D J Brenner

Overview

Explore the profile of D J Brenner including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 369

Citations 7490

Followers 0

Related Specialties

Microbiology

Radiology

Genetics

Top 10 Co-Authors

A G Steigerwalt

E J Hall

R K Sachs

G R Fanning

J J Farmer 3rd

C W MOSS

W L Thacker

D G Hollis

R E Weaver

R F Benson

Published In

J Clin Microbiol

Radiat Res

Int J Radiat Oncol Biol Phys

Int J Syst Bacteriol

Int J Radiat Biol

Affiliations

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Recent Articles

Traceable dosimetry for MeV ion beams

Garty G, Harken A, Brenner D

J Instrum . 2022 May; 17(2). PMID: 35497570

Standard dosimetry protocols exist for highly penetrating photon and particle beams used in the clinic and in research. However, these protocols cannot be directly applied to shallow penetration MeV-range ion...

Proton Irradiation Platforms for Preclinical Studies of High-Dose-Rate (FLASH) Effects at RARAF

Grilj V, Buonanno M, Welch D, Brenner D

Radiat Res . 2020 Sep; 194(6):646-655. PMID: 32926735

Limited availability of proton irradiators optimized for high-dose-rate studies makes the preclinical research of proton FLASH therapy challenging. We assembled two proton irradiation platforms that are capable of delivering therapeutic...

LET dependent response of GafChromic films investigated with MeV ion beams

Grilj V, Brenner D

Phys Med Biol . 2018 Dec; 63(24):245021. PMID: 30524014

The change in optical properties of GafChromic films depends not only on the absorbed dose, but also on the linear energy transfer (LET) of the ionizing radiation. The influence of...

A Horizontal Multi-Purpose Microbeam System

Xu Y, Randers-Pehrson G, Marino S, Garty G, Harken A, Brenner D

Nucl Instrum Methods Phys Res A . 2018 Feb; 888:18-21. PMID: 29479127

A horizontal multi-purpose microbeam system with a single electrostatic quadruplet focusing lens has been developed at the Columbia University Radiological Research Accelerator Facility (RARAF). It is coupled with the RARAF...

Mathematical modelling of scanner-specific bowtie filters for Monte Carlo CT dosimetry

Kramer R, Cassola V, Andrade M, de Araujo M, Brenner D, Khoury H

Phys Med Biol . 2017 Jan; 62(3):781-809. PMID: 28072578

The purpose of bowtie filters in CT scanners is to homogenize the x-ray intensity measured by the detectors in order to improve the image quality and at the same time...

THE DECADE OF THE RABiT (2005-15)

Garty G, Turner H, Salerno A, Bertucci A, Zhang J, Chen Y, et al.

Radiat Prot Dosimetry . 2016 Jul; 172(1-3):201-206. PMID: 27412510

The RABiT (Rapid Automated Biodosimetry Tool) is a dedicated Robotic platform for the automation of cytogenetics-based biodosimetry assays. The RABiT was developed to fulfill the critical requirement for triage following...

Defining AML and MDS second cancer risk dynamics after diagnoses of first cancers treated or not with radiation

Radivoyevitch T, Sachs R, Gale R, Molenaar R, Brenner D, Hill B, et al.

Leukemia . 2015 Oct; 30(2):285-94. PMID: 26460209

Risks of acute myeloid leukemia (AML) and/or myelodysplastic syndromes (MDS) are known to increase after cancer treatments. Their rise-and-fall dynamics and their associations with radiation have, however, not been fully...

A Mouse Ear Model for Bystander Studies Induced by Microbeam Irradiation

Buonanno M, Randers-Pehrson G, Smilenov L, Kleiman N, Young E, Ponnayia B, et al.

Radiat Res . 2015 Jul; 184(2):219-25. PMID: 26207682

Radiation-induced bystander effects have been observed in vitro and in cell and tissue culture models, however, there are few reported studies showing these effects in vivo. To our knowledge, this...

Microbeam-coupled capillary electrophoresis

Garty G, Ehsan M, Buonanno M, Yang Z, Sweedler J, Brenner D

Radiat Prot Dosimetry . 2015 Apr; 166(1-4):188-91. PMID: 25870435

Within the first few microseconds following a charged particle traversal of a cell, numerous oxygen and nitrogen radicals are formed along the track. Presented here is a method, using capillary...

10.

Construction of mouse phantoms from segmented CT scan data for radiation dosimetry studies

Welch D, Harken A, Randers-Pehrson G, Brenner D

Phys Med Biol . 2015 Apr; 60(9):3589-98. PMID: 25860401

We present the complete construction methodology for an anatomically accurate mouse phantom made using materials which mimic the characteristics of tissue, lung, and bone for radiation dosimetry studies. Phantoms were...