Anatoly Rosenfeld
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Explore the profile of Anatoly Rosenfeld including associated specialties, affiliations and a list of published articles.
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Articles
119
Citations
511
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Recent Articles
1.
Filipev I, Alnaghy S, Carolan M, Paino J, Petasecca M, Cutajar D, et al.
J Appl Clin Med Phys
. 2025 Mar;
:e70015.
PMID: 40083111
Purpose: We introduce the next generation of "MagicPlate" 2D monolithic pixelated semiconductor detectors - MagicPlate-976 (MP976). It features a larger array area, higher spatial resolution, and does not require external...
2.
May L, Barnes M, Hardcastle N, Hernandez V, Saez J, Rosenfeld A, et al.
Phys Med
. 2025 Jan;
130:104900.
PMID: 39854920
Purpose: Even with modern immobilisation devices, some amount of intrafraction patient motion is likely to occur during stereotactic radiosurgery (SRS) delivery. The aim of this work was to investigate how...
3.
Valceski M, Engels E, Vogel S, Paino J, Potter D, Hollis C, et al.
Cancers (Basel)
. 2025 Jan;
16(24.
PMID: 39766130
: Brain cancer is notoriously resistant to traditional treatments, including radiotherapy. Microbeam radiation therapy (MRT), arrays of ultra-fast synchrotron X-ray beams tens of micrometres wide (called peaks) and spaced hundreds...
4.
Koprivec D, Belanger C, Beaulieu L, Chatigny P, Rosenfeld A, Cutajar D, et al.
Brachytherapy
. 2024 Dec;
24(2):281-292.
PMID: 39690005
Purpose: The purpose of this study was to compare the effect of catheter shift errors and determine patient specific error thresholds (PSETs) for different high dose rate prostate brachytherapy (HDRPBT)...
5.
Kielly M, Chacon A, Caracciolo A, Bolst D, Rosenfeld A, Carminati M, et al.
Phys Med
. 2024 Dec;
129():104866.
PMID: 39671906
Purpose: To evaluate the impact of a range of shielding strategies on the rate of false positive detections by a simulated detector for application in Neutron Capture Enhanced Particle Therapy...
6.
Ballisat L, De Sio C, Beck L, Chambers A, Dillingham M, Guatelli S, et al.
Phys Med
. 2024 Dec;
129():104871.
PMID: 39667143
Purpose: Understanding cell cycle variations in radiosensitivity is important for α-particle therapies. Differences are due to both repair response mechanisms and the quantity of initial radiation-induced DNA strand breaks. Genome...
7.
De Sio C, Ballisat L, Beck L, Guatelli S, Sakata D, Shi Y, et al.
Phys Med
. 2024 Dec;
129():104860.
PMID: 39644875
Introduction: Targeted alpha therapies show great potential for cancer treatment due to their high linear energy transfer (LET) and low range. At is currently employed in clinical trials. Targeted alpha...
8.
Hood S, Newall M, Butler P, OBrien R, Petasecca M, Dillon O, et al.
Med Phys
. 2024 Nov;
52(2):1159-1171.
PMID: 39612370
Background: Image guided radiotherapy (IGRT) with cone-beam computed tomography (CBCT) is limited by the sub-optimal soft-tissue contrast and spatial resolution of energy-integrating flat panel detectors (FPDs) which produce quasi-quantitative CT...
9.
Valceski M, Engels E, Vogel S, Paino J, Potter D, Hollis C, et al.
Sci Rep
. 2024 Nov;
14(1):27591.
PMID: 39528587
DNA damage occurs in all living cells. γ-H2AX imaging by fluorescent microscopy is widely used across disciplines in the analysis of double-strand break (DSB) DNA damage. Here we demonstrate a...
10.
Mizuno H, Nakaji T, Lee S, Sakata D, Aoki K, Mizushima K, et al.
Phys Med Biol
. 2024 Nov;
69(23).
PMID: 39509821
Linear energy transfer (LET) verification was conducted using a silicon-on-insulator (SOI) microdosimeter during the commissioning of LET-optimized carbon-ion radiotherapy (CIRT). This advanced treatment technique is expected to improve local control...