection; general protective clothing; biological monitoring of urine samples; dust measurement. The literature is reviewed.

Abstract  Vanadium pentoxide (V(2)O(5)) is a cause of occupational asthma and bronchitis. We previously reported that intratracheal instillation of rats with V(2)O(5) causes fibrosis of the lung parenchyma (J. C. Bonner, P. M. Lindroos, A. B. Rice, C. R. Moomaw, and D. L. Morgan. Am. J. Physiol. Lung Cell. Mol. Physiol. 274: L72-L80, 1998). In this report, we show that intratracheal instillation of V(2)O(5) induces airway remodeling similar to that observed in individuals with asthma. These changes include airway smooth muscle cell thickening, mucous cell metaplasia, and airway fibrosis. The transient appearance of peribronchiolar myofibroblasts, which were desmin and vimentin positive, coincided with a twofold increase in the thickness of the airway smooth muscle layer at day 6 after instillation and preceded the development of airway fibrosis by day 15. The number of nuclear profiles within the smooth muscle layer also increased twofold after V(2)O(5) instillation, suggesting that hyperplasia accounted for thickening of the smooth muscle layer. The majority of cells incorporating bromodeoxyuridine at day 3 were located in the connective tissue surrounding the airway smooth muscle wall that was positive for vimentin and desmin. These data suggest that myofibroblasts are the principal proliferating cell type that contributes to the progression of airway fibrosis after V(2)O(5) injury.

Abstract  Platelet-derived growth factor (PDGF) is a potent mitogen for mesenchymal cells. Induction of the PDGF receptor-alpha (PDGF-R alpha) in vitro enhances PDGF-induced mitogenesis and chemotaxis. Thus we investigated whether the PDGF-R alpha is induced in vivo during pulmonary fibrogenesis using a vanadium pentoxide (V2O5) model of lung injury. PDGF-R alpha mRNA expression was induced 24 h postinstillation. PDGF-R beta mRNA was constitutively expressed and did not increase. Western blotting showed upregulation of PDGF-R alpha protein by 48 h, and immunohistochemical analysis localized PDGF-R alpha primarily in mesenchymal cells residing within fibrotic lesions. Upregulation of PDGF-R alpha in vivo preceded mesenchymal cell hyperplasia (3-7 days) and collagen deposition by day 15. Supernatants from alveolar macrophages treated with V2O5 in vitro released upregulatory activity for PDGF-R alpha on cultured lung myofibroblasts, and this activity was blocked by the interleukin-1-receptor antagonist. These data suggest that interleukin-1 beta-mediated induction of PDGF-R alpha in vivo is important to lung myofibroblast hyperplasia during fibrogenesis.

Abstract  In order to reduce the environmental impact due to land disposal of oil fly ash from power plants and to valorize this waste material, the removal of vanadium was investigated using leaching processes (acidic and alkaline treatments), followed by a second step of metal recovery from leachates involving either solvent extraction or selective precipitation. Despite a lower leaching efficiency (compared to sulfuric acid), sodium hydroxide was selected for vanadium leaching since it is more selective for vanadium (versus other transition metals). Precipitation was preferred to solvent extraction for the second step in the treatment since: (a) it is more selective; enabling complete recovery of vanadate from the leachate in the form of pure ammonium vanadate; and (b) stripping of the loaded organic phase (in the solvent extraction process) was not efficient. Precipitation was performed in a two-step procedure: (a) aluminum was first precipitated at pH 8; (b) then ammonium chloride was added at pH 5 to bring about vanadium precipitation.

Abstract  The aim of the present study was to establish a useful animal model that simulates humans sensitive to inhaled particulate matter (PM). We have developed a new rat model of acute bronchiolitis (Br) by exposuring animals to NiCl2 (Ni) aerosols for five days. Three days following the Ni exposure, the animals developed signs of tachypnea, mucous hypersecretion, and bronchiolar inflammation which seemed to progress quickly during the fourth to fifth day. They recovered from lesions after four weeks in clean air. To assess the sensitivity of the Br rats to inhaled particles, two kinds of PM of respirable size were tested with doses similar to or a little higher to the recommended threshold limit values (TLVs) for the working environment in Japan. Titanium dioxide (TiO2=Ti) was chosen as an inert and insoluble particles and vanadium pentoxide (V2OV5=V), as a representative soluble and toxic airborne material. The Br rats exposed to either Ti or V were compared the pathological changes in the lungs and the clearance of particles to those in normal control or Br rats kept in clean air. The following significant differences were observed in Br rats: 1. delayed recovery from pre-existing lesions or exacerbated inflammation, 2. reductions in deposition and clearance rate of inhaled particles with the progress of lesions. The present results suggest that Br rats are more susceptible to inhaled particles than control rats. Therefore, concentrations of particulate matter lower than the TLVs for Japan, which have no harmful effects on normal lungs, may not always be safe in the case of pre-existing lung inflammation.

Abstract  OBJECTIVES: Among other constituents, fuel oil ash contains vanadium pentoxide, a known respiratory irritant. Exposure to ambient vanadium pentoxide dust has been shown to produce irritation of the eyes, nose, and throat. The usefulness of nasal lavage in detecting an inflammatory response to exposure to fuel oil ash among 37 boilermakers and utility workers was investigated.

METHODS: A baseline lavage was performed on the morning of the first day back to work after an average of 114 days away from work (range 36 hours to 1737 days). A lavage was performed after exposure on the morning three days after the baseline lavage. Exposure to respirable particulate matter of diameter < or = 10 microns (PM10) and respirable vanadium dust were estimated with daily work diaries and a personal sampling device for respirable particulates. These estimates were made for each subject on each workday during the three days between lavages. For each subject, the adjusted change in polymorphonuclear cells was calculated by dividing the change in polymorphonuclear cell counts by the average of the counts before and after exposure. The association between the adjusted polymorphonuclear cell counts and exposure was assessed with multiple linear regression, adjusted for age and current smoking.

RESULTS: Personal sampling (one to 10 hour time weighted average) showed a range of PM10 concentrations of 50 to 4510 micrograms/m3, and respirable vanadium dust concentration of 0.10 to 139 micrograms/m3. In smokers the adjusted polymorphonuclear cell count was not significantly different from zero (-0.1%, P > 0.5), but in nonsmokers it was significantly greater than zero (+50%, P < 0.05). In both non-smokers and smokers, there was considerable variability in adjusted polymorphonuclear cell counts and a dose-response relation between these adjusted cell counts and either PM10 or respirable vanadium dust exposure could not be found.

CONCLUSION: A significant increase in polymorphonuclear cells in non-smokers but not smokers was found. This suggests that in non-smokers, exposure to fuel oil ash is associated with upper airway inflammation manifested as increased polymorphonuclear cell counts. The lack of an increase in polymorphonuclear cells in smokers may reflect either a diminished inflammatory response or may indicate that smoking masks the effect of exposure to fuel oil ash.

Abstract  Mutagenicity of soils sampled at median strips, roadsides and a park neighboring arterial roads in Kurume City was determined by Ames test. Organic extracts of soils were mutagenic in strains TA98, TA100, YG1041 and YG1042 with and without S9mix. No sample showed mutagenic responses in strains YG3003 or YG7108. Extracts from soils of median strips and beside intersections showed higher mutagenicity and concentrations of PAHs and heavy metals than others, and mutagenic activity of soils correlated significantly with concentrations of PAHs and heavy metals. However, PAHs accounted for less than 12% of total mutagenicity in strains TA98 and TA100 of soil extracts. These extracts showed much higher mutagenicity in YG strains than in TA strains. The results indicate that these soils may be polluted with nitroarenes and aromatic amines.

Abstract  BACKGROUND: Fine particulate matter (FPM) in ambient air causes premature mortality due to cardiac disease in susceptible populations. OBJECTIVE: Our objective in this study was to determine the most influential FPM components. METHODS: A mouse model of atherosclerosis (ApoE-/-) was exposed to either filtered air or concentrated FPM (CAPs) in Tuxedo, New York (85 microg/m3 average, 6 hr/day, 5 days/week, for 6 months), and the FPM elemental composition was determined for each day. We also examined associations between PM components and mortality for two population studies: National Mortality and Morbidity Air Pollution Study (NMMAPS) and Hong Kong. RESULTS: For the CAPs-exposed mice, the average of nickel was 43 ng/m3, but on 14 days, there were Ni peaks at approximately 175 ng/m3 and unusually low FPM and vanadium. For those days, back-trajectory analyses identified a remote Ni point source. Electrocardiographic measurements on CAPs-exposed and sham-exposed mice showed Ni to be significantly associated with acute changes in heart rate and its variability. In NMMAPS, daily mortality rates in the 60 cities with recent speciation data were significantly associated with average Ni and V, but not with other measured species. Also, the Hong Kong sulfur intervention produced sharp drops in sulfur dioxide, Ni, and V, but not other components, corresponding to the intervention-related reduction in cardiovascular and pulmonary mortality. CONCLUSIONS: Known biological mechanisms cannot account for the significant associations between Ni with the acute cardiac function changes in the mice or with cardiovascular mortality in people at low ambient air concentrations; therefore, further research is needed.

Abstract  This paper describes and presents the results of a study to determine the effects of wind speed and turbulence on the performance of diffusion tube samplers, for measuring nitrogen dioxide in the outdoor environment. Samplers of varying length were exposed on the University of East Anglia roof in order to determine the relative reductions in the length of diffusion for the different sampler lengths. Shorter diffusion tube samplers would suffer a greater percentage reduction in the length of diffusion, as a result of turbulence, compared to longer samplers. A total of 17 exposures were carried out. Samplers exposed on the university roof indicated that the calculated nitrogen dioxide concentration for the shorter samplers was significantly higher than for the longer samplers. However, repeating the exposure in a laboratory, where turbulence is expected to be low, showed very little variance in the calculated nitrogen dioxide concentrations for each tube length. For the outdoor exposures, a reduction in the length of diffusion for the standard length (7.1 cm diffusion tube sampler was estimated to be between 7 and 38%. Data corrected, using an iteration programme to calculate the reduction in the diffusion length for each exposure, showed very little variance in the corrected nitrogen dioxide concentration for each tube length, thereby indicating that the calculated reduction in the diffusion length was constant throughout all tube lengths. The relationship between the reduction in the diffusion length and wind speed was found to be highly variable.

Abstract  #In low concentrations, inhaled nitric oxide (NO) increases arterial oxygenation in patients with severe acute respiratory distress syndrome. When present in the ambient atmosphere, NO and its oxidative derivate, nitrogen dioxide (NO2), are considered pollutants. The aim of this study was to assess whether the administration of inhaled NO to mechanically ventilated patients was associated with an increased risk of exposure to NO and NO2 for medical and paramedical staff. During a 1-yr period, indoor and outdoor NO and NO2 concentrations were measured using chemiluminescence in a 14-bed intensive care unit (ICU) to assess the possible influence of therapeutic NO administration on indoor pollution. Ambient concentrations of NO within the ICU were 237 +/- 147 parts per billion (ppb) during periods of NO administration and 289 +/- 147 ppb during periods without NO administration (mean +/- SD, NS). Indoor concentrations of NO and NO2 were entirely dependent on outdoor concentrations and were mainly influenced by climatic conditions such as atmospheric pressure, mass of clouds, and speed of the wind. Therapeutic administration of concentrations of inhaled NO 5 ppm to critically ill patients did not affect the ambient concentration of NO and NO2 within the ICU, which was mainly dependent on the outdoor air pollution. As a consequence, scavenging of exhaust NO from the breathing circuit in the ventilator does not appear mandatory in ICUs located in areas with significant urban pollution when NO concentrations 5 ppm are administered.

Abstract  Personal NO(2) exposure measurements were achieved during two campaigns in a large northern France city. These campaigns were following an innovating approach based on sequential exposure measurements by diffusive samplers distinguishing four categories of microenvironments ("home", "other indoor places", "transport" and "outdoors"). The objective of these campaigns was to obtain NO(2) personal exposure data in different microenvironments and to examine the determinants of personal exposure to this pollutant. Each campaign comprised two 24-h sampling periods: one during a working day and the second during the weekend. The average total NO(2) personal exposure ranged from 17 microg m(-3) for the summer weekend samplings to 38 microg m(-3) for the winter weekday samplings. The highest levels were found in transports and outdoors, the intermediate ones in other indoor places and the lowest in homes. Despite their weak levels, indoor environments contributed for more than 78% to total NO(2) personal exposure because of more time spent in these living places. A Multiple Correspondence Analysis (MCA) highlighted the determinants of NO(2) personal exposure in the "home" and "transport" microenvironments. This led to a classification of NO(2) personal exposure levels according to different means of transport: from the lowest to the highest exposure levels, train, tramway or underground, bicycle, car or motorcycle. In homes, the rise of NO(2) personal exposures is mainly due to the use of gas stoves and gas heating and the absence of automatic airing system. A classification of NO(2) personal exposure levels was set up according to the characteristics of homes. An analysis of correlations between the home NO(2) personal exposures and outdoor concentrations measured by fixed ambient air monitoring stations showed weak relations suggesting that the data of these stations are poor predictors of NO(2) personal exposures in homes.

Abstract  Ambient particulate matter (PM) has been associated with increased risk of lung cancer. One proposed mechanism is that PM induces oxidative stress mediated by transition metals contained within this mixture. We examined the relationship between the personal exposure to watersoluble transition metals in PM2.5 and oxidative DNA damage. In 49 students from central Copenhagen, we determined PM2.5 exposure by personal sampling twice in 1 year, and measured in these PM2.5 samples the concentration of the soluble transition metals vanadium, chromium, iron, nickel, copper, and platinum. Collected lymphocytes and 24-hour urine samples were analyzed for DNA damage in terms of 7-hydro-8-oxo-2V-deoxyguanosine (8-oxodG). We found that the 8-oxodG concentration in lymphocytes was significantly associated with the vanadium and chromium concentrations with a 1.9% increase in 8-oxodG per 1 Mg/L increase in the vanadium concentration and a 2.2% increase in 8-oxodG per 1 Mg/L increase in the chromium concentration. We have previously reported that in this study population the personal exposure to PM2.5 was associated with an increase in 8-oxodG in lymphocytes. However, vanadium and chromium were associated with the 8-oxodG concentration in lymphocytes independently of the PM2.5 mass concentration. The four other transition metals were not associated with 8-oxodG in lymphocytes and none of the transition metals was significantly associated with 8-oxodG in urine. Our results could indicate that vanadium and chromium present in PM2.5 have an effect on oxidative DNA damage that is independent of particle mass and/or other possible toxic compounds contained within this particulate mixture.

Abstract  Mechanisms of carcinogenicity are discussed for metals and their compounds, classified as carcinogenic to humans or considered to be carcinogenic to humans: arsenic, antimony, beryllium, cadmium, chromium, cobalt, lead, nickel and vanadium. Physicochemical properties govern uptake, intracellular distribution and binding of metal compounds. Interactions with proteins (e.g., with zinc finger structures) appear to be more relevant for metal carcinogenicity than binding to DNA. In general, metal genotoxicity is caused by indirect mechanisms. In spite of diverse physicochemical properties of metal compounds, three predominant mechanisms emerge: (1) interference with cellular redox regulation and induction of oxidative stress, which may cause oxidative DNA damage or trigger signaling cascades leading to stimulation of cell growth; (2) inhibition of major DNA repair systems resulting in genomic instability and accumulation of critical mutations; (3) deregulation of cell proliferation by induction of signaling pathways or inactivation of growth controls such as tumor suppressor genes. In addition, specific metal compounds exhibit unique mechanisms such as interruption of cell-cell adhesion by cadmium, direct DNA binding of trivalent chromium, and interaction of vanadate with phosphate binding sites of protein phosphatases.

Abstract  Inhalation of vanadium pentoxide clearly increases the incidence of alveolar/bronchiolar neoplasms in male and female B6C3F1 mice at all concentrations tested (1, 2 or 4 mg/m(3)), whereas responses in F344/N rats was, at most, ambiguous. While vanadium pentoxide is mutagenic in vitro and possibly in vivo in mice, this does not explain the species or site specificity of the neoplastic response. A nose-only inhalation study was conducted in female B6C3F1 mice (0, 0.25, 1 and 4 mg/m(3), 6 h/day for 16 days) to explore histopathological, biochemical (α-tocopherol, glutathione and F2-isoprostane) and genetic (comet assays and 9 specific DNA-oxo-adducts) changes in the lungs. No treatment related histopathology was observed at 0.25 mg/m(3). At 1 and 4 mg/m(3), exposure-dependent increases were observed in lung weight, alveolar histiocytosis, sub-acute alveolitis and/or granulocytic infiltration and a generally time-dependent increased cell proliferation rate of histiocytes. Glutathione was slightly increased, whereas there were no consistent changes in α-tocopherol or 8-isoprostane F2α. There was no evidence for DNA strand breakage in lung or BAL cells, but there was an increase in 8-oxodGuo DNA lesions that could have been due to vanadium pentoxide induction of the lesions or inhibition of repair of spontaneous lesions. Thus, earlier reports of histopathological changes in the lungs after inhalation of vanadium pentoxide were confirmed, but no evidence has yet emerged for a genotoxic mode of action. Evidence is weak for oxidative stress playing any role in lung carcinogenesis at the lowest effective concentrations of vanadium pentoxide.