ATOM® Dosimetry Verification Phantoms Publications

Click on the links below to view on the journal website.

Becker SJ, Elliston C, Dewyngaert K, Jozsef G, et al. Breast radiotherapy in the prone position primarily reduces the maximum out-of-field measured dose to the ipsilateral lung. Medical Physics. 2012; 39 (5): 2417-23. View

 

Zhu X, Cahill A M, Felice M, Johnson L, Sarmiento M. Developing Low-Dose C-Arm Ct Imaging for Temporomandibular Joint (tmj) Disorder in Interventional Radiology. Pediatric Radiology. 2010; 41.4:476-482. View

 

Howell RM, Scarboro SB, Kry S, Yaldo DZ. Accuracy of out-of-field dose calculations by a commercial treatment planning system. Physics in Medicine and Biology. 2010; 55(23):6999-7008.  View

 

Howell RM, Scarboro SB, Taddei PJ, et al. Methodology for determining doses to in-field, out-of-field and partially in-field organs for late effects studies in photon radiotherapy. Physics in Medicine and Biology. 2010; 55(23):7009-7023. View

 

Thornton RH, Dauer LT, Altamirano JP, et al. Comparing strategies for operator eye protection in the interventional radiology suite. Journal of Vascular and Interventional Radiology. 2010; 21(11):1703-1707. View

 

Miksys N, Gordon CL, Thomas K, Connolly BL. Estimating Effective Dose to Pediatric Patients Undergoing Interventional Radiology Procedures Using Anthropomorphic Phantoms and MOSFET Dosimeters. American Journal of Roentgenology. 2010; 194(5):1315-1322. View

 

Scarboro SB, Stovall M, White A, et al. Effect of organ size and position on out-of-field dose distributions during radiation therapy. Physics in Medicine and Biology. 2010; 55(23):7025-7036. View

 

Kim S, Yoshizumi TT, Frush DP, Toncheva G, Yin F-FF. Radiation dose from cone beam CT in a pediatric phantom: risk estimation of cancer incidence. American Journal of Roentgenology. 2010; 194(1):186-190. View

 

Jaffe TA, Neville AM, Anderson-Evans C, et al. Early First Trimester Fetal Dose Estimation Method in a Multivendor Study of 16- and 64-MDCT Scanners and Low-Dose Imaging Protocols. American Journal of Roentgenology. 2009; 193(4):1019-1024. View

 

Jaffe TA, Yoshizumi TT, Toncheva G, et al. Radiation Dose for Body CT Protocols: Variability of Scanners at One Institution. American Journal of Roentgenology. 2009; 193(4):1141-1147. View

 

Bastos M d’Almeida, Lee EY, Strauss KJ, et al. Motion Artifact on High-Resolution CT Images of Pediatric Patients: Comparison of Volumetric and Axial CT Methods. American Journal of Roentgenology. 2009; 193(5):1414-1418. View

 

McDermott A, White RA, Mc-Nitt-Gray M, Angel E, Cody D. Pediatric organ dose measurements in axial and helical multislice CT. Medical Physics. 2009; 36(5). View

 

Mazonakis M, Zacharopoulou F, Varveris H, Damilakis J. Peripheral dose measurements for 6 and 18 MV photon beams on a linear accelerator with multileaf collimator. Medical Physics. 2008; 35(10):4396-4403. View

 

Papadakis AE, Perisinakis K, Damilakis J. Automatic exposure control in pediatric and adult multidetector CT examinations: a phantom study on dose reduction and image quality. Medical Physics. 2008; 35(10):4567-4576. View

 

Coursey C, Frush DP, Yoshizumi T, et al. Pediatric Chest MDCT Using Tube Current Modulation: Effect on Radiation Dose with Breast Shielding. American Journal of Roentgenology. 2008; 190(1):W54-61.  View

 

Hollingsworth CL, Yoshizumi TT, Frush DP, et al. Pediatric Cardiac-Gated CT Angiography: Assessment of Radiation Dose. American Journal of Roentgenology.2007; 189(1):12-18. View

 

Brenner DJ, McCollough CH, Orton CG. It is time to retire the computed tomography dose index (CTDI) for CT quality assurance and dose optimization. Medical Physics. 2006; 33(5). View

 

Damilakis J, Stratakis J, Raissaki M, et al. Normalized dose data for upper gastrointestinal tract contrast studies performed to infants. Medical Physics. 2006; 33(4). View

 

Hurwitz LM, Yoshizumi TT, Reiman RE, Paulson EK et al. Radiation Dose to the Female Breast from 16-MDCT Body Protocols. American Journal of Roentgenology. 2006; 186(6):1718-22. View

 

Jaffe TA, Gaca AM, Delaney S, Yoshizumi TT, et al. Radiation doses from small-bowel follow-through and abdominopelvic MDCT in Crohn’s disease. American Journal of Roentgenology. 2007; 189 (5): 1015-22. View

 

Ranade M, Lynch B, Li J, Dempsey J. TH-E-224A-04: IMRT Film QA in a Heterogeneous Anthropomorphic Phantom. Medical Physics. 2006; 33(6). View

 

Hood C, Kron T, Hamilton C, et al. Correlation of 3D-planned and measured dosimetry of photon and electron craniospinal radiation in a pediatric anthropomorphic phantom. Radiotherapy and Oncology. 2005; 77(1):111-116. View

 

Kudchadker RJ, Chang EL, Bryan F, Maor MH, Famiglietti R. An evaluation of radiation exposure from portal films taken during definitive course of pediatric radiotherapy. International Journal of Radiation Oncology, Biology, Physics. 2004; 59(4):1229-1235. View

 

Fricke BL, Donnelly LF, Frush DP, et al. In-Plane Bismuth Breast Shields for Pediatric CT: Effects on Radiation Dose and Image Quality Using Experimental and Clinical Data. American Journal of Roentgenology. 2003; 180(2):407-411. View

 

Varchena V. Pediatric phantoms. Pediatric Radiology. 2002; 32(4):280-284. View

 

Dhabaan A, Schreibmann E, Siddiqi A, et al. Six degrees of freedom CBCT-based positioning for intracranial targets treated with frameless stereotactic radiosurgery. J Appl Clin Med Phys. 2012;13(6):3916. View

 

Emigh B, Gordon CL, Connolly BL, Falkiner M, Thomas KE. Effective dose estimation for pediatric upper gastrointestinal examinations using an anthropomorphic phantom set and metal oxide semiconductor field-effect transistor (MOSFET) technology. Pediatr Radiol. 2013. View

 

Martínez-rovira I, Sempau J, Prezado Y. Monte Carlo-based dose calculation engine for minibeam radiation therapy. Phys Med. 2013. View

 

Tootell AK, Szczepura KR, Hogg P. Optimising the number of thermoluminescent dosimeters required for the measurement of effective dose for computed tomography attenuation correction data in SPECT/CT myocardial perfusion imaging. Radiography. 2013;19(1):42-47. View

 

Zhang R, Howell RM, Giebeler A, Taddei PJ, Mahajan A, Newhauser WD. Comparison of risk of radiogenic second cancer following photon and proton craniospinal irradiation for a pediatric medulloblastoma patient. Phys Med Biol. 2013;58(4):807-23. View

 

Solomon JB, Li X, Samei E. Relating noise to image quality indicators in CT examinations with tube current modulation. AJR Am J Roentgenol. 2013;200(3):592-600. View

 

Huang JY, Followill DS, Wang XA, Kry SF. Accuracy and sources of error of out-of field dose calculations by a commercial treatment planning system for intensity-modulated radiation therapy treatments. J Appl Clin Med Phys. 2013;14(2):4139. View

 

Chan S, Ho Y, Tyan Y, Tsai H. Organ dose and scattering dose for CT coronary angiography and calcium scoring using automatic tube current modulation. Radiation Measurements. 2013. View

 

Wang AJ, Goldsmith ZG, Wang C, et al. Obesity triples the radiation dose of stone protocol computerized tomography. J Urol. 2013;189(6):2142-6. View

 

Ma H, Elbakri IA, Reed M. ESTIMATION OF ORGAN AND EFFECTIVE DOSES FROM NEWBORN RADIOGRAPHY OF THE CHEST AND ABDOMEN. Radiat Prot Dosimetry. 2013. View

 

Johnston JH, Podberesky DJ, Yoshizumi TT, et al. Comparison of radiation dose estimates, image noise, and scan duration in pediatric body imaging for volumetric and helical modes on 320-detector CT and helical mode on 64-detector CT. Pediatr Radiol. 2013. View

 

Szczykutowicz TP, Mistretta CA. Design of a digital beam attenuation system for computed tomography. Part II. Performance study and initial results. Med Phys. 2013;40(2):021906. View

 

Lee YW, Yang CC, Mok GS, Wu TH. Infant cardiac CT angiography with 64-slice and 256-slice CT: comparison of radiation dose and image quality using a pediatric phantom. PLoS ONE. 2012;7(11):e49609. View

 

Astroza G, Neisius A, Wang AJ, et al. Radiation Exposure in the follow-up of patients with urolithiasis comparing Digital Tomosynthesis, Non-Contrast CT, Standard KUB and IVP. J Endourol. 2013 View

 

Neisius A, Wang AJ, Wang C, et al. Radiation Exposure in Urology – A Genitourinary Catalogue for diagnostic imaging. J Urol. 2013. View

 

Thapa, Bishnu Bahadur, “DEVELOPMENT OF A PATIENT SPECIFIC IMAGE PLANNING SYSTEM FOR RADIATION THERAPY” (2013).Theses and Dissertations–Physics and Astronomy.Paper 11. View

 

Anderson-Evans, Colin David. “Estimating Effective Dose from Phantom Dose Measurements in Atrial Fibrillation Ablation Procedures and Comparison of MOSFET and TLD Detectors in a Small Animal Dosimetry Setting.” Thesis. Thesis / Dissertation ETD, 2011. Print. View

 

Lipkin ME, Wang AJ, Toncheva G, Ferrandino MN, Yoshizumi TT, Preminger GM. Determination of patient radiation dose during ureteroscopic treatment of urolithiasis using a validated model. J Urol. 2012;187(3):920-4. View

 

Fujii K, Akahane K, Miyazaki O, et al. Evaluation of organ doses in CT examinations with an infant anthropomorphic phantom. Radiat Prot Dosimetry. 2011;147(1-2):151-5. View

 

Hranitzky, C., & Stadtmann, H. (January 01, 2011). Patient dosimetry study of a paediatric CT examination. Radiation Measurements, 46, 12, 2035-2038. View

 

Theodorakou, C., Walker, A., Horner, K., Pauwels, R., Bogaerts, R., Jacobs, R., & SEDENTEXCT Project Consortium. (January 01, 2012). Estimation of paediatric organ and effective doses from dental cone beam CT using anthropomorphic phantoms. The British Journal of Radiology, 85, 1010, 153-60. View

 

Govia, K., Connolly, B. L., Thomas, K. E., & Gordon, C. L. (April 01, 2012). Estimates of Effective Dose to Pediatric Patients Undergoing Enteric and Venous Access Procedures.Journal of Vascular and Interventional Radiology, 23, 4, 443-450. View

 

Johnson JN, Hornik CP, Li JS, et al. Response to letters regarding article, “cumulative radiation exposure and cancer risk estimation in children with heart disease”. Circulation. 2015;131(16):e419-20.

 

Davis AT, Safi H, Maddison SM. The reduction of dose in paediatric panoramic radiography: the impact of collimator height and programme selection. Dentomaxillofac Radiol. 2015;44(2):20140223. View

 

Beeksma B, Truant D, Holloway L, Arumugam S. An assessment of image distortion and CT number accuracy within a wide-bore CT extended field of view. Australas Phys Eng Sci Med. 2015; View

 

Januzis N, Nguyen G, Frush DP, Hoang JK, Lowry C, Yoshizumi TT. Feasibility of using the computed tomography dose indices to estimate radiation dose to partially and fully irradiated brains in pediatric neuroradiology examinations. Phys Med Biol. 2015;60(14):5699-710.

 

Rehn, Emelie. “Modeling of Scatter Radiation during Interventional X-ray Procedures.” Thesis. Linköping University, Sweden, 2015. View

 

Kaasalainen T, Palmu K, Lampinen A, et al. Limiting CT radiation dose in children with craniosynostosis: phantom study using model-based iterative reconstruction. Pediatr Radiol. 2015. View

 

Baskan, O., Erol, C., Ozbek, H., & Paksoy, Y. (2015). Effect of radiation dose reduction on image quality in adult head CT with noise-suppressing reconstruction system with a 256 slice MDCT. Journal Of Applied Clinical Medical Physics, 16(3). doi:10.1120/jacmp.v16i3.5360 View

 

Taddei PJ, Jalbout W, Howell RM, Khater N, Geara FB, Homann K, Newhauser WD.  Analytical model for out-of-field dose in photon craniospinal irradiation.  Phys. Med. Biol.  58, 7463-7479 (2013). View

 

Koweek, Lynne Hurwitz M. SYSTEMS AND METHODS FOR COMPUTED TOMOGRAPHY (CT) IMAGING USING VARIABLE IMAGE QUALITY FACTORS OR IMAGE CAPTURE SETTINGS IN A SINGLE ACQUISITION. Duke University, assignee. Patent 14/267868. 6 Nov. 2014. View

 

Fisher, R., & Hintenlang, D. (2014). Super-size me: adipose tissue-equivalent additions for anthropomorphic phantoms. Journal Of Applied Clinical Medical Physics, 15(6). doi:10.1120/jacmp.v15i6.5007. View

 

Hidalgo A, Davies J, Horner K, Theodorakou C. Effectiveness of thyroid gland shielding in dental CBCT using a paediatric anthropomorphic phantom. Dentomaxillofac Radiol. 2015;44(3):20140285. View

 

Kim, Jin-Young, Shin-Wook Kim, Bo-Young Choe, Tae-Suk Suh, Sung-Kwang Park, Sun-Mi Jo, Won-Yong Oh, Jung-Wook Shin, Gyu-Seok Cho, Song-Hee Nam, Jin-Beom Chong, Jung-Ki Kim, and Young-Kyu Lee. “Clinical Assessment of the Jaw-tracking Function in IMRT for a Brain Tumor.”Journal of the Korean Physical Society 66.2 (2015): 295-300. View

 

Januzis N, Nguyen G, Hoang JK, Lowry C, Yoshizumi TT. A novel method of estimating effective dose from the point dose method: a case study–parathyroid CT scans. Phys Med Biol. 2015;60(5):1763-73.

 

Kataria B, Sandborg M, Althén JN. IMPLICATIONS OF PATIENT CENTRING ON ORGAN DOSE IN COMPUTED TOMOGRAPHY. Radiat Prot Dosimetry. 2016;:ncv527. View

 

Werncke T, Von falck C, Luepke M, Stamm G, Wacker FK, Meyer BC. Collimation and Image Quality of C-Arm Computed Tomography: Potential of Radiation Dose Reduction While Maintaining Equal Image Quality. Invest Radiol. 2015;50(8):514-21. View

 

John D. Thompson ; Dev P. Chakraborty ; Katy Szczepura ; Ioannis Vamvakas ; Andrew Tootell, et al.
” A phantom-based JAFROC observer study of two CT reconstruction methods: the search for optimisation of lesion detection and effective dose “, Proc. SPIE 9416, Medical Imaging 2015: Image Perception, Observer Performance, and Technology Assessment, 94160B (March 17, 2015); doi:10.1117/12.2081632; View

 

David A. P. Dunkerley ; Michael T. Tomkowiak ; Jordan M. Slagowski ; Bradley P. McCabe ; Tobias Funk, et al.
” Monte Carlo simulation of inverse geometry x-ray fluoroscopy using a modified MC-GPU framework “, Proc. SPIE 9412, Medical Imaging 2015: Physics of Medical Imaging, 94120S (March 18, 2015); doi:10.1117/12.2081684; View

 

Greffier, J., F. Macri, A. Larbi, A. Fernandez, E. Khasanova, F. Pereira, C. Mekkaoui, and J.P. Beregi. “Dose Reduction with Iterative Reconstruction: Optimization of CT Protocols in Clinical Practice.” ScienceDirect. Elsevier, May 2015. Web. View

 

Rivett C, Dixon M, Matthews L, Rowles N. AN ASSESSMENT OF THE DOSE REDUCTION OF COMMERCIALLY AVAILABLE LEAD PROTECTIVE GLASSES FOR INTERVENTIONAL RADIOLOGY STAFF. Radiat Prot Dosimetry. 2016;:ncv540. View

 

Mege JP, Wenzhao S, Veres A, Auzac G, Diallo I, Lefkopoulos D. Evaluation of MVCT imaging dose levels during helical IGRT: comparison between ion chamber, TLD, and EBT3 films. J Appl Clin Med Phys. 2016;17(1):5774. View

 

Hill KD, Wang C, Einstein AJ, et al. Impact of imaging approach on radiation dose and associated cancer risk in children undergoing cardiac catheterization. Catheter Cardiovasc Interv. 2016; View

 

Atsalaki, M., G. Solomou, A.E. Papadakis, and J. Damilakis. “Optimization of Head Radiographic Examination Protocols in Pediatric Patients.” Elsevier, 26 Aug. 2016. Web. View

 

Tan SK, Yeong CH, Ng KH, Abdul aziz YF, Sun Z. Recent Update on Radiation Dose Assessment for the State-of-the-Art Coronary Computed Tomography Angiography Protocols. PLOS ONE. 2016;11(8):e0161543. View

 

Zhu, X., W.P. McCullough, P. Mecca, et al. “Dual-energy Compared to Single-energy CT in Pediatric Imaging: A Phantom Study for DECT Clinical Guidance.” Springer Berlin Heidelberg, 2016. Web. View

 

Tootell, A., M. McEntee, K. Szczepura, and P. Hogg. “Effective Dose and Effective Risk from Post–Single Photon Emission Computed Tomography Imaging of the Lumbar Spine.” Elsevier, 2016. Web. View

 

Guberina, N., S. Suntharalingam, K. Naßenstein, et al. “Clinical Evaluation of a Dose Monitoring Software Tool Based on Monte Carlo Simulation in Assessment of Eye Lens Doses for Cranial CT Scans.” Springer Berlin Heidelberg, 2016. Web. View

 

Cheng CS, Jong WL, Ung NM, Wong J. Evaluation of Imaging Dose From Different Image Guided Systems During Head and Neck Radiotherapy: A Phantom Study. Radiat Prot Dosimetry. 2016; View

 

Park SY, Choi CH, Park JM, Chun M, Han JH, Kim JI. A Patient-Specific Polylactic Acid Bolus Made by a 3D Printer for Breast Cancer Radiation Therapy. PLOS ONE. 2016;11(12):e0168063. View

 

Shin, R., F. Cabrera, G. Nguyen, et al. “Radiation Dosimetry for Ureteroscopy Patients: A Phantom Study Comparing the Standard and Obese Patient Models.” Journal of Endourology, 2016. Web. View

 

Masuda, T., Y. Funama, M. Kiguchi, et el. “Radiation Dose Reduction Based on CNR Index with Low-tube Voltage Scan for Pediatric CT Scan: Experimental Study Using Anthropomorphic Phantoms.” SpringerPlus, 2016. Web. View

 

Sookpeng, S., and C. Butdee. “Signal-to-noise Ratio and Dose to the Lens of the Eye for Computed Tomography Examination of the Brain Using an Automatic Tube Current Modulation System.” Emergency Radiology, 2016. Web. View

 

Guberina, N., U. Lechel, M. Forsting, and A. Ringelstein. “Efficacy of High-pitch CT Protocols for Radiation Dose Reduction.” IOP Publishing, 2016. Web.

 

Pitteloud, M., A. Gamulin, C. Barea, et al. “Radiation Exposure Using the O-arm® Surgical Imaging System.” European Spine Journal, 2016. Web. View

 

Thompson, JD, DP Chakraborty, K. Szczepura, et al. “Effect of Reconstruction Methods and X-ray Tube Current on Nodule Detection in an Anthropomorphic Thorax Phantom: A Crossed-modality JAFROC Observer Study.” ResearchGate, 2016. Web. View

 

Chung, K., Y. Han, S. H. Ahn, et al. “Commissioning and Validation of a Dedicated Scanning Nozzle at Samsung Proton Therapy Center.” Korean Society of Medical Physics, 2016. Web. View

 

Gomez-Cardona, D., J. Hayes, and R. Zhang. “Low Signal Correction Scheme for Low Dose CBCT: The Good, the Bad, and the Ugly.” Proc. SPIE 10132, Medical Imaging 2017: Physics of Medical Imaging, 101320Z, 2017. Web. View

 

Tootell, A., M. McEntee, K. Szczepura, and P. Hogg. “Effective Dose and Effective Risk from Post–Single Photon Emission Computed Tomography Imaging of the Lumbar Spine.” Elsevier, 2016. Web. View

 

Guberina, N., S. Suntharalingam, K. Naßenstein, et al. “Clinical Evaluation of a Dose Monitoring Software Tool Based on Monte Carlo Simulation in Assessment of Eye Lens Doses for Cranial CT Scans.” Springer Berlin Heidelberg, 2016. Web. View

 

Cheng CS, Jong WL, Ung NM, Wong J. Evaluation of Imaging Dose From Different Image Guided Systems During Head and Neck Radiotherapy: A Phantom Study. Radiat Prot Dosimetry. 2016; View

 

Park SY, Choi CH, Park JM, Chun M, Han JH, Kim JI. A Patient-Specific Polylactic Acid Bolus Made by a 3D Printer for Breast Cancer Radiation Therapy. PLOS ONE. 2016;11(12):e0168063. View

 

Shin, R., F. Cabrera, G. Nguyen, et al. “Radiation Dosimetry for Ureteroscopy Patients: A Phantom Study Comparing the Standard and Obese Patient Models.” Journal of Endourology, 2016. Web. View

 

Masuda, T., Y. Funama, M. Kiguchi, et el. “Radiation Dose Reduction Based on CNR Index with Low-tube Voltage Scan for Pediatric CT Scan: Experimental Study Using Anthropomorphic Phantoms.” SpringerPlus, 2016. Web. View

 

Sookpeng, S., and C. Butdee. “Signal-to-noise Ratio and Dose to the Lens of the Eye for Computed Tomography Examination of the Brain Using an Automatic Tube Current Modulation System.” Emergency Radiology, 2016. Web. View

 

Guberina, N., U. Lechel, M. Forsting, and A. Ringelstein. “Efficacy of High-pitch CT Protocols for Radiation Dose Reduction.” IOP Publishing, 2016. Web.

 

Pitteloud, M., A. Gamulin, C. Barea, et al. “Radiation Exposure Using the O-arm® Surgical Imaging System.” European Spine Journal, 2016. Web. View

 

Thompson, JD, DP Chakraborty, K. Szczepura, et al. “Effect of Reconstruction Methods and X-ray Tube Current on Nodule Detection in an Anthropomorphic Thorax Phantom: A Crossed-modality JAFROC Observer Study.” ResearchGate, 2016. Web. View

 

Chung, K., Y. Han, S. H. Ahn, et al. “Commissioning and Validation of a Dedicated Scanning Nozzle at Samsung Proton Therapy Center.” Korean Society of Medical Physics, 2016. Web. View

 

Gomez-Cardona, D., J. Hayes, and R. Zhang. “Low Signal Correction Scheme for Low Dose CBCT: The Good, the Bad, and the Ugly.” Proc. SPIE 10132, Medical Imaging 2017: Physics of Medical Imaging, 101320Z, 2017. Web. View