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1.
Baiocco, G.* et al.: A matter of space: How the spatial heterogeneity in energy deposition determines the biological outcome of radiation exposure. Radiat. Environ. Biophys. 61, 545-559 (2022)
2.
Chen, J.* et al.: Obituary: Prof. Dr. Albrecht M. Kellerer (1935-2022). Radiat. Environ. Biophys. 61, 661-665 (2022)
3.
Li, W.B. ; Bouvier-Capely, C.* ; Saldarriaga Vargas, C.* ; Andersson, M.* & Madas, B.*: Heterogeneity of dose distribution in normal tissues in case of radiopharmaceutical therapy with alpha-emitting radionuclides. Radiat. Environ. Biophys. 61, 579-596 (2022)
4.
Lowe, D.* et al.: Radiation dose rate effects: What is new and what is needed? Radiat. Environ. Biophys. 61, 507-543 (2022)
5.
Pazzaglia, S.* et al.: Out-of-field effects: Lessons learned from partial body exposure. Radiat. Environ. Biophys. 61, 485-504 (2022)
6.
Pazzaglia, S.* et al.: Correction to: Out‑of‑field effects: Lessons learned from partial body exposure. Radiat. Environ. Biophys. 61:505 (2022)
7.
Rühm, W. ; Friedl, A.A.* & Wojcik, A.*: A turning point in history: Thinking about the unthinkable. Radiat. Environ. Biophys. 61, 177-178 (2022)
8.
Wojcik, A. ; Friedl, A.A. & Rühm, W.: War in Ukraine: Handling of manuscripts from the Russian federation by radiation and environmental biophysics. Radiat. Environ. Biophys., DOI: 10.1007/s00411-022-00980-8 (2022)
9.
Hiller, M.* et al.: External dose reconstruction at the shore of the Metlinsky Pond in the former village of Metlino (Techa River, Russia) based on environmental surveys, luminescence measurements and radiation transport modelling. Radiat. Environ. Biophys., DOI: 10.1007/s00411-021-00953-3 (2021)
10.
Laurier, D.* et al.: Areas of research to support the system of radiological protection. Radiat. Environ. Biophys. 60, 519-530 (2021)
11.
Petoussi-Henß, N. ; Satoh, D.* ; Schlattl, H. ; Zankl, M. & Spielmann, V.: Organ doses of the fetus from external environmental exposures. Radiat. Environ. Biophys. 60, 93–113 (2021)
12.
Rühm, W. ; Cool, D.* & Clément, C.*: Radiological protection revisited—the story continues. Radiat. Environ. Biophys. 60, 507-510 (2021)
13.
Schuster, M. et al.: In vitro cellular and proteome assays identify Wnt pathway and CDKN2A-regulated senescence affected in mesenchymal stem cells from mice after a chronic LD gamma irradiation in utero. Radiat. Environ. Biophys. 60, 397-410 (2021)
14.
Schuster, M. et al.: Correction to: In vitro cellular and proteome assays identify Wnt pathway and CDKN2A-regulated senescence affected in mesenchymal stem cells from mice after a chronic LD gamma irradiation in utero. Radiat. Environ. Biophys. 60:689 (2021)
15.
Simonetto, C. et al.: Estimating long-term health risks after breast cancer radiotherapy: Merging evidence from low and high doses. Radiat. Environ. Biophys. 60, 459–474 (2021)
16.
Walsh, L.* et al.: A bespoke health risk assessment methodology for the radiation protection of astronauts. Radiat. Environ. Biophys. 60, 213-231 (2021)
17.
Walsh, L.* ; Shore, R.* ; Azizova, T.V.* & Rühm, W.: On the choice of methodology for evaluating dose-rate effects on radiation-related cancer risks. Radiat. Environ. Biophys., DOI: 10.1007/s00411-021-00920-y (2021)
18.
Walsh, L.* ; Shore, R.* ; Azizova, T.V.* & Rühm, W.: Reply and explanation to Little et al. "Response to: On the choice of methodology for evaluating dose‑rate effects on radiation‑related cancer risks". Radiat. Environ. Biophys. 60, 517–518 (2021)
19.
Applegate, K.E.* et al.: Individual response of humans to ionising radiation: Governing factors and importance for radiological protection. Radiat. Environ. Biophys. 59, 185-209 (2020)
20.
Dombrowsky, A. et al.: A proof of principle experiment for microbeam radiation therapy at the Munich compact light source. Radiat. Environ. Biophys. 59, 111-120 (2020)