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Items: 1 to 20 of 102

1.

Flow cytometry-assisted quantification of γH2AX expression has potential as a rapid high-throughput biodosimetry tool.

Achel DG, Serafin AM, Akudugu JM.

Radiat Environ Biophys. 2016 Aug;55(3):349-57. doi: 10.1007/s00411-016-0654-5. Epub 2016 Jun 4.

PMID:
27262315
2.

Global quantification of γH2AX as a triage tool for the rapid estimation of received dose in the event of accidental radiation exposure.

Viau M, Testard I, Shim G, Morat L, Normil MD, Hempel WM, Sabatier L.

Mutat Res Genet Toxicol Environ Mutagen. 2015 Nov;793:123-31. doi: 10.1016/j.mrgentox.2015.05.009. Epub 2015 May 29.

3.

Imaging flow cytometry as a sensitive tool to detect low-dose-induced DNA damage by analyzing 53BP1 and γH2AX foci in human lymphocytes.

Durdik M, Kosik P, Gursky J, Vokalova L, Markova E, Belyaev I.

Cytometry A. 2015 Dec;87(12):1070-8. doi: 10.1002/cyto.a.22731. Epub 2015 Aug 4.

4.

Study on γH2AX Expression of Lymphocytes as a Biomarker In Radiation Biodosimetry.

Pan Y, Gao G, Ruan JL, Liu JX.

Genome Integr. 2016 Dec 30;7:10. doi: 10.4103/2041-9414.197167. eCollection 2016.

5.

Induction and disappearance of γH2AX foci and formation of micronuclei after exposure of human lymphocytes to ⁶⁰Co γ-rays and p(66)+ Be(40) neutrons.

Vandersickel V, Beukes P, Van Bockstaele B, Depuydt J, Vral A, Slabbert J.

Int J Radiat Biol. 2014 Feb;90(2):149-58. doi: 10.3109/09553002.2014.860252.

PMID:
24168313
6.

Short-term culture and gammaH2AX flow cytometry determine differences in individual radiosensitivity in human peripheral T lymphocytes.

Hamasaki K, Imai K, Nakachi K, Takahashi N, Kodama Y, Kusunoki Y.

Environ Mol Mutagen. 2007 Jan;48(1):38-47.

PMID:
17163504
7.

Ratio of γ-H2AX level in lymphocytes to that in granulocytes detected using flow cytometry as a potential biodosimeter for radiation exposure.

Wang Z, Hu H, Hu M, Zhang X, Wang Q, Qiao Y, Liu H, Shen L, Zhou P, Chen Y.

Radiat Environ Biophys. 2014 May;53(2):283-90. doi: 10.1007/s00411-014-0530-0. Epub 2014 Apr 1.

PMID:
24687842
8.

Analysis of chromosome damage for biodosimetry using imaging flow cytometry.

Beaton LA, Ferrarotto C, Kutzner BC, McNamee JP, Bellier PV, Wilkins RC.

Mutat Res. 2013 Aug 30;756(1-2):192-5. doi: 10.1016/j.mrgentox.2013.04.002. Epub 2013 Apr 22.

PMID:
23618924
9.

Survival Fraction at 2 Gy and γH2AX Expression Kinetics in Peripheral Blood Lymphocytes From Cancer Patients: Relationship With Acute Radiation-Induced Toxicities.

Pouliliou SE, Lialiaris TS, Dimitriou T, Giatromanolaki A, Papazoglou D, Pappa A, Pistevou K, Kalamida D, Koukourakis MI.

Int J Radiat Oncol Biol Phys. 2015 Jul 1;92(3):667-74. doi: 10.1016/j.ijrobp.2015.02.023. Epub 2015 Apr 16.

PMID:
25892583
10.

Examining Radiation-Induced In Vivo and In Vitro Gene Expression Changes of the Peripheral Blood in Different Laboratories for Biodosimetry Purposes: First RENEB Gene Expression Study.

Abend M, Badie C, Quintens R, Kriehuber R, Manning G, Macaeva E, Njima M, Oskamp D, Strunz S, Moertl S, Doucha-Senf S, Dahlke S, Menzel J, Port M.

Radiat Res. 2016 Feb;185(2):109-23. doi: 10.1667/RR14221.1. Epub 2016 Feb 1.

PMID:
26829612
11.

The profiles of gamma-H2AX along with ATM/DNA-PKcs activation in the lymphocytes and granulocytes of rat and human blood exposed to gamma rays.

Wang J, Yin L, Zhang J, Zhang Y, Zhang X, Ding D, Gao Y, Li Q, Chen H.

Radiat Environ Biophys. 2016 Aug;55(3):359-70. doi: 10.1007/s00411-016-0653-6. Epub 2016 Jun 3.

PMID:
27260225
12.

Radiation-induced double strand breaks and subsequent apoptotic DNA fragmentation in human peripheral blood mononuclear cells.

Ghardi M, Moreels M, Chatelain B, Chatelain C, Baatout S.

Int J Mol Med. 2012 May;29(5):769-80. doi: 10.3892/ijmm.2012.907. Epub 2012 Feb 7.

PMID:
22322361
13.

Mean frequency and relative fluorescence intensity measurement of γ-H2AX foci dose response in PBL exposed to γ-irradiation: An inter- and intra-laboratory comparison and its relevance for radiation triage.

Venkateswarlu R, Tamizh SG, Bhavani M, Kumar A, Alok A, Karthik K, Kalra N, Vijayalakshmi J, Paul SF, Chaudhury NK, Venkatachalam P.

Cytometry A. 2015 Dec;87(12):1138-46. doi: 10.1002/cyto.a.22729. Epub 2015 Aug 25.

14.

Frequency of gamma H2AX foci in healthy volunteers and health workers occupationally exposed to X-irradiation and its relevance in biological dosimetry.

Raavi V, Basheerudeen SA, Jagannathan V, Joseph S, Chaudhury NK, Venkatachalam P.

Radiat Environ Biophys. 2016 Aug;55(3):339-47. doi: 10.1007/s00411-016-0658-1. Epub 2016 Jun 10.

PMID:
27287768
15.

Quantification of gamma-H2AX foci in human lymphocytes: a method for biological dosimetry after ionizing radiation exposure.

Roch-Lefèvre S, Mandina T, Voisin P, Gaëtan G, Mesa JE, Valente M, Bonnesoeur P, García O, Voisin P, Roy L.

Radiat Res. 2010 Aug;174(2):185-94. doi: 10.1667/RR1775.1.

PMID:
20681785
16.

The response of gamma-H2AX in human lymphocytes and lymphocytes subsets measured in whole blood cultures.

Andrievski A, Wilkins RC.

Int J Radiat Biol. 2009 Apr;85(4):369-76. doi: 10.1080/09553000902781147.

PMID:
19399682
17.

Gamma-H2AX-based dose estimation for whole and partial body radiation exposure.

Horn S, Barnard S, Rothkamm K.

PLoS One. 2011;6(9):e25113. doi: 10.1371/journal.pone.0025113. Epub 2011 Sep 23.

18.

Manual versus automated γ-H2AX foci analysis across five European laboratories: can this assay be used for rapid biodosimetry in a large scale radiation accident?

Rothkamm K, Barnard S, Ainsbury EA, Al-Hafidh J, Barquinero JF, Lindholm C, Moquet J, Perälä M, Roch-Lefèvre S, Scherthan H, Thierens H, Vral A, Vandersickel V.

Mutat Res. 2013 Aug 30;756(1-2):170-3. doi: 10.1016/j.mrgentox.2013.04.012. Epub 2013 May 3.

PMID:
23648320
19.

A novel parameter, cell-cycle progression index, for radiation dose absorbed estimation in the premature chromosome condensation assay.

Miura T, Nakata A, Kasai K, Nakano M, Abe Y, Tsushima E, Ossetrova NI, Yoshida MA, Blakely WF.

Radiat Prot Dosimetry. 2014 Jun;159(1-4):52-60. doi: 10.1093/rpd/ncu126. Epub 2014 Apr 17.

PMID:
24743756
20.

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