Matthew Hoerner, PhD
Assistant Professor of Radiology and Biomedical Imaging
Research & Publications
Biography
Coauthors
Selected Publications
- Method of determining technique from weight and height to achieve targeted detector exposures in portable chest and abdominal digital radiographyHoerner M, Grizzard K, Moroz J. Method of determining technique from weight and height to achieve targeted detector exposures in portable chest and abdominal digital radiography. Journal Of Applied Clinical Medical Physics 2022, 23: e13582. PMID: 35262265, PMCID: PMC9278666, DOI: 10.1002/acm2.13582.
- Social Distancing with Portable Chest Radiographs During the COVID-19 Pandemic: Assessment of Radiograph Technique and Image Quality Obtained at 6 Feet and Through GlassGange CP, Pahade JK, Cortopassi I, Bader AS, Bokhari J, Hoerner M, Thomas KM, Rubinowitz AN. Social Distancing with Portable Chest Radiographs During the COVID-19 Pandemic: Assessment of Radiograph Technique and Image Quality Obtained at 6 Feet and Through Glass. Radiology Cardiothoracic Imaging 2020, 2: e200420. PMID: 33778645, PMCID: PMC7673079, DOI: 10.1148/ryct.2020200420.
- Is MR-Exclusive Brachytherapy Planning Feasible for Vaginal Cylinders with Stainless Steel Components?Tien C, Hoerner M, Damast S, Chen Z. Is MR-Exclusive Brachytherapy Planning Feasible for Vaginal Cylinders with Stainless Steel Components? Brachytherapy 2019, 18: s112-s113. DOI: 10.1016/j.brachy.2019.04.243.
- Abdominal CT Imaging Applications of Low Kilovoltage Peak TechniquesLevinson MI, Hoerner M, Mustafa A, Pahade JK. Abdominal CT Imaging Applications of Low Kilovoltage Peak Techniques. Journal Of The American College Of Radiology 2018, 16: 482-484. PMID: 30528331, DOI: 10.1016/j.jacr.2018.09.053.
- Three-Dimensional Printing for Construction of Tissue-Equivalent Anthropomorphic Phantoms and Determination of Conceptus Dose.Hoerner MR, Maynard MR, Rajon DA, Bova FJ, Hintenlang DE. Three-Dimensional Printing for Construction of Tissue-Equivalent Anthropomorphic Phantoms and Determination of Conceptus Dose. American Journal Of Roentgenology 2018, 211: 1283-1290. PMID: 30354270, DOI: 10.2214/ajr.17.19489.
- SU‐E‐I‐88: The Effect of System Dead Time On Real‐Time Plastic and GOS Based Fiber‐Optic Dosimetry SystemsHoerner M, Hintenlang D. SU‐E‐I‐88: The Effect of System Dead Time On Real‐Time Plastic and GOS Based Fiber‐Optic Dosimetry Systems. Medical Physics 2015, 42: 3262-3262. DOI: 10.1118/1.4924085.
- Characterizing energy dependence and count rate performance of a dual scintillator fiber‐optic detector for computed tomographyHoerner MR, Stepusin EJ, Hyer DE, Hintenlang DE. Characterizing energy dependence and count rate performance of a dual scintillator fiber‐optic detector for computed tomography. Medical Physics 2015, 42: 1268-1279. PMID: 25735282, DOI: 10.1118/1.4906206.
- Monte Carlo simulations of adult and pediatric computed tomography exams: Validation studies of organ doses with physical phantomsLong DJ, Lee C, Tien C, Fisher R, Hoerner MR, Hintenlang D, Bolch WE. Monte Carlo simulations of adult and pediatric computed tomography exams: Validation studies of organ doses with physical phantoms. Medical Physics 2012, 40: 013901. PMID: 23298124, PMCID: PMC3537704, DOI: 10.1118/1.4771934.
- SU‐E‐I‐41: Characterization of a Linear Fiber‐Optic Coupled DosimeterHoerner M, Hintenlang D. SU‐E‐I‐41: Characterization of a Linear Fiber‐Optic Coupled Dosimeter. Medical Physics 2012, 39: 3634-3634. PMID: 28519520, DOI: 10.1118/1.4734756.
- SU‐GG‐I‐152: Rapid Evaluation of X‐Ray/Light Field Alignment for Digital Radiographic SystemsHoerner M, Hintenlang D. SU‐GG‐I‐152: Rapid Evaluation of X‐Ray/Light Field Alignment for Digital Radiographic Systems. Medical Physics 2010, 37: 3136-3136. DOI: 10.1118/1.3468188.