EPR study of γ-irradiated feather keratin and human fingernails concerning retrospective dose assessment

Strzelczak, G.; Sterniczuk, M.; Sadło, J.; Kowalska, M.; Michalik, J.

Powiadomienia systemowe

Sesja wygasła!

Artykuł - szczegóły

Tytuł artykułu

EPR study of γ-irradiated feather keratin and human fingernails concerning retrospective dose assessment

Autorzy

Strzelczak G. , Sterniczuk M. , Sadło J. , Kowalska M. , Michalik J.

Treść / Zawartość

Pełne teksty:

EPR study of gamma-irradiated feather keratin.pdf

Pobierz

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

In this paper we report the results of comparative EPR studies on free radicals generated in γ-irradiated powder samples of feather keratin powder and human fingernails. In degassed samples of both materials irradiated at 77 K the major component of EPR spectrum represents sulphur-centred radicals in cysteine residues. It quickly decays after air admission at room temperature while a singlet assigned to semiquinone melanin radicals remains the only one seen. The singlet recorded with fingernails decays slowly at room temperature and might be potentially useful for dose assessment by EPR. The advantages and limitations of fingernails EPR dosimetry are discussed.

Słowa kluczowe

EPR spectroscopy keratin melanin radicals fingernails dosimetry

Wydawca

Institute of Nuclear Chemistry and Technology

Czasopismo

Nukleonika

Rocznik

2013

Tom

Vol. 58, No. 4

Strony

505--509

Opis fizyczny

Bibliogr. 19 poz., rys.

Twórcy

autor

Strzelczak G.

g.strzelczak@ichtj.waw.pl

Institute of Nuclear Chemistry and Technology, 16 Dorodna Str., 03-195 Warsaw, Poland, Tel.: +48 22 504 1050, Fax: +48 22 811 1532

autor

Sterniczuk M.

Institute of Nuclear Chemistry and Technology, 16 Dorodna Str., 03-195 Warsaw, Poland, Tel.: +48 22 504 1050, Fax: +48 22 811 1532

autor

Sadło J.

Institute of Nuclear Chemistry and Technology, 16 Dorodna Str., 03-195 Warsaw, Poland, Tel.: +48 22 504 1050, Fax: +48 22 811 1532

autor

Kowalska M.

Central Laboratory for Radiological Protection, 7 Konwaliowa Str., 03-194 Warsaw, Poland

autor

Michalik J.

Institute of Nuclear Chemistry and Technology, 16 Dorodna Str., 03-195 Warsaw, Poland, Tel.: +48 22 504 1050, Fax: +48 22 811 1532

Bibliografia

1. Becker D, Swarts S, Champagne M, Sevilla MD (1988) An ESR investigation of the reactions of glutation, cysteine and penicillamine thiyl radicals: competitive formation of RSO•, R•, RSSR•– and RSS•. Int J Radiat Biol 53;5:767–786
2. Black PJ, Swarts SG (2010) Ex vivo analysis of irradiated fingernails; chemical yields and properties of radiation--induces and mechanically-induced radicals. Health Phys 98;2:301–308
3. Chen SR, Jiang B, Zeng JX, Xu GY, Li JY, Yang N (2008) Isolation and characterization of natural melanin derived from silk fowl (Gallus gallus domesticus Brisson). Food Chem 111:745–749
4. Colak S, Ozbey T (2011) An ESR study on biological dosimeters: Human hair. Radiat Meas 46:465–472
5. Fattibene P, Callens F (2010) EPR dosimetry with tooth enamel: A review. Appl Radiat Isot 68:2033–21164
6. Hill P, Brantley H, Van Dyke M (2010) Some properties of keratin biomaterials: Keratines. Biomaterials 31:585–593
7. IAEA (2002) Use of the electron paramagnetic resonance dosimetry with tooth enamel for retrospective dose assessment. IAEA-TECDOC-1331. International Atomic Energy Agency, Vienna
8. Kirschenbaum LJ, Qu X, Borish ET (2000) Oxygen radicals from photoirradiated human hair: An ESR and fluorescence study. J Cosmet Sci 51:169–182
9. Mamedov ShV, Aktas B, Canturk M et al. (2002) The ESR signals in silk fibron and wool keratin under both the effect of UV-irradiation and without any external effect and the formation of free radicals. Biomaterials 23:3405–3412
10. Millington KR, Church JS (1997) The photodegradation of wool keratin. II. Proposed mechanisms involving cystine. J Photochem Photobiol B 39:204–212
11. Qu X, Kirschenbaum LJ, Borish E (2000) Hydroxyterephthalate as fluorescent probe for hydroxyl radicals: Application to hair melanin. J Photochem Photobiol 71;3:307–313
12. Sarna T, Burke JM, Korytowski W et al. (2003) Loss of melanin from human RPE with aging: possible role of melanin photooxidation. Exp Eye Res 76:89–98
13. Schauer DF, Coursey BM, Dick CE et al. (1993) A radiation accident at an industrial accelerator facility. Health Phys 65:131–140
14. Smith GJ (1995) New trends in photobiology (invited review) photodegradation of keratin and other structural proteins. J Photochem Photobiol B 27:187–198
15. Suzuki H, Tamukai K, Yoshida N et al. (2010) Development of a compact electron spin resonance system for measuring ESR signals of irradiated fingernails. Health Phys 98;2:318–835
16. Symons MCR (1974) On the electron spin resonance detection of RS• radicals in irradiated solids: radicals of the type RSSR–•, RS-SR2 • and R2SSR2 +•. J Chem Soc Perkin Trans II:618–1620
17. Trompier F, Kornak L, Calas C et al. (2007) Protocol for emergency EPR dosimetry in fingernails. Radiat Meas 42:1085–1088
18. Trompier F, Sadlo J, Michalik J et al. (2007) EPR dosimetry for actual and suspected overexposures during radiotherapy treatments in Poland. Radiat Meas 42:1025–1028
19. Zhu J, Colson AO, DeBolt S, Sevilla MD (1991) Reactions of HS• and S–• with molecular oxygen, H2S, HS–, and S2 –: formation of SO2 –, HSSH–, HSS2–• and HSS•. J Phys Chem 95:3676–3681

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-36fee92c-0722-42a1-a978-47b192f4211e