1 김연실, "특집/사이버나이프 로봇형 방사선수술장치를 이용한 암 치료" 대한의사협회 51 (51): 630-637, 2008
2 김용배, "특집/방사선치료의 진화: 고정밀방사선치료" 대한의사협회 51 (51): 604-611, 2008
3 한범희, "진단용 X선 장치에서 방사선출력의 재현성 평가(IEC 60601-2-54 표준규격을 기반으로)" 한국디지털정책학회 12 (12): 555-561, 2014
4 서선열, "중증외상환자 CT 검사 시 검사보조자의 방사선피폭 경감을 위한 융합적 망토 차폐체의 유용성 연구" 한국융합학회 8 (8): 211-216, 2017
5 이강연, "종양치료용 고주파 열치료 인체적용 시뮬레이션" 한국융합학회 9 (9): 257-263, 2018
6 전영준, "사이버나이프에서 Xsight spine tracking system을 이용한 3D 표적위치보정의 유용성 평가" 한국디지털정책학회 13 (13): 331-339, 2015
7 Kei Kitamura, "Three-dimensional intrafractional movement of prostate measured during real-time tumor-tracking radiotherapy in supine and prone treatment positions" Elsevier BV 53 (53): 1117-1123, 2002
8 W. Kilby, "The CyberKnife® Robotic Radiosurgery System in 2010" SAGE Publications 9 (9): 433-452, 2010
9 Cihat Ozhasoglu, "Synchrony – Cyberknife Respiratory Compensation Technology" Elsevier BV 33 (33): 117-123, 2008
10 L Leksell, "Stereotactic radiosurgery" BMJ 46 (46): 797-803, 1983
1 김연실, "특집/사이버나이프 로봇형 방사선수술장치를 이용한 암 치료" 대한의사협회 51 (51): 630-637, 2008
2 김용배, "특집/방사선치료의 진화: 고정밀방사선치료" 대한의사협회 51 (51): 604-611, 2008
3 한범희, "진단용 X선 장치에서 방사선출력의 재현성 평가(IEC 60601-2-54 표준규격을 기반으로)" 한국디지털정책학회 12 (12): 555-561, 2014
4 서선열, "중증외상환자 CT 검사 시 검사보조자의 방사선피폭 경감을 위한 융합적 망토 차폐체의 유용성 연구" 한국융합학회 8 (8): 211-216, 2017
5 이강연, "종양치료용 고주파 열치료 인체적용 시뮬레이션" 한국융합학회 9 (9): 257-263, 2018
6 전영준, "사이버나이프에서 Xsight spine tracking system을 이용한 3D 표적위치보정의 유용성 평가" 한국디지털정책학회 13 (13): 331-339, 2015
7 Kei Kitamura, "Three-dimensional intrafractional movement of prostate measured during real-time tumor-tracking radiotherapy in supine and prone treatment positions" Elsevier BV 53 (53): 1117-1123, 2002
8 W. Kilby, "The CyberKnife® Robotic Radiosurgery System in 2010" SAGE Publications 9 (9): 433-452, 2010
9 Cihat Ozhasoglu, "Synchrony – Cyberknife Respiratory Compensation Technology" Elsevier BV 33 (33): 117-123, 2008
10 L Leksell, "Stereotactic radiosurgery" BMJ 46 (46): 797-803, 1983
11 T. Biswas, "SU‐E‐T‐422: Lung SBRT Using Cyberknife: Technique and Treatment Outcome" 39 (39): 3801-3802, 2012
12 Achim Schweikard, "Robotic Motion Compensation for Respiratory Movement during Radiosurgery" Informa UK Limited 5 (5): 263-277, 2010
13 Philippe Giraud, "Respiratory Gating Techniques for Optimization of Lung Cancer Radiotherapy" Elsevier BV 6 (6): 2058-2068, 2011
14 A. Schweikard, "Respiration tracking in radiosurgery" 31 (31): 2738-2741, 2004
15 Kenneth H. Wong, "Quantitative Measurement of CyberKnife Robotic Arm Steering" SAGE Publications 6 (6): 589-594, 2016
16 Tae Suk Suh, "Physical and Biological Background of Radiosurgery" Korean Medical Association (KAMJE) 51 (51): 16-26, 2008
17 S. Webb, "Optimization by simulated annealing of three-dimensional conformal treatment planning for radiation fields defined by a multileaf collimator" 36 (36): 1201-, 1991
18 Jan-Martin Kuhnigk, "New Tools for Computer Assistance in Thoracic CT. Part 1. Functional Analysis of Lungs, Lung Lobes, and Bronchopulmonary Segments" Radiological Society of North America (RSNA) 25 (25): 525-536, 2005
19 김정호, "Improvement of Beam-Quality Evaluation Method for Medical Linear Accelerator Using Magnetic Field" 한국자기학회 20 (20): 120-128, 2015
20 Thomas Rockwell Mackie, "Image guidance for precise conformal radiotherapy" Elsevier BV 56 (56): 89-105, 2003
21 Mehrdad Sarfaraz, "CyberKnife® Robotic Arm Stereotactic Radiosurgery" Elsevier BV 4 (4): 563-565, 2007
22 R. Shirazi, "CyberKnife stereotactic body radiation therapy for palliation and local control in patients with advanced pancreatic cancer: A retrospective review." American Society of Clinical Oncology (ASCO) 29 (29): e14506-e14506, 2011
23 P. C. Gerszten, "CyberKnife Frameless Stereotactic Radiosurgery for Spinal Lesions: Clinical Experience in 125 Cases" Ovid Technologies (Wolters Kluwer Health) 55 (55): 89-99, 2004
24 Mischa Hoogeman, "Clinical Accuracy of the Respiratory Tumor Tracking System of the CyberKnife: Assessment by Analysis of Log Files" Elsevier BV 74 (74): 297-303, 2009