C Grassberger… - Medical Physics, 2011 - link.aip.org Purpose: To assess the contribution of secondary particles to pencil and passively scattered proton beams, in particular to determine the impact on linear energy transfer (LET), a central quantity in biological treatment planning. Methods: Proton Monte Carlo simulations were ...
MB Sowa, W Goetz, JE Baulch, AJ Lewis… - Radiation Protection …, 2011 - NTP It has become increasingly evident from reports in the literature that there are many confounding factors capable of modulating radiation-induced non-targeted responses, such as the bystander effect and the adaptive response. In this paper, we examine recent data which suggest ... Related articles - All 5 versions
N Aravindan, J Veeraraghavan… - International Journal of …, 2011 - Elsevier SK-N-MC or SH-SY5Y cells exposed to IR and treated with curcumin (10–100 nM) with or without IR were harvested after 1 h through 24 h. NFκB-dependent regulation was investigated either by luciferase reporter assays using pNFκB-, pGL3-354-, pGL3-347-, or pUSE-IκBα-Luc, ... Cited by 2 - Related articles - All 7 versions
M Maryanski, O Lopatiuk‐Tirpak, Z Su, Z Li… - Medical Physics, 2011 - link.aip.org Purpose: preliminary investigation of the new unique formulation of BANG3‐Pro polymer gels for detecting and mapping local variations of LET in proton beam deliveries. Methods: Four polymer gel dosimeters — labeled A through D and employing four different systems of ...
A Faught… - Medical Physics, 2011 - link.aip.org Purpose: To develop and implement a three dimensional, analytical model for linear energy transfer (LET) calculations of a clinical proton beam based on a one dimensional model presented in the literature for use in calculating variable relative biological effectiveness (RBE) ...
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