Comparison of chromosomal aberrations frequency and polymorphism of GSTs genes in workers occupationally exposed to cytostatics or anaesthetics

AHEM. (2007). Metody biologického monitorování genotoxických účinků faktorů prostředí. Cytogenetická analýza periferních lymfocytů. Aktualizace platné standardní metodiky. AHEM. [in Czech] 1/2007, SZÚ, Praha, 30ppSearch in Google Scholar

Angelini S, Kumar R, Carbone F, Bermejo JL, Maffei F, Cantelli-Forti G, Hemminki K and Hrelia P. (2008). Inherited susceptibility to bleomycin-induced micronuclei: correlating polymorphisms in GSTT1, GSTM1 and DNA repair genes with mutagen sensitivity. Mutat Res 638: 90-97.Search in Google Scholar

Bilban M, Jakopin CB and Ogrinc D. (2005). Cytogenetic tests performed on operating room personnel (the use of anaesthetic gases). Int Arch Occup Environ Health 78: 60-64.Search in Google Scholar

Burgaz S, Karahalil B, Canhi Z, Terzioglu F, Ancel G, Anzion RB, Bos RP and Hüttner E. (2002). Assessment of genotoxic damage in nurses occupationally exposed to antineoplastics by the analysis of chromosomal aberrations. Hum Exp Toxicol 21: 129-135.Search in Google Scholar

Cavallo D, Ursini LC, Perniconi B, Di Francesco A, Giglio M, Rubino FM, Marinaccio A and Iavicoli S. (2005). Evaluation of genotoxic effects induced exposure to antineoplastic drugs in lymphocytes and exfoliated buccal cells of oncology nurses and pharmacy employees. Mutat Res 587: 45-51.Search in Google Scholar

Cavallo D, Ursini CL, Omodeo-Sale E and Iavicoli S. (2007). Micronucleus induction and FISH analysis in buccal cells and lymphocytes of nurses administering antineoplastic drugs. Mutat Res 628: 11-18.Search in Google Scholar

Connor TH. (2006). Hazardous anticancer drugs in health care:environmental exposure assessment. Ann N Acad Sci 1076: 615-623.Search in Google Scholar

Fransman W, Huizer D, Tuerk J and Kromhout H. (2007a). Inhalation and dermal exposure to eight antineoplastic drugs in an industrial laundry facility. Int Arch Occup Environ Health 80: 396-403.10.1007/s00420-006-0148-xSearch in Google Scholar

Fransman W, Roeleveld N, Peelen S, de Kort W, Kromhout H and Heederik D. (2007b). Nurses with dermal exposure to antineoplastic drugs: reproductive outcomes. Epidemiology 18: 112-119.10.1097/01.ede.0000246827.44093.c1Search in Google Scholar

Hoerauf KH, Wiesner G, Schroegendorfer KF, Jobst BP and Spacek A. (1999). Waste anaesthetic gases induce sister chromatid exchanges in lymphocytes of operating room personnel. British J Anaesth 82: 764-766.Search in Google Scholar

Horváthová E. (2008). Trends in the study of genetic susceptibility. Interdisc Toxicol 1: 13-14.Search in Google Scholar

Chandrasekhar M, Rekhadevi PV, Sailaja N, Rahman MF, Reddy JP, Mahboob M and Grover P. (2006). Evaluation of genetic damage in operating room personnel exposed to anaesthetic. Mutagenesis 21: 249-254.Search in Google Scholar

IARC. (1996). Monographs on the evaluation of carcinogenetic risks to humans. Some pharmaceutical drugs. Lyon, International Agency for Research on Cancer 66: 87pp.Search in Google Scholar

Jaloszynski P, Kujawski M, Wasowicz M, Szulc R and Szyfter K. (1999). Genotoxicity of inhalation anesthetics halothane and isoflurane in human lymphocytes studied in vitro using the comet assay. Mutat Res 439: 199-206.Search in Google Scholar

Karahalil B, Yagar S, Bahadir G, Durak P and Sardas S. (2005). Diazepam and propofol used as anesthetics during open-heart surgery do not cause chromosomal aberrations in peripheral blood lymphocytes. Mutat Res 581: 181-186.Search in Google Scholar

Karpinski TM, Kostrzewska-Poczekaj M, Stachecki I, Mikstacki A and Szyfter K. (2005). Genotoxicity of the volatile anaesthetic desflurane in human lymphocytes in vitro, established by comet assay. J Appl Genet 46: 319-324.Search in Google Scholar

Mušák Ľ, Poláková V, Halašová, E, Osina, O, Vodičková L, Buchancová, J, Hudečková H and Vodička P. (2008). Effect of occupational exposure to cytostatics and nucleotide excision repair polymorphisms on chromosomal aberrations frequency. Interdisc Toxicol 2: 13-17.Search in Google Scholar

Musak L, Vodicka P, Klimentová G, Soucek P, Hánová M, Mikulková R, Buchancová J, Vodicková L, Poláková V and Péc M. (2006). Chromosomal damage and polymorphisms of DNA repair genes XRCC1 and XRCC3 in workers exposed to cytostatics. Neuro Endocrinol Lett 27 Suppl 2: 57-60.Search in Google Scholar

Natarajan AT. (2002). Chromosome aberrations:past, present and future. Mutat Res 504: 3-16.Search in Google Scholar

Norppa H, Bonassi S, Hansteen IL, Hagmar L, Strömberg U, Rössner P, Boffetta P, Lindholm C, Gundy S, Lazutka J, Cebulska-Wasilewska A, Fabianova E, Sram RJ, Knudsen LE, Barale R and Fucic A. (2006). Chromosomal aberrations and SCEs as biomarkers of cancer risk. Mutat. Res 600: 37-45.Search in Google Scholar

Pilger A, Köhler I, Stettner H, Mader RM, Rizovski B, Terkola R, Diem E, Franz-Hainzl E, Konnaris CM Valic E and Rüdinger HW. (2000). Long-term monitoring of sister chromatid exchanges and micronucleus frequencies in pharmacy personnel occupationally exposed to cytostatic drugs. Int Arch Occup Environ Health 73: 442-448.Search in Google Scholar

Poljaková J, Eckschlager T, Hřebačková J, Hraběta J, Stiborová M. (2008). The comparison of cytotoxicity of the anticancer drugs doxorubicin and ellipticine to human neuroblastoma cells Interdisc Toxicol 1: 186-189.10.2478/v10102-010-0036-9Search in Google Scholar

Rekhadevi PV, Sailaja N, Chandrasekhar M, Mahboob M, Rahman MF and Grover P. (2007). Genotoxicity assessment in oncology nurses handling anti-neoplastic drugs. Mutagenesis 22: 395-401.Search in Google Scholar

Rombaldi F, Cassini C, Salvator M, Saffi J and Erdtmann B. (2009). Occupational risk assessment of genotoxicity and oxidative stress in workers handling antineoplastic drugs during a working week. Mutagenesis 24: 143-148.Search in Google Scholar

Rozgaj R, Kasuba V and Peric M. (1999). Chromosome aberrations in operating room personnel. Am J Ind Med 35: 642-646.Search in Google Scholar

Rozgaj R and Kasuba V. (2000). Chromosome aberrations and micronucleus frequency in anaesthesiology personnel. Arh Hig Rada Toksikol 51: 361-368.Search in Google Scholar

Rozgaj R, Kasuba V and Jazbec A. (2001). Preliminary study of cytogenetic damage in personnel exposed to anesthetic gases. Mutagenesis 16: 139-143.Search in Google Scholar

Scarpato R, Hirvonen A, Migliore L, Falck G and Norppa H. (1997). Influence of GSTM1 and GSTT1 polymorphisms on the frequency of chromosome aberrations in lymphocytes of smokers and pesticide-exposed greenhouse workers. Mutat. Res 389: 1997, 227-235.10.1016/S1383-5718(96)00152-0Search in Google Scholar

Testa A, Giachelia M, Palma S, Appolloni M, Padua L, Tranfo G, Spagnoli M, Tirindelli D and Cozzi R. (2007). Occupational exposure to antineoplastic agents induces a high level of chromosome damage. Lack of an effect of GST polymorphisms. Toxicol Appl Pharmacol 223: 46-55.Search in Google Scholar

Vorlíček J, Vyzula R and Adam Z. (2000). Praktická onkologie, vybrané kapitoly. Grada Publishing s.r.o. [in Czech] Praha, pp.77-154.Search in Google Scholar

Wiesner G, Hoerauf K, Schroegendorfer K, Sobczynski P, Harth M and Ruediger HW. (2001). High-level, but not low-level, occupational exposure to inhaled anesthetics is associated with genotoxicity in the micronucleus assay. Anesth Analg 92: 118-122.Search in Google Scholar