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1.
Agbenyegah, S.* et al.: Impact of inter-individual variance in the expression of a radiation-responsive gene panel used for triage. Radiat. Res. 190, 226-235 (2018)
2.
Majewski, M.* ; Combs, S.E. ; Trott, K.* ; Abend, M.* & Port, M.*: Successful teaching of radiobiology students in the medical management of acute radiation effects from real case histories using clinical signs and symptoms and taking advantage of recently developed software tools. Health Phys. 115, 49-56 (2018)
3.
Ainsbury, E.* et al.: Integration of new biological and physical retrospective dosimetry methods into EU emergency response plans - joint RENEB and EURADOS inter-laboratory comparisons. Int. J. Radiat. Biol. 93, 99-109 (2017)
4.
Kulka, U.* et al.: RENEB – Running the European Network of biological dosimetry and physical retrospective dosimetry. Int. J. Radiat. Biol. 93, 2-14 (2017)
5.
Abend, M.* et al.: 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. Radiat. Res. 185, 109-123 (2016)
6.
Sigurdson, A.J.* et al.: Selected single-nucleotide polymorphisms in FOXE1, SERPINA5, FTO, EVPL, TICAM1 and SCARB1 are associated with papillary and follicular thyroid cancer risk: Replication study in a German population. Carcinogenesis 37, 677-684 (2016)
7.
Abend, M.* et al.: Association of radiation-induced genes with noncancer chronic diseases in Mayak workers occupationally exposed to prolonged radiation. Radiat. Res. 183, 249-261 (2015)
8.
Selmansberger, M.* et al.: CLIP2 as radiation biomarker in papillary thyroid carcinoma. Oncogene 34, 3917-3925 (2015)
9.
Selmansberger, M. et al.: Dose-dependent expression of CLIP2 in post-Chernobyl papillary thyroid carcinomas. Carcinogenesis 36, 748-756 (2015)
10.
Selmansberger, M. et al.: Genomic copy number analysis of Chernobyl papillary thyroid carcinoma in the Ukrainian-American Cohort. Carcinogenesis 36, 1381-1387 (2015)
11.
Abend, M.* et al.: Gene expression analysis in Mayak workers with prolonged occupational radiation exposure. Health Phys. 106, 664-676 (2014)
12.
Abend, M.* et al.: Independent validation of candidate genes identified after a whole genome screening on Mayak workers exposed to prolonged occupational radiation. Radiat. Res. 182, 299-309 (2014)
13.
Badie, C.* et al.: Laboratory intercomparison of gene expression assays. Radiat. Res. 180, 138-148 (2013)
14.
Beinke, C.* et al.: Laboratory intercomparison of the dicentric chromosome analysis assay. Radiat. Res. 180, 129-137 (2013)
15.
Romm, H.* et al.: Laboratory intercomparison of the cytokinesis-block micronucleus assay. Radiat. Res. 180, 120-128 (2013)
16.
Rothkamm, K.* et al.: Laboratory intercomparison on the γ-H2AX foci assay. Radiat. Res. 180, 149-155 (2013)
17.
Rothkamm, K.* et al.: Comparison of established and emerging biodosimetry assays. Radiat. Res. 180, 111-119 (2013)
18.
Port, M.* et al.: A gene signature of primary tumor identifies metastasized seminoma. Urol. Oncol. 29, 764-773 (2011)
19.
Schilling, D. et al.: Binding of heat shock protein 70 to extracellular phosphatidylserine promotes killing of normoxic and hypoxic tumor cells. FASEB J. 23, 2467-2477 (2009)
20.
Port, M.* et al.: A radiation-induced gene signature distinguishes post-Chernobyl from sporadic papillary thyroid cancers. Radiat. Res. 168, 639-649 (2007)