Journal of Cancer Therapy

Journal of Cancer Therapy

ISSN Print: 2151-1934
ISSN Online: 2151-1942
www.scirp.org/journal/jct
E-mail: jct@scirp.org
"Clinical and Dosimetric Implications of Air Gaps between Bolus and Skin Surface during Radiation Therapy"
written by Yousaf Khan, J. Eduardo Villarreal-Barajas, Mona Udowicz, Richie Sinha, Wazir Muhammad, Ahmed N. Abbasi, Amjad Hussain,
published by Journal of Cancer Therapy, Vol.4 No.7, 2013
has been cited by the following article(s):
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[1] First Clinical Experience of Tungsten Rubber Electron Adaptive Therapy With Real-time Variable-shape Tungsten Rubber
2021
[2] Characteristics of a bolus created using thermoplastic sheets for postmastectomy radiation therapy
2021
[3] Evaluation of Dosimetric Properties of Handmade Bolus for Megavoltage Electron and Photon Radiation Therapy
2021
[4] Simplification and unfolding of 3D mesh models: review and evaluation of existing tools
2021
[5] Characterization of 3D-printed bolus produced at different printing parameters
2021
[6] Development of a transparent and flexible patient-specific bolus for total scalp irradiation
2021
[7] A process of efficient bolus shaping for cancer care
2020
[8] Influence of air gap under bolus in the dosimetry of a clinical 6 MV photon beam
2020
[9] 硅胶产生的空腔对乳腺癌根治术后调强放射治疗的剂量学影响
2020
[10] Artificial Intelligence to Advance Adaptive Radiation Therapy
2020
[11] eXaSkin: A novel high-density bolus for 6MV X-rays radiotherapy
2020
[12] 3D-printed bolus improves dose distribution for veterinary patients treated with photon beam radiation therapy
2020
[13] The Application of 3D Bolus with Neck in the Treatment of Hypopharynx Cancer in VMAT
2020
[14] Comparison of Dose Distribution Effects for Various Bolus Materials in Electron Conformal Radiotherapy
2020
[15] Low-Cost iPhone-Assisted Processing to Obtain Radiotherapy Bolus Using Optical Surface Reconstruction and 3D-Printing
2020
[16] Assessing the fit of 3D printed bolus from CT, optical scanner and photogrammetry methods
2020
[17] Fabrication of Alternative Bolus for Cobalt-60 Teletherapy Using Two Locally Available Materials
2020
[18] Skin dose enhancement from the application of skin-care creams using FF and FFF photon beams in radiotherapy: A Monte Carlo phantom evaluation
2020
[19] Manufacturing a Functional Bolus Using a 3D printer in Radiation Therapy
2020
[20] Characterization and clinical validation of patient-specific three-dimensional printed tissue-equivalent bolus for radiotherapy of head and neck malignancies involving …
2020
[21] The air gap between bolus and skin affects dose distribution in helical and direct tomotherapy
2020
[22] Clinical Impact of the Bolus in Intensity-Modulated Radiotherapy and Volumetric-Modulated Arc Therapy for Stage I–II Nasal Natural Killer/T-Cell Lymphoma
2020
[23] Feasibility of using tungsten functional paper as a thin bolus for electron beam radiotherapy
2020
[24] Dosimetric Comparison of Superflab and Specially Prepared Bolus Materials Used in Radiotherapy Practice
2020
[25] Evaluation of the Usefulness of Patient Customized Shielding Block Made with 3D Printer in the Skin Cancer Electron Beam Therapy
2019
[26] Simple and Rapid Creation of Customized 3-dimensional Printed Bolus Using iPhone X True Depth Camera
2019
[27] Effect of Bolus Type and Air Gaps on Patient Dose.
2019
[28] Low-cost optical scanner and 3-dimensional printing technology to create lead shielding for radiation therapy of facial skin cancer: First clinical case series
Advances in Radiation Oncology, 2018
[29] Enhancing benefits of bolus use through minimising the effect of air-gaps on dose distribution in photon beam radiotherapy
2018
[30] Monte Carlo investigation on the effect of air gap under bolus in post-mastectomy radiotherapy
Physica Medica, 2018
[31] МОДЕЛИРОВАНИЕ ВЛИЯНИЯ ВОЗДУШНЫХ ПОЛОСТЕЙ МЕЖДУ БОЛЮСОМ И КОЖЕЙ НА ПОВЕРХНОСТНУЮ ДОЗУ ПРИ ОБЛУЧЕНИИ ПУЧКАМИ …
2018
[32] The Effect of CTV Shrinkage Margins in Treatment Planning Systems to the Breast Surface Doses
2018
[33] Evaluation of Surface Doses and Effect of Air Gaps Under Bolus during External Photon Beam Radiotherapy
2018
[34] Efficacy of patient-specific bolus created using three-dimensional printing technique in photon radiotherapy
Physica Medica, 2017
[35] The use of 3D printing within radiation therapy to improve bolus conformity: a literature review
Journal of Radiotherapy in Practice, 2017
[36] Development of an Analytic Software Using Pencil Beam Scanning Proton Beam
Progress in Medical Physics, 2017
[37] Dosimetric characterization of 3D printed bolus at different infill percentage for external photon beam radiotherapy
Physica Medica, 2017
[38] Bolus de compensación personalizado de hidrogel: Caracterización radiológica, uso clínico e incertidumbre de colocación
2017
[39] Intra-patient study comparing 3D printed bolus versus standard vinyl gel sheet bolus for postmastectomy chest wall radiation therapy
2017
[40] Intrapatient study comparing 3D printed bolus versus standard vinyl gel sheet bolus for postmastectomy chest wall radiation therapy
Practical Radiation Oncology, 2017
[41] Dozimetrinis ir klinikinis boluso padėties keitimo vertinimas pooperaciniame krūties vėžio švitinimo etape
2016
[42] On Presentation of Optimal Treatment Plan in Radiotherapy of Parotid Cancer: A Comparison of Nine Techniques in Three Dimensional Conformal Radiation Therapy …
2016
[43] On Presentation of Optimal Treatment Plan in Radiotherapy of Parotid Cancer: A Comparison of Nine Techniques in Three Dimensional Conformal Radiation …
2016
[44] On Presentation of Optimal Treatment Plan in Radiotherapy of Parotid Cancer: A Comparison of Nine Techniques in Three Dimensional Conformal Radiation Therapy (3DCRT)
International Journal of Medical Imaging, 2016
[45] Bolus in Radiation Therapy: The Versatility of Water.
Radiation Therapist, 2016
[46] Customized 3D Printed Bolus for Breast Reconstruction for Modified Radical Mastectomy (MRM)
Progress in Medical Physics, 2016
[47] A Patient-Specific Polylactic Acid Bolus Made by a 3D Printer for Breast Cancer Radiation Therapy
PLOS ONE, 2016
[48] 乳腺癌根治术后调强放射治疗下不同硅胶设置的肺组织剂量评估
中国医学物理学杂志, 2016
[49] Studies of automatic dental cavity detection system as an auxiliary tool for diagnosis of dental caries in digital x-ray image
Progress in Medical Physics, 2015
[50] Comparative Study on the Surface Dose of Some Bolus Materials
International Journal of Medical Physics, Clinical Engineering and Radiation Oncology, 2015
[51] Monte Carlo Simulation of the Carbon Beam Nozzle for the Biomedical Research Facility in RAON
Progress in Medical Physics, 2015
[52] A Study on Developing Customized Bolus using 3D Printers
2015
[53] Postoperative Complications after Preoperative Chemoradiotherapy Combined with Hyperthermia in Locally Advanced Rectal Cancer
Progress in Medical Physics, 2014
[54] Dosimetry for 131 Cs and 125 I seeds in solid water phantom using radiochromic EBT film
Applied Radiation and …, 2014
[55] An Evaluation of Two Approaches to Skin Bolus Design for Patients Receiving Radiotherapy for Head and Neck Cancers
Journal of Medical Imaging and Radiation Sciences, 2014
[56] Characteristics of Photon Beam through a Handmade Build-Up Modifier as a Substitute of a Bolus
Progress in Medical Physics, 2014
[57] Surface Dose Enhancement Using Low-Z Electron/Photon Beams
2014
[58] A Customized Bolus Produced Using a 3-Dimensional Printer for Radiotherapy
PloS one, 2014
[59] Dosimetric Advantages of the Field-in-field Plan Compared with the Tangential Wedged Beams Plan for Whole-breast Irradiation
Progress in Medical Physics, 2014
[60] Dosimetry for 131Cs and 125I seeds in solid water phantom using radiochromic EBT film
Applied Radiation and Isotopes, 2014
[61] Evaluation of Dose Reduction of Cardiac Exposure Using Deep-inspiration Breath Hold Technique in Left-sided Breast Radiotherapy
Progress in Medical Physics, 2013
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