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欧文学術論文

  1. Fukushima K, Matsubara K, Ichikawa N. Basic characteristics of vision badge and its performance as an eye lens dosimeter for endoscopists. J Radiol Prot. 2024 (Epub ahead of print)
  2. Matsubara K, Nakajima A, Hirosawa A, Yoshikawa R, Ichikawa N, Fukushima K, Fukuda A. Effect of radioprotective curtain length on the scattered dose rate distribution and endoscopist eye lens dose with an over-couch fluoroscopy system. Phys Eng Sci Med. 2024 (Epub ahead of print)
  3. Fukuda A, Ichikawa N, Hayashi T, Hirosawa A, Matsubara K. Half-value layer measurements using solid-state detectors and single-rotation technique with lead apertures in spiral computed tomography with and without a tin filter. Radiol Phys Technol. 2024;17(1):207-218.
  4. Hirosawa A, Matsubara K, Fukuda A, Morioka Y, Kitagawa M, Ogawa Y. Influence of dosimeter depth on estimating patient’s eye lens dose in head computed tomography: A measurement and Monte Carlo simulation study. Radiat Meas. 2023;166:106984.
  5. Ichikawa N, Matsubara K, Fukuda A, Hayashi T, Takamatsu K, Kuramoto T. Energy-based Hp(3) measurement using solid-state detector. Radiat Prot Dosimetry 2023;199(11):1166-1173.
  6. Urikura A, Yoshida T, Matsubara K, Nomura K, Hoshino T, Takagi T. Number of computed tomography scanners and regional disparities based on population and medical resources in Japan. Radiol Phys Technol. 2023;16(3):355-365.
  7. Nagaike K, Hayashi S, Yakushijin T, Yamamoto M, Sumiyoshi T, Yamaguchi S, Tamaru Y, Yamada T, Tsumura H, Nakai Y, Doyama H, Maetani I, Takagi T, Asai S, Matsubara K, Takenaka M, Hosono M, Nishida T. Radiation dose and factors related to exceeding the diagnostic reference level in 496 transnasal ileus tube placement procedures from the REX-GI study. Br J Radiol. 2023;96(1146):20230086. 
  8. Fukushima K, Matsubara K, Tanabe M, Ito H. Eye lens dose for medical staff assisting patients during computed tomography: comparison of several types of radioprotective glasses. J Radiol Prot. 2023;43(2):021505.
  9. Shibata H, Matsubara K, Asada Y, Takemura A, Kozawa I. Physical and visual evaluations of CT image quality of large low-contrast objects with visual model-based iterative reconstruction technique: a phantom study. Phys Eng Sci Med. 2023;46(1):141-150.
  10. Ueno H, Matsubara K, Bou S, Hizume M. Accuracy of patient dose estimation in cone beam computed tomography in breast irradiation by size-specific dose estimates with position correction. J Appl Clin Med Phys. 2022;23(12):e13851.
  11. Fukuda A, Ichikawa N, Hayashi T, Lin PP, Matsubara K. Reducing stray radiation with a novel detachable lead arm support in percutaneous coronary intervention. J Appl Clin Med Phys. 2022;23(10):e13763.
  12. Anam C, Naufal A, Fujibuchi T, Matsubara K, Dougherty G. Automated development of the contrast-detail curve based on statistical low-contrast detectability in CT images. J Appl Clin Med Phys. 2022;e13719.
  13. Ito H, Matsubara K, Kobayashi I, Sakai T, Isobe T, Yanagawa N, Ochi S. Usefulness of a lead-acrylic shield for reducing lens dose of assistant in x-ray CT examination. J Radiol Prot. 2022;42(2):10.1088/1361-6498/ac7919.
  14. Kozuma K, Chikamori T, Hashimoto J, Honye J, Ikeda T, Ishiwata S, Kato M, Kondo H, Matsubara K, Matsumoto K, Matsumoto N, Motoyama S, Obunai K, Sakamoto H, Soejima K, Suzuki S, Abe K, Amano H, Hioki H, Iimori T, Kawai H, Kosuge H, Nakama T, Suzuki Y, Takeda K, Ueda A, Yamashita T, Hirao K, Kimura T, Nagai R, Nakamura M, Shimizu W, Tamaki N; Japanese Circulation Society Joint Working Group. JCS 2021 Guideline on Radiation Safety in Cardiology. Circ J. 2022;86(7):1148-1203.
  15. Chusin T, Yabsantia S, Matsubara K. The measurement of entrance surface dose using optically stimulated luminescence dosimeters for determining average glandular dose in digital breast tomosynthesis: Measurement and simulation study. J Appl Clin Med Phys. 2022;23(1):e13485.
  16. Fukuda A, Lin PP, Ichikawa N, Matsubara K. Determination of geometric information and radiation field overlaps on the skin in percutaneous coronary interventions with computer-aided design-based X-ray beam modeling. J Appl Clin Med Phys. 2021;22:140-148.
  17. Hirosawa A, Matsubara K, Morioka Y, Kitagawa M, Chusin T, Takemura A. Use of optically stimulated luminescence dosimeter and radiophotoliminescent glass dosimeter for dose measurement in dual-source dual-energy computed tomography. Phys Eng Sci Med. 2021;44:1311-1319.
  18. Ichikawa N, Fukuda A, Hayashi T, Matsubara K. Effect of equalization filters on measurements with kerma-area product meter in a cardiovascular angiography system. J Appl Clin Med Phys. 2021;22:177-185.
  19. Furukawa Y, Matsubara K, Tsutsumi Y. A comparison of automatic and manual compensation methods for the calculation of tube currents during off-centered patient positioning with a noise-based automatic exposure control system in computed tomography. Phys Eng Sci Med. 2021;44:823-832.
  20. Matsubara K. Assessment of Radiation Dose in Medical Imaging and Interventional Radiology Procedures for Patient and Staff Safety. Diagnostics 2021;11:1116.
  21. Ueno H, Matsubara K, Takemura A, Bou S. Evaluation of the relationship between phantom position and computed tomography dose index in cone beam computed tomography when assuming breast irradiation. J Appl Clin Med Phys. 2021;22:262-267.
  22. Suzuki A, Matsubara K, Chusin T, Suzuki Y. Radiation doses to the eye lenses of radiologic technologists who assist patients undergoing computed tomography. Radiol Phys Technol. 2021;14:167-172.
  23. Tanaka T, Matsubara K, Kobayashi S. Evaluation of peak skin dose during percutaneous coronary intervention procedures: relationship with fluoroscopic pulse rate and target vessel. Radiol Phys Technol. 2021;14:34-40.
  24. Fukunaga M, Matsubara K, Ichikawa S, Mitsui H, Yamamoto H, Miyati T. CT dose management of adult patients with unknown body weight using an effective diameter. Eur J Radiol. 2021;135:109483.
  25. Furukawa Y, Matsubara K, Miyati T. Inadequate object positioning and improvement of automatic exposure control system calculations based on an empirical algorithm. Phys Eng Sci Med. 2021;44:37-44.
  26. Matsubara K, Yoshida S, Hirosawa A, Chusin T, Furukawa Y. Characterization of small dosimeters used for measurement of eye lens dose for medical staff during fluoroscopic examination. Diagnostics. 2021;11:150.
  27. Matsubara K, Kawashima H, Kobayashi M, Fukuda A. Performance evaluation of near-real time angular tube current modulation in X-ray computed tomography using real-time dosimeter: A phantom study. Health and Technology. 2020;10:1437-43.
  28. Anam C, Sutanto H, Adi K, Budi WS, Muhlisin Z, Haryanto F, Matsubara K, Fujibuchi T, Dougherty G. Development of a computational phantom for validation of automated noise measurement in CT images. Biomed Phys Eng Express. 2020;6:065001.
  29. Matsubara K, Takei Y, Mori H, Kobayashi I, Noto K, Igarashi T, Suzuki S, Akahane K. A multicenter study of radiation doses to the eye lenses of medical staff performing non-vascular imaging and interventional radiology procedures in Japan. Phys Med. 2020;74:83-91.
  30. Kuriyama K, Matsubara K, Hisahara S, Nagata Y, Nosaka R, Goto R, Yanano N, Shimizu K, Shohji T. ffect of Table Height Displacement and Patient Center Deviation on Size-Specific Dose Estimates Calculated from CT Localizer Radiographs. Phys Eng Sci Med. 2020;43:665-72.
  31. Chusin T, Matsubara K, Takemura A, Okubo R, Ogawa Y. Validation of mammographic X-ray spectra generated using Particle and Heavy Ion Transport code System. Phys Med Biol. 2020;65:065004.
  32. Suzuki A, Matsubara K, Chusin T, Suzuki Y. LEAD GLASSES SIGNIFICANTLY REDUCED RADIATION DOSES TO EYE LENSES OF UROLOGISTS DURING PROCEDURES INVOLVING OVER-COUCH X-RAY TUBES. Radiat Prot Dosimetry. 2020;189:28-34.
  33. Tanaka T, Matsubara K, Fukuda A, Kobayashi S. ESTIMATION OF Hp(3) TO THE EYE LENS OF INTERVENTIONAL RADIOLOGISTS-RELATION BETWEEN THE EYE LENS DOSE AND RADIOLOGIST'S HEIGHT. Radiat Prot Dosimetry. 2019;187:409-17.
  34. Kobayashi M, Asada Y, Haba T, Matsunaga Y, Matsubara K, Minami K. OPTIMISATION OF SWALLOWING CT EXAMINATION: DOSE REDUCTION AND IMAGE QUALITY. Radiat Prot Dosimetry. 2019;185:421-31.
  35. Suzuki A, Matsubara K, Chusin T, Sasa Y. EYE LENS DOSES OF RADIOLOGY TECHNOLOGISTS WHO ASSIST PATIENTS DURING RADIOGRAPHY. Radiat Prot Dosimetry. 2019;185:275-81
  36. Okubo R, Matsubara K, Chusin T, Hibino T, Ito Y. Feasibility of the new copper pipe method for evaluating half‐value layer in computed tomography: A measurement and Monte Carlo simulation study. J Appl Clin Med Phys. 2019;20:186-92.
  37. Kawashima H, Ichikawa K, Hanaoka S, Matsubara K. Optimizing image quality using automatic exposure control based on the signal-difference-to-noise ratio: a phantom study. Australas Phys Eng S. 2019;42:803-10.
  38. Matsubara K, Nagata H, Okubo R, Ogawa Y, Chusin T, Hirosawa A. Axial absorbed dose distributions during abdominal computed tomography acquisitions: Measurement and the Monte Carlo simulation study. J Phys Conf Ser. 2019;1248:012020.
  39. Hara T, Niwa S, Urikura A, Matsubara K, Hoshino T, Nishimaru E, Taniguchi T. Assessment of longitudinal beam property and contrast uniformity for 256- and 320-row area detector computed tomography scanners in the 160-mm nonhelical volume-acquisition mode. J Appl Clin Med Phys. 2019;20:164-70.
  40. Kawashima H, Ichikawa K, Matsubara K, Nagata H, Takata T, Kobayashi S. Quality evaluation of image-based iterative reconstruction for CT: Comparison with hybrid iterative reconstruction. J Appl Clin Med Phys. 2019;20:199-205.
  41. Fukuda A, Lin PP, Ichikawa N, Matsubara K. Estimation of primary radiation output for wide‐beam computed tomography scanner. J Appl Clin Med Phys. 2019;20:152-9.
  42. Karim MKA, Rahim NA, Matsubara K, Hashim S, Mhareb MHA, Musa Y. The effectiveness of bismuth breast shielding with protocol optimization in CT Thorax examination. J X-Ray Sci Technol. 2019;27:139-47.
  43. Chusin T, Matsubara K, Takemura A, Okubo R, Ogawa Y. Assessment of scatter radiation dose and absorbed doses in eye lens and thyroid gland during digital breast tomosynthesis. J Appl Clin Med Phys. 2019;20:340-7.
  44. Kawashima H, Ichikawa K, Hanaoka S, Matsubara K, Takata T. Relationship between size-specific dose estimates and image quality in computed tomography depending on patient size. J Appl Clin Med Phys. 2018; 19:246-51.
  45. Yamazaki D, Miyazaki O, Takei Y, Matsubara K, Shinozaki M, Shimada Y, Suzuki S, Muramatsu Y. USEFULNESS OF SIZE-SPECIFIC DOSE ESTIMATES IN PEDIATRIC COMPUTED TOMOGRAPHY: REVALIDATION OF LARGE-SCALE PEDIATRIC CT DOSE SURVEY DATA IN JAPAN. Radiat Prot Dosimetry. 2018;179:254-62.
  46. Suzuki A, Matsubara K, Sasa Y MEASUREMENT OF RADIATION DOSES TO THE EYE LENS DURING ORTHOPEDIC SURGERY USING AN C-ARM X-RAY SYSTEM. Radiat Prot Dosimetry. 2018;179:189-95.
  47. Jenkins RG, Kaim A, Amano K, Sakurai K, Matsubara K. A new Miocene whale-fall community dominated by bathymodiolin mussel Adipicola from Hobetsu area, Hokkaido, Japan. Paleontol Res. 2018;22:105-11.
  48. Kobayashi M, Asada Y, Matsubara K, Minami K, Suzuki S, Matsunaga Y, Haba T, Kawaguchi A, Daioku T, Toyama H, Kato R. SWALLOWING COMPUTED TOMOGRAPHY: DOSE ESTIMATION IN A PHANTOM STUDY CONDUCTED AT VARIOUS PATIENT RECLINING ANGLES. Radiat Prot Dosimetry. 2018;178:87-94.
  49. Matsubara K, Nagata H, Okubo R, Takata T, Kobayashi M. Method for determining the half-value layer in computed tomography scans using a real-time dosimeter: Application to dual-source dual-energy acquisition. Phys Med. 2017;44:227-31.
  50. Matsubara K, Lertsuwunseri V, Srimahachota S, Krisanachinda A, Tulvatana W, Khambhiphant B, Sudchai W, Rehani M. Eye lens dosimetry and the study on radiation cataract in interventional cardiologists. Phys Med. 2017; 44:232-5.
  51. Krisanachinda A, Srimahachota S, Matsubara K. The current status of eye lens dose measurement in interventional cardiology personnel in Thailand. Radiol Phys Technol. 2017;10:142-7.
  52. Fukuda A, Ichikawa N, Fujita Y, Lin PP, Matsubara K, Miyati T. Does gantry rotation time influence accuracy of volume computed tomography dose index (CTDIvol) in modern CT? Phys Med. 2017;37:43-8.
  53. Kobayashi M, Asada Y, Matsubara K, Suzuki S, Koshida K, Matsunaga Y, Kawaguchi A, Haba T, Toyama H, Kato R. Software Development for Estimating the Conversion Factor (K-Factor) at Suitable Scan Areas, Relating the Dose Length Product to the Effective Dose. Radiat Prot Dosimetry. 2017;174:565-74.
  54. Kobayashi M, Asada Y, Matsubara K, Suzuki S, Matsunaga Y, Haba T, Kawaguchi A, Daioku T, Toyama H, Kato R. Dose Estimating Application Software Modification: Additional Function of a Size-Specific Effective Dose Calculator and Auto Exposure Control. Radiat Prot Dosimetry. 2017;174:535-40.
  55. Takata T, Ichikawa K, Mitsui W, Hayashi H, Minehiro K, Sakuta K, Nunome H, Matsubara K, Kawashima H, Matsuura Y, Gabata T. Object shape dependency of in-plane resolution for iterative reconstruction of computed tomography. Phys Med. 2017;33:146-51.
  56. Kobayashi M, Asada Y, Matsubara K, Suzuki S, Koshida K, Matsunaga Y, Haba T, Kawaguchi A, Toyama H, Kato R. Electrocardiogram-gated coronary CT angiography dose estimates using ImPACT. J Appl Clin Med Phys. 2016;17:342-56.
  57. Matsubara K, Takata T, Kobayashi M, Kobayashi S, Koshida K, Gabata T. Tube current modulation between single- and dual-energy computed tomography with a second-generation dual-source scanner: radiation dose and image quality. AJR Am J Roentgenol. 2016;207:354-61.
  58. Takei Y, Miyazaki O, Matsubara K, Shimada Y, Muramatsu Y, Akahane K, Fujii K, Suzuki S, Koshida K. Nationwide survey of radiation exposure during pediatric computed tomography examinations and proposal of age-based diagnostic reference levels for Japan. Pediatr Radiol. 2016;46:280-5.
  59. Matsubara K, Sakuda K, Nunome H, Takata T, Koshida K, Gabata T. 128-slice dual-source CT coronary angiography with prospectively electrocardiography-triggered high-pitch spiral mode: radiation dose, image quality, and diagnostic acceptability. Acta Radiol. 2016;57:25-32.
  60. Kawaguchi A, Matsunaga Y, Kobayashi M, Suzuki S, Matsubara K, Chida K. Effect of tube current modulation for dose estimation using a simulation tool on body CT examination. Radiat Prot Dosimetry. 2015;167:562-8.
  61. Kobayashi M, Asada Y, Matsubara K, Koshida K, Suzuki S, Matsunaga Y, Kawaguchi A, Haba T, Katada K, Toyama H. Evaluation of the CT dose index for scans with an ECG using a 320-row multiple-detector CT scanner. Radiat Prot Dosimetry. 2015;167:532-41.
  62. Kobayashi M, Asada Y, Matsubara K, Haba T, Matsunaga Y, Kawaguchi A, Katada K, Toyama H, Koshida K, Kato R, Suzuki S. Evaluation of effective dose using the k-factor of optimal scan range for CT examination. Open Journal of Radiology 2015;5:142-8.
  63. Matsubara K, Lin PP, Fukuda A, Koshida K. Operating characteristics of tube current modulation techniques when scanning simple-shaped phantoms. J Korean Phys Soc. 2015;67:82-88.
  64. Matsubara K, Takata T, Mori H, Kobayashi M, Ichikawa K, Koshida K. Radiation doses, noise properties, and in-plane spatial resolutions for CT coronary angiography using different CT scanners: phantom study. International Journal of Diagnostic Imaging 2015;2:1-10.
  65. Fukuda A, Lin PP, Matsubara K, Miyati T. Accuracy of gantry rotation time of less than 300 ms for modern MDCT systems. Radiol Phys Technol. 2015;8:141-5.
  66. Fukuda A, Matsubara K, Miyati T. Estimation of the life expectancy of a filament of the conventional X-ray unit: a technical case study. Radiol Phys Technol. 2015;8:107-10.
  67. Fukuda A, Matsubara K, Miyati T. Long-term stability of beam quality and output of conventional X-ray units. Radiol Phys Technol. 2015;8:26-9.
  68. Mori H, Koshida K, Ichigamori O, Matsubara K. Investigation of qualitative and quantitative factors related to radiological exposure to nursing staff during computed tomography examinations. Health Phys. 2014;107: S202-10.
  69. Kobayashi M, Asada Y, Matsubara K, Matsunaga Y, Kawaguchi A, Katada K, Toyama H, Koshida K, Suzuki S. Evaluation of organ doses and effective dose according to the ICRP Publication 110 reference male/female phantom and the modified ImPACT CT patient dosimetry. J Appl Clin Med Phys. 2014;15:246-56.
  70. Fukuda A, Lin PP, Matsubara K, Miyati T. Evaluation of gantry rotation overrun in axial CT scanning. J Appl Clin Med Phys. 2014;15:229-34.
  71. Fukuda A, Lin PP, Matsubara K, Miyati T. Measurement of table feed speed in modern CT. J Appl Clin Med Phys. 2014;15:275-81.
  72. Matsubara K, Lin PP, Fukuda A, Koshida K. Differences in behavior of tube current modulation techniques for thoracic CT examinations between male and female anthropomorphic phantoms. Radiol Phys Technol. 2014;7:316-28.
  73. Mori H, Koshida K, Ichigamori O, Matsubara K. A novel removable shield attached to C-arm units against scattered X-rays from a patient's side. Eur Radiol. 2014;24:1794-9.
  74. Suzuki A, Koshida K, Matsubara K. Effects of pacemaker, implantable cardioverter-defibrillator, and left ventricular leads on CT-based attenuation correction. J Nucl Med Technol. 2014;42:37-41.
  75. Matsubara K, Ichikawa K, Murasaki Y, Hirosawa A, Koshida K. Accuracy of measuring half- and quarter-value layers and appropriate aperture width of a convenient method using a lead-covered case in X-ray computed tomography. J Appl Clin Med Phys. 2014;15:309-16.
  76. Fukuda A, Lin PP, Matsubara K, Miyati T. Measurement of gantry rotation time in modern CT. J Appl Clin Med Phys. 2014;15:303-8.
  77. Suzuki A, Koshida K, Matsubara K. Adjustment of overestimated CT-based attenuation correction on bone SPECT/CT after hip-resurfacing arthroplasty. J Nucl Med Technol. 2013;41:203-7.
  78. Kawashima H, Tanaka R, Ichikawa K, Matsubara K, Iida H, Sanada S. Investigation of image lag and modulation transfer function in fluoroscopy images obtained with a dynamic flat-panel detector. Radiol Phys Technol. 2013;6:367-74.
  79. Fukuda A, Miyati T, Matsubara K. Where should we measure the entrance air kerma rate during acceptance testing of the automatic dose control of a fluoroscopic system? Radiol Phys Technol. 2013;6:313-6.
  80. Tanaka R, Kawashima H, Ichikawa K, Matsubara K, Iida H, Sanada S. Simulation system for understanding the lag effect in fluoroscopic images. Radiol Phys Technol. 2013;6:273-80.
  81. Matsubara K, Koshida H, Sakuta K, Takata T, Horii J, Iida H, Koshida K, Ichikawa K, Matsui O. Radiation dose and physical image quality in 128-section dual-source computed tomographic coronary angiography: a phantom study. J Appl Clin Med Phys 2012;13:252-61.
  82. Tanaka R, Ichikawa K, Matsubara K, Kawashima H. Review of a simple noise simulation technique in digital radiography. Radiol Phys Technol. 2012;5:178-85.
  83. Matsubara K, Sugai M, Toyoda A, Koshida H, Sakuta K, Takata T, Koshida K, Iida H, Matsui O. Assessment of an organ-based tube current modulation in thoracic computed tomography. J Appl Clin Med Phys. 2012;13:148-58.
  84. Matsubara K, Koshida K, Noto K, Takata T. Reduction of breast dose in abdominal CT examinations: Effectiveness of automatic exposure control system. Radiat Meas. 2011;46:2056-9.
  85. Matsubara K, Koshida K, Noto K, Shimono T, Yamamoto T, Matsui O. Relationship between specific organ doses and volumetric CT dose indices in multidetector CT studies. J Med Imag Radiat On. 2011;55:493-7.
  86. Matsubara K, Koshida K, Noto K, Takata T, Suzuki M, Shimono T, Yamamoto T, Matsui O. A head phantom study for intraocular dose evaluation of 64-slice multidetector CT examination in patients with suspected cranial trauma. Eur J Radiol. 2011;79:283-7.
  87. Noto K, Matsubara K, Koshida K, Iida H, Yamamoto T. Evaluation of patient doses due to fluoroscopic exposures. Radiat Prot Dosimetry. 2011;146:234-6.
  88. Matsubara K, Koshida K, Noto K, Takata T, Shimono T, Kawashima H, Yamamoto T, Matsui O. Estimation of organ-absorbed radiation doses during 64-detector CT coronary angiography using different acquisition techniques and heart rates: a phantom study. Acta Radiol. 2011;52:632-7.
  89. Okuda K, Nakajima K, Hosoya T, Ishikawa T, Konishi T, Matsubara K, Matsuo S, Kinuya S. Semi-automated algorithm for calculating heart-to-mediastinum ratio in cardiac Iodine-123 MIBG imaging. J Nucl Cardiol. 2011;18:82-9.
  90. Hara N, Onoguchi M, Takenaka K, Matsubara K, Ujita H, Kenko Y. Assessment of patient exposure to X-radiation from SPECT/CT scanners. J Nucl Med Technol. 2010;38:138-48.
  91. Suzuki M, Matsui O, Kawashima H, Takemura A, Matsubara K, Hayashi N, Koda W, Shibata Y. Radioanatomical study of a true tracheal bronchus using multidetector computed tomography. Jpn J Radiol. 2010;28:188-92.
  92. Ueda Y, Miyati T, Ohno N, Motono Y, Hara M, Shibamoto Y, Kasai H, Kawamitsu H, Matsubara K. Apparent diffusion coefficient and fractional anisotropy in the vertebral bone marrow. J Magn Reson Imaging. 2010;31:632-5.
  93. Motono Y, Miyati T, Ueda Y, Arai N, Kasai H, Hara M, Kawano M, Shibamoto Y, Kawamitsu H, Suzuki Y, Matsubara K. Simultaneous analysis of marrow fat fraction and bone mineral density with modulus and real multiple gradient-echo MRI. Medical Imaging and Information Sciences. 2010;27:14-7.
  94. Matsubara K, Koshida K, Suzuki M, Shimono T, Yamamoto T, Matsui O. Effective dose evaluation of multidetector CT examinations: influence of the ICRP recommendation in 2007. Eur Radiol. 2009;19:2855-61.
  95. Matsubara K, Koshida K, Ichikawa K, Suzuki M, Takata T, Yamamoto T, Matsui O. Mis-operation of CT automatic tube current modulation systems with inappropriate patient centering. AJR Am J Roentgenol. 2009;192:862-5.
  96. Matsubara K, Takata T, Koshida K, Noto K, Shimono T, Horii J, Yamamoto T, Matsui O. Chest CT performed with 3D and z-axis automatic tube current modulation technique: breast and effective doses. Acad Radiol. 2009;16:450-5.
  97. Shimono T, Koshida K, Nambu H, Matsubara K, Takahashi H, Okuda H. Polarity effect in commercial ionization chambers used in photon beams with small fields. Radiol Phys Technol. 2009;2:97-103.
  98. Ichikawa K, Kodera Y, Nishimura A, Hasegawa M, Kimura N, Takemura A, Matsubara K. Analysis method of noise power spectrum for medical monochrome liquid crystal displays. Radiol Phys Technol. 2008;1:201-7.
  99. Matsubara K, Koshida K, Suzuki M, Hayashi N, Takata T, Tsujii H, Yamamoto T, Matsui O. Contrast resolution in multidetector-row CT with 16 detector rows: phantom study. Radiol Phys Technol. 2008;1:13-9.
  100. Hashiba Y, Ueki K, Marukawa K, Nakagawa K, Yamamoto E, Matsubara K. Relationship between recovery period of lower lip hypoesthesia and sagittal split area or plate screw position after sagittal split ramus osteotomy. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2008;105:11-5.
  101. Matsubara K, Koshida K, Suzuki M, Tsujii H, Yamamoto T, Matsui O. Comparison between 3-D and z-axis automatic tube current modulation technique in multidetector-row CT. Radiat Prot Dosimetry 2008;128:106-11.
  102. Nakajima K, Matsubara K, Ishikawa T, Motomura N, Maeda R, Akhter N, Okuda K, Taki J, Kinuya S. Correction of iodine-123-labeled meta-iodobenzylguanidine uptake with multi-window methods for standardization of the heart-to-mediastinum ratio. J Nucl Cardiol. 2007;14:843-51.
  103. Matsubara K, Koshida K, Suzuki M, Hayakawa M, Tsujii H, Yamamoto T. Evaluation of variations in absorbed dose and image noise according to patient forms in X-ray computed tomography. Jpn J Radiol Technol. 2005;61:1581-6.
 

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  7. 能登公也,瀬川恵子,吉川諒,守部陸,小島礼慎,松原孝祐,武村哲浩.オーバーテーブルX線透視装置の表示線量の簡易精度検証方法.日放技学誌,2021;77:1180-1185.
  8. 酒向健二,松原孝祐,松本真.胸部CT撮影におけるWide volume scan使用時の被ばく特性評価.日放技学誌.2021;77:284-292.
  9. 間所祥子,關谷暁子,砂原伸行,柳原清子,松原孝祐,武村哲浩.ポスターツアー,ワールドカフェによる高大接続プログラム「将来の医療と医療人について考える」:定量テキスト分析による教育実践の効果検証.Journal of Wellness and Health Care 2020;44:81-90.
  10. 鈴木千晶,畠山雅行,野沢滋幸,石原和浩,影山善彦,松原孝祐.低線量肺がんCT検診における位置決め画像撮影の線量評価.CT検診学会誌.2020;27:17-23.
  11. 福永正明,松原孝祐,竹井泰孝,光井英樹,亀井山弘晃,田中孝尚,市川翔太.移動型整形外科用イメージング装置を用いた 腰椎後方固定術時における室内散乱線量分布の測定.日放技学誌.2020;76:572-8.
  12. 木寺信夫,松原孝祐,藤岡知加子,横町和志,西丸英治,木口雅夫,森本章,石風呂実,粟井和夫.頭部CT撮影における水晶体被ばくの低減を目的とした管電流変調技術の性能特性.日放技学誌.2020;76: 366-74.
  13. 市川尚,松原孝祐,福田篤志,山本裕之.可搬型FPDを用いたCT装置におけるビーム幅測定の精度評価.日放技学誌.2020;76:161-7.
  14. 廣澤文香,松原孝祐,竹井泰孝, 小林育夫.オーバーテーブル式X線管形TV装置を用いたERCP検査における放射線防護具使用時の術者被ばく低減効果.日放技学誌.2020;76:54-63.
  15. 柳原清子,松原孝祐,間所祥子,關谷暁子,砂原伸行,武村哲浩.初年次導入教育における「多職種連携学習(IPE)」の評価:PBL/ポスターツアーの実践から.Journal of Wellness and Health Care 2019;43:75-84.
  16. 南和芳,松原孝祐,林勇樹,藤原康人,森元勝浩,小畠敏典.心電同期 CT 撮影においてボウタイフィルタとポジショニングが断面内線量分布と画質に及ぼす影響.日放技学誌.2019;75:536-45.
  17. 市川尚,松原孝祐,福田篤志.Spectral shaping filterを搭載した血管撮影装置における被ばく線量および画質の評価.日放技学誌.2019;75:13-23.
  18. 松原孝祐,Thunyarat Chusin,大久保玲奈,小川善紀.医療被ばくに関する線量評価法-各モダリティにおける線量評価法の概要-.保健物理 2018;53:238-46.
  19. 松原孝祐,松永雄太,梁川範幸,村松禎久,井田義宏,鈴木昇一,赤羽恵一,石口恒男.X線CT 分野における診断参考レベルの認知度,活用度,および評価に関する調査.日放技学誌.2018;74:700-7.
  20. 上野博之,松原孝祐.多列検出器型CTにおけるアクティブコリメータの線量低減効果に関する検討.日放技学誌.2017;73:1238-43.
  21. 宮川潤,窪田寛之,松原孝祐,越田吉郎.コリメータカバーを含鉛シートで覆った血管撮影装置における散乱線低減効果の検討.日放技学誌.2017;73:680-8.
  22. 高田光雄,松原孝祐,越田吉郎,飯田融.CT-AECを用いた低管電圧撮影の被ばくに関する検討.日放技学誌.2015;71:332-7.
  23. 廣澤文香,松原孝祐,近藤博仁,越田吉郎.X線CTにおける線量評価を目的とした蛍光ガラス線量計の特性および使用方法の検討.日放技学誌.2015;71:12-8.
  24. 布目晴香,松原孝祐,高田忠徳,作田啓太,林弘之.胸部X線CT検査における局所被ばく低減機構の出力線量の評価.日放技学誌.2015;70:1297-303.
  25. 竹井泰孝,鈴木昇一,宮嵜治,松原孝祐,村松禎久,島田義也,赤羽恵一,藤井啓輔.我が国の小児CTで患児がうける線量の実態調査の概要-検査環境に関する因子を中心に-.日放技学誌.2014;70:562-8.
  26. 近藤博仁,松原孝祐,廣澤文香,越田吉郎.X線CT装置における簡便化された各種実効エネルギー評価法の比較.日放技学誌.2014;70:453-60.
  27. 松原孝祐,松本千奈,餅谷裕子,任田佳菜子,能登公也,越田吉郎.フォトンカウンティング技術を利用したディジタル型乳房用X線装置の線量評価.日放技学誌.2014;70:445-52.
  28. 松原孝祐,廣澤文香,越田吉郎.放射線診断領域におけるアルミニウムの活用.軽金属 2014;64:63-7.
  29. 上野博之,松原孝祐,越田吉郎.64列MDCTを用いた上腹部撮影におけるオーバレンジングに関する検討.日放技学誌.2013;69:28-32.
  30. 下野哲範,南部秀和,松原孝祐,越田吉郎,五味勉.電離箱形状や使用頻度の違いによる事前照射の測定値への影響.日放技学誌.2012;68:986-96.
  31. 高田忠徳,市川勝弘,林弘之,三井渉,作田啓太,越田晴香,横井知洋,松原孝祐,堀井純清,飯田泰治.逐次近似再構成法を応用した新しい画像再構成法に対する画質評価.日放技学誌.2012;68:404-12.
  32. 松原孝祐,越田晴香,作田啓太,林弘之,高田忠徳,堀井純清,川井恵一,山本友行,越田吉郎.前向き心電同期高速二重螺旋スキャンを適用した冠動脈CT検査における被ばく線量の評価.日放技学誌.2012;68:59-64.
  33. 能登公也,南修平,森下あゆ美,横井知洋,飯田泰治,松原孝祐,武村哲浩,越田吉郎.スリット撮影を用いた長尺撮影装置における全脊椎撮影の最適化.日放技学誌.2011;67:1438-42.
  34. 飯田泰治,能登公也,三井渉,高田忠徳,山本友行,松原孝祐.銅製パイプ型吸収体を用いた新しい実効エネルギー測定法.日放技学誌.2011;67:1183-91.
  35. 鈴木正行,松井修,柴田義宏,川島博子,武村哲浩,松原孝祐,高田忠徳,林則夫.MD-CTによる副心臓枝の頻度およびCT像.臨床放射線 2010;55:179-86.
  36. 松原孝祐,鈴木正行,高悦郎,越田吉郎,武村哲浩,山本友行.X線撮影用ポジショニングドールの有用性の検討-単純X線撮影実習の施行および診療放射線技師を対象とした調査を通して-.日放技学誌.2009;65:1650-7.
  37. 松原孝祐,越田吉郎,上野博之,鈴木正行,辻井秀夫,山本友行.16列マルチディテクタCTの低コントラスト分解能:局所線量,撮影時間との関係.日放技会誌.2008;55:421-5.
  38. 松原孝祐,越田吉郎,鈴木正行,西村綾,上野博之,高田忠徳,辻井秀夫,山本友行.MDCTによる肝臓癌スクリーニング検査時の至適設定スライス厚の検討.日放技学誌.2008;64:65-72.
  39. 鈴木正行,松井修,武村哲浩,市川勝弘,植田文明,眞田順一郎,柴田義宏,高田忠徳,林則夫,松原孝祐.MDCTによる異所性右鎖骨下動脈の頻度とCT像の検討.臨床放射線 2008;53:223-7.
  40. 鈴木正行,武村哲浩,松井修,植田文明,柴田義宏,河原和博,松浦幸広,高田忠徳,松原孝祐,小林佳子.大動脈直接分岐の左椎骨動脈の頻度の検討 MD-CTを使用して.臨床放射線 2007;52:215-9.
  41. 松原孝祐,越田吉郎,鈴木正行,辻井秀夫,山本友行.X線CT装置間の患者被ばく線量の比較-人体等価ファントムによる基礎的検討-.日放技会誌.2006;53:1594-8.
  42. 川端千香子,越田吉郎,早川まゆみ,茶谷晃,中川浩人,能登公也,福田篤志,松原孝祐,飯田泰治.アクリルスライスファントムを使った患者の実効線量の評価-心臓カテーテル検査時-.日放技学誌.2006;62:1119-26.
  43. 越田吉郎,曽田卓実,能登公也,福田篤志,松原孝祐,中川浩人,川端千香子.腹部血管造影検査におけるX線防護衣の遮へい評価.日放技学誌.2005;61:989-96.
  44. 松原孝祐,越田吉郎,鈴木正行,福田篤志,川端千香子,辻井秀夫,水島隆.X線CT装置間での線量プロファイルおよび患者被ばく線量の比較評価.日放技学誌.2005;61:683-90.
  45. 福田篤志,越田吉郎,山口一郎,高橋昌章,北林啓太郎,松原孝祐,能登公也,川端千香子,中川浩人.511keV消滅放射線および99mTcガンマ線に対する診断用X線防護衣および防護用鉛ガラス衝立の遮蔽能力評価.日放技学誌.2004;60:1723-9.
  46. 福田篤志,越田吉郎,山口一郎,富樫厚彦,松原孝祐.Flat Panel Detector搭載型心血管撮影装置における冠状動脈撮影時のインターベンショナル基準点空気カーマから入射皮膚線量への変換係数の推計.日放技学誌.2004;60:725-33.
  47. 松原孝祐,越田吉郎,福田篤志,魚山義則,飯田泰治,水島隆.面積線量計を用いたリアルタイム線量モニタの作成とその臨床応用.日放技学誌.2004;60:719-24.
  48. 渡辺陽,杉本正樹,大嶋友範,松原孝祐,山下勝,中山和也,小島一彦.医療施設での小型電子機器への電磁波の影響について.日放技学誌.2002;58:948-56.
  49. 小島一彦,渡辺陽,杉本正樹,中山和也,大嶋友範,松原孝祐,山下勝.医療施設における電磁環境の計測と評価.金沢大学医学部保健学科紀要 2000;24:121-6.