Print previewpersonal data approved: 2020. XI. 29. Publications |
2020
 from data base, 2020. I. 28. |
Hofmann W, Li WB, Friedland W, Miller BW, Madas B, Bardiès M, Balásházy I: Internal microdosimetry of alpha-emitting radionuclides, RADIATION AND ENVIRONMENTAL BIOPHYSICS 59: p. AiP. type of document: Journal paper/Article language: English URL |
2019
 from data base, 2020. I. 28. |
Bannik K, Madas B, Jarzombek M, Sutter A, Siemeister G, Mumberg D, Zitzmann-Kolbe S: Radiobiological effects of the alpha emitter Ra-223 on tumor cells, SCIENTIFIC REPORTS 9: (1) 18489 type of document: Journal paper/Article language: English URL |
2018
 from data base, 2020. I. 28. |
Kreuzer M, Auvinen A, Cardis E, Durante M, Harms-Ringdahl M, Jourdain JR, Madas BG, Ottolenghi A, Pazzaglia S, Prise KM, Quintens R, Sabatier L, Bouffler S: Multidisciplinary European Low Dose Initiative (MELODI): strategic research agenda for low dose radiation risk research, RADIATION AND ENVIRONMENTAL BIOPHYSICS 57: (1) pp. 5-15. type of document: Journal paper/Article number of independent citations: 11 language: English URL |
2018
 from data base, 2020. I. 28. |
Madas BG, Drozsdik EJ: Effects of mucus thickness and goblet cell hyperplasia on microdosimetric quantities characterizing the bronchial epithelium upon radon exposure, INTERNATIONAL JOURNAL OF RADIATION BIOLOGY 94: (11) pp. 967-974. type of document: Journal paper/Article language: English URL |
2018
 from data base, 2020. I. 28. |
Madas BG, Drozsdik EJ: COMPUTATIONAL MODELING OF LOW DOSE HYPER-RADIOSENSITIVITY AND INDUCED RADIORESISTANCE APPLYING THE PRINCIPLE OF MINIMUM MUTATION LOAD, RADIATION PROTECTION DOSIMETRY 183: (1-2) pp. 147-150. type of document: Journal paper/Article language: English URL |
2016
 from data base, 2020. I. 28. |
Madas BG: Radon induced hyperplasia: effective adaptation reducing the local doses in the bronchial epithelium, JOURNAL OF RADIOLOGICAL PROTECTION 36: (3) pp. 653-666. type of document: Journal paper/Article number of independent citations: 2 language: English Full text |
2016
 from data base, 2020. I. 28. |
Madas BG: Radon Exposure and the Definition of Low Doses - The Problem of Spatial Dose Distribution, HEALTH PHYSICS 111: (1) pp. 47-51. type of document: Journal paper/Article number of independent citations: 4 language: English URL |
2011
 from data base, 2020. I. 28. |
Madas BG, Balásházy I: Mutation induction by inhaled radon progeny modeled at the tissue level, RADIATION AND ENVIRONMENTAL BIOPHYSICS 50: (4) pp. 553-570. type of document: Journal paper/Article number of independent citations: 9 language: English URL |
2009
 from data base, 2020. I. 28. |
Balásházy I, Farkas Á, Madas BG, Hofmann W: Non-linear relationship of cell hit and cell transformation probabilities in a low dose of inhaled radon progenies., JOURNAL OF RADIOLOGICAL PROTECTION 29: (2) pp. 147-162. type of document: Journal paper/Article number of independent citations: 9 language: English URL |
2008
 from data base, 2020. I. 28. |
Balásházy I, Hofmann W, Farkas Á, Madas BG: Three-dimensional model for aerosol transport and deposition in expanding and contracting alveoli., INHALATION TOXICOLOGY 20: (6) pp. 611-621. type of document: Journal paper/Article number of independent citations: 37 language: English URL |
| Number of independent citations to these publications: | 72  |
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