Available studies (44 found)
| Short citation | Full citation | Bioassay | Epidemiology | Epi. meta-analysis | In vitro | Ecology |
|---|---|---|---|---|---|---|
| Adkins, 1986, 62529 | Adkins B,Jr et al. Oncogenic response of strain A/J mice to inhaled chemicals. Journal of Toxicology and Environmental Health 1986; 17:311-322. DOI | |||||
| Agarwal, 2020, 6885536 | Agarwal, P., Anand M., Chakraborty, P., Singh L., Masih J., Taneja A (2020). Placental levels of polycyclic aromatic hydrocarbons (PAHs) and their association with birth weight of infants. Drug and Chemical Toxicology, DOI:10.1080/01480545.2020.1783285 | |||||
| Al-Daghri, 2008, 447560 | Al-Daghri NM. Serum polycyclic aromatic hydrocarbons among children with and without asthma: correlation to environmental and dietary factors. International Journal of Occupational Medicine and Environmental Health 2008; 21:211. | |||||
| Al-Daghri, 2013, 1466904 | Al-Daghri NM et al. Polycyclic aromatic hydrocarbon exposure and pediatric asthma in children: a case--control study. Environmental Health: A Global Access Science Source 2013; 12:1. | |||||
| Al-Daghri, 2014, 2643597 | Al-Daghri NM et al. Polycyclic aromatic hydrocarbon distribution in serum of Saudi children using HPLC-FLD: marker elevations in children with asthma. Environmental Science and Pollution Research 2014; 21:12085. | |||||
| Battelle, 1980a, 32886 | Battelle's Columbus Laboratories. Unpublished subchronic toxicity study: naphthalene (C52904), B6C3F1 mice. Report to U.S. Department of Health and Human Services, National Toxicology Program, Research Triangle Park, NC, by Battelle’s Columbus Laboratories, Columbus, OH, under subcontract no. 76-34-106002. | |||||
| Battelle, 1980b, 32885 | Battelle's Columbus Laboratories. Unpublished subchronic toxicity study: naphthalene (C52904), Fischer 344 rats. Report to U.S. Department of Health and Human Services, National Toxicology Program, Research Triangle Park, NC, by Battelle’s Columbus Laboratories, Columbus, OH, under subcontract no. 76-34-106002. | |||||
| Bushy Run, 1986, 1481054 | Bushy Run Research Center. 1986. Ninety-day (sub-chronic) dermal toxicity study with naphthalene in albino rats. OTS0513643, https://ntrl.ntis.gov/NTRL/dashboard/searchResults.xhtml?searchQuery=OTS0513643 | |||||
| Cakmak, 2014, 2688663 | Cakmak S et al. Residential exposure to volatile organic compounds and lung function: Results from a population-based cross-sectional survey. Environmental Pollution 2014; 194:145. | |||||
| Dodd, 2010, 1467743 | Dodd DE et al. Nasal olfactory epithelial lesions in F344 and SD rats following 1- and 5-day inhalation exposure to naphthalene vapor. International Journal of Toxicology 2010; 29:175-184. DOI | |||||
| Dodd, 2012, 1467343 | Dodd DE et al. Nasal epithelial lesions in F344 rats following a 90-day inhalation exposure to naphthalene. Inhalation Toxicology 2012; 24:70-79. DOI | |||||
| Gong, 2018, 4885055 | Gong, X; Lin, Y; Bell, ML; Zhan, FB. 2018. Associations between maternal residential proximity to air emissions from industrial facilities and low birth weight in Texas, USA. Environment International 120: 181-198 | |||||
| Heaton, 2017, 3993884 | Heaton, KJ; Maule, AL; Smith, KW; Rodrigues, EG; Mcclean, MD; Proctor, SP. (2017). JP8 exposure and neurocognitive performance among US Air Force personnel. NeuroToxicology 62:170-180. http://dx.doi.org/10.1016/j.neuro.2017.07.001 | |||||
| Holmén, 1999, 1469327 | Holmén JB et al. Naphthalene-induced cataract model in rats: A comparative study between slit and retroillumination images, biochemical changes and naphthalene dose and duration. Current Eye Research 1999; 19:418-425. DOI | |||||
| Kamal, 2014, 3036127 | PAH exposure biomarkers are associated with clinico-chemical changes in the brick kiln workers in Pakistan; Kamal, A; Malik, RN; Martellini, T; Cincinelli, A; 2014. Science of the Total Environment. v490;521-527 | |||||
| Katsnelson, 2014, 2709175 | Katsnelson BA et al. Does a concomitant exposure to lead influence unfavorably the naphthalene subchronic toxicity and toxicokinetics? Environmental Toxicology and Chemistry 2014; 33:152-157. | |||||
| Kim, 2005, 1962602 | Kim JH et al. Effects of air pollutants on childhood asthma. Yonsei Medical Journal 2005; 46:239-244. | |||||
| Lehmann, 2001, 25826 | Lehmann I et al. Enhanced in vivo IgE production and T cell polarization toward the type 2 phenotype in association with indoor exposure to VOC: Results of the LARS study. International Journal of Hygiene and Environmental Health 2001; 204:211-221. DOI | |||||
| Lehmann, 2002, 34460 | Lehmann I et al. The influence of maternal exposure to volatile organic compounds on the cytokine secretion profile of neonatal T cells. Environmental Toxicology 2002; 17:203-210. | |||||
| Lin, 2018, 5019338 | Lin, TJ; Guo, YL; Hsu, JC; Wang, IJ. 2018. 2-Naphthol Levels and Allergic Disorders in Children. International Journal of Environmental Research and Public Health 15 (7) | |||||
| Meeker, 2004, 1468789 | Meeker JD et al. The relationship of urinary metabolites of carbaryl/naphthalene and chlorpyrifos with human semen quality. Environmental Health Perspectives 2004a; 112:1665-1670. | |||||
| Meeker, 2004, 2718652 | Meeker JD et al. Urinary levels of insecticide metabolites and DNA damage in human sperm. Human Reproduction 2004; 19:2573-2580. | |||||
| Meeker, 2006, 1490401 | Meeker JD et al. Exposure to nonpersistent insecticides and male reproductive hormones. Epidemiology 2006; 17:61-68. | |||||
| Meeker, 2007, 1468572 | Meeker JD et al. Utility of urinary 1-naphthol and 2-naphthol levels to assess environmental carbaryl and naphthalene exposure in an epidemiology study. Journal of Exposure Science and Environmental Epidemiology 2007; 17:314-320. | |||||
| Meeker, 2008, 500223 | Meeker JD et al. Circulating estradiol in men is inversely related to urinary metabolites of nonpersistent insecticides. Reproductive Toxicology 2008; 25:184-191. |
Showing studies 1-25 of 44