\n\n| Google Scholar<\/a><\/td>\n | Web of Science<\/a><\/td>\n | ![\"ORCID](\"https:\/\/orcid.org\/sites\/default\/files\/images\/orcid_16x16.png\") orcid.org<\/a><\/td>\n | researchmap<\/a><\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n\n- \n
\n- IEC 80601-2-77:2019 + Amd1:2023<\/a><\/strong> Medical electrical equipment \u2013 Part\u00a02-77: Particular requirements for the basic safety and essential performance of robotically assisted surgical equipment (participate as the project leader)
\nUpdate<\/strong>: it\u2019s FDA recognized<\/strong><\/a> on Dec. 23, 2019!
\nUpdate<\/strong>: Amendment 1 issued in Nov. 2023.<\/li>\n- ISO 22926:2023<\/strong><\/a> Implants for surgery \u2013 Specification and verification of synthetic anatomical bone models for testing (participate as WG secretary), July 2023.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u624b\u8853\u30ed\u30dc\u30c3\u30c8\u624b\u8853\u5668\u5177\u306e\u6d17\u6d44\u30d7\u30ed\u30bb\u30b9\u306b\u95a2\u3059\u308b\u958b\u767a\u30ac\u30a4\u30c9\u30e9\u30a4\u30f3\uff08\u624b\u5f15\u304d\uff09\u300d\u6848\u306e\u6982\u8981<\/strong>,\u00a0\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u8a8c<\/em>, Vol. 24, No. 2, pp. 110-1, 2022.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u934b\u5d8c\u539a\u592a, \u624b\u8853\u30ed\u30dc\u30c3\u30c8\u306e\u56fd\u969b\u898f\u683c\u3000\u2015IEC 80601-2-77\u3068\u95a2\u9023\u3059\u308b\u898f\u683c\u7fa4\u306b\u3064\u3044\u3066\u2015<\/a><\/strong>, \u65e5\u672c\u30ed\u30dc\u30c3\u30c8\u5b66\u4f1a\u8a8c, Vol. 39, No. 3, pp.222-3, 2021.<\/li>\n
- \u93ae\u897f \u6e05\u884c, MR Robotics \u30fc MRI\u8a98\u5c0e\u30ed\u30dc\u30c3\u30c8\u958b\u767a\u7d4c\u7def\u3068MR\u9069\u5408\u6027<\/strong>, \u4eba\u5de5\u81d3\u5668<\/em>, Vol. 47, No. 1, pp. 67-69, 2018.<\/li>\n
- Chinzei K.,\u00a0Shimizu A., Mori K., Harada K., Takeda H., Hashizume M. et.al.,\u00a0Regulatory Science on AI-based Medical Devices and Systems<\/a><\/strong>,\u00a0Advanced Biomedical Engineering,<\/em>\u00a0Vol. 7, pp.118-23, 2018. doi:10.14326\/abe.7.118<\/a><\/li>\n
- Virk G.S., Chinzei K., Brossoit M.,\u00a0Emergence of Medical Robots and Autonomy in Medical Electrical Equipment<\/a><\/strong>,\u00a0Biomedical instrumentation & technology<\/em>, Vol. 52, No. 2, pp. 156-9, 2018. doi:10.2345\/0899-8205-52.2.156<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c,\u00a0\u624b\u8853\u30ed\u30dc\u30c3\u30c8\u306e\u56fd\u969b\u898f\u683cIEC 80601-2-77\u7b56\u5b9a\u52d5\u5411<\/strong><\/a>,\u00a0\u65e5\u672c\u6a5f\u68b0\u5b66\u4f1a\u8a8c<\/em>, Vol. 120, No. 1186, pp. 30-1, 2017.<\/li>\n
- IEC TR 60601-4-1:2017<\/a><\/strong>\u00a0Medical electrical equipment \u2013 Part\u00a04-1: Guidance and interpretation \u2013\u00a0Medical electrical equipment and\u00a0medical electrical systems\u00a0employing a degree of autonomy (participate as an expert)<\/li>\n
- \u77f3\u5cf6 \u6b69,\u00a0\u5c0f\u95a2 \u7fa9\u5f66,\u00a0\u6771 \u9686,\u00a0\u5c71\u672c \u6075\u4ecb,\u00a0\u7acb\u77f3 \u656c\u4ecb,\u00a0\u93ae\u897f \u6e05\u884c,\u00a0\u4f50\u4e45\u9593 \u4e00\u90ce,\u00a0\u5c0f\u6797 \u82f1\u6d25\u5b50, \u624b\u8853\u6a5f\u5668\u304c\u4e0e\u3048\u308b\u71b1\u640d\u50b7\u306e\u975e\u81e8\u5e8a\u7684\u8a55\u4fa1\u624b\u6cd5\u306b\u95a2\u3059\u308b\u8abf\u67fb<\/strong><\/a>,\u00a0\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u8a8c<\/em>, Vol. 19, No. 2, pp. 63-73, 2017.<\/li>\n
- \u6a4b\u6751 \u572d\u4ecb, \u93ae\u897f \u6e05\u884c, \u751f\u4f53\u7d44\u7e54\u5149\u5b66\u3068\u3053\u308c\u304b\u3089\u306e\u533b\u7642\u6a5f\u5668\u958b\u767a<\/strong>, Medical Photonics<\/em>, No. 23, pp. 53-8, 2017-1.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u30ec\u30ae\u30e5\u30e9\u30c8\u30ea\u30fc\u30b5\u30a4\u30a8\u30f3\u30b9<\/strong><\/a>, \u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u8a8c<\/em>, Vol. 18, No. 3, pp. 171-3, 2016.<\/li>\n
- \u93ae\u897f \u6e05\u884c,\u00a0\u624b\u8853\u30ed\u30dc\u30c3\u30c8\u306b\u95a2\u3059\u308b\u958b\u767a\u30ac\u30a4\u30c9\u30e9\u30a4\u30f3\u30fb\u56fd\u969b\u898f\u683c\u306e\u52d5\u5411<\/strong>,\u00a0\u5149\u6280\u8853\u30b3\u30f3\u30bf\u30af\u30c8<\/em>, Vol. 54, No. 6, pp. 32-9, 2016.<\/li>\n
- Chinzei K., Kobayashi E., Suzuki T., Yamashita J. and Yamauchi Y., Small Computings for Clinicals and SCCToolKit, OR friendly Trial Package and Software Development Kit<\/a><\/strong>,\u00a0MIDAS Journal<\/em>, 2013.<\/li>\n
- Koseki Y., Kawai M., De Lorenzo D., Yamauchi Y., Chinzei K., Coaxial Needle Insertion Assistant for Epidural Puncture-Effect of Lateral Force on Needle<\/a><\/strong>,\u00a0proc EMBC 2013<\/em>, pp.6683-6, 2013.<\/li>\n
- De Lorenzo D., Koseki Y., De Momi E., Chinzei K., Okamura A. M., Coaxial needle insertion assistant with enhanced force feedback<\/a><\/strong>. IEEE Trans Biomed Eng<\/em>, Vol. 60, No. 2, pp. 379-89, 2013.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u7be0\u585a \u5eb7\u5b8f, \u5c71\u5185 \u5eb7\u53f8, VisualLog\u3092\u7528\u3044\u305f\u533b\u7642\u6a5f\u5668\u30d1\u30cd\u30eb\u60c5\u5831\u306e\u8a18\u9332<\/a><\/strong>, \u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u8a8c<\/em>, Vol. 14, No. 3, pp.416-7, 2012.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u5c0f\u6797 \u82f1\u6d25\u5b50, \u912d \u5e38\u8ce2, \u9234\u6728 \u5b5d\u53f8, \u7be0\u585a \u5eb7\u5b8f, \u5c71\u5185 \u5eb7\u53f8, \u4f50\u4e45\u9593 \u4e00\u90ce, \u4f0a\u95a2 \u6d0b, Small Computing: \u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u30a2\u30d7\u30ea\u3092\u5c0f\u578b\u5b89\u4fa1\u306aPC\u3067<\/strong><\/a>, \u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u8a8c<\/em>, Vol. 14, No. 3, pp.190-1, 2012.<\/li>\n
- Koseki Y., De Lorenzo D., Chinzei K., Okamura A. M., Coaxial Needle Insertion Assistant for Epidural Puncture<\/strong>. IEEE Int C Int Robot<\/em>, 2011. PDF<\/a><\/li>\n
- De Lorenzo D., Koseki Y., De Momi E., Experimental evaluation of a coaxial needle insertion assistant with enhanced force feedback<\/a><\/strong>. Conf Proc IEEE Eng Med Biol Soc<\/em>, pp. 3447-50, 2011.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u30d8\u30eb\u30b9\u30b1\u30a2\u6a5f\u5668\u958b\u767a\u3068\u81e8\u5e8a\u7814\u7a76\u306b\u5bfe\u3059\u308b\u85ac\u4e8b\u6cd5\u898f\u5236\u306e\u57fa\u790e\u77e5\u8b58<\/a><\/strong>, \u65e5\u672c\u6a5f\u68b0\u5b66\u4f1a\u8a8c<\/em>, Vol. 114, No. 1115, pp. 743-4, 2011.<\/li>\n
- \u548c\u6cc9 \u6f54, \u5948\u826f \u6e29, \u4f0a\u95a2 \u6d0b, \u9234\u6728 \u5b5d\u53f8, \u5357\u90e8 \u606d\u4e8c\u90ce, \u93ae\u897f \u6e05\u884c, \u6751\u5ddd \u6b63\u5b8f, \u5742\u7121 \u82f1\u5fb3, \u624b\u8853\u5ba4\u5185\u306e\u60c5\u5831\u53ce\u96c6\u306b\u3088\u308b\u8853\u4e2d\u30e2\u30cb\u30bf\u30ea\u30f3\u30b0\u3068\u624b\u8853\u6226\u7565\u30c7\u30b9\u30af<\/a><\/strong>, \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8a8c<\/em>, Vol. 94, No. 4, pp.288-293, 2011.<\/li>\n
- Ma J., Wittek A., Singh S. et. al. Evaluation of accuracy of non-linear finite element computations for surgical simulation: study using brain phantom<\/strong><\/a>. Comput Method Biomec<\/em>, Vol. 13, No. 6, pp. 783-94, 2010.<\/li>\n
- \u93ae\u897f \u6e05\u884c\uff08\u5171\u8457\uff09,\u00a0MRI\u306e\u5b89\u5168\u6027\u306e\u8003\u3048\u65b9<\/strong><\/a>,\u00a0\u85ac\u4e8b\u6cd5\u3068\u306e\u95a2\u9023, \u5b66\u7814\u30e1\u30c7\u30a3\u30ab\u30eb\u79c0\u6f64\u793e, ISBN 978-4-7809-0807-7, 2010.<\/li>\n
- Koseki Y., Tanikawa T., Chinzei K., MRI-compatible Micromanipulator: Positioning Repeatability Tests & Kinematic Calibration<\/a><\/strong>. EMBC: 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society<\/em>, Vols 1-20, pp. 5118-21, 2009.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u6df1\u4e95 \u5065\u592a, \u6c34\u539f \u548c\u884c, \u5149\u5b66\u5f0f\u4f4d\u7f6e\u8a08\u6e2c\u5668\u306e\u30de\u30fc\u30ab\u306e\u52a3\u5316\u306e\u7c21\u6613\u5224\u5b9a\u6cd5<\/a><\/strong>, \u7b2c18\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u4e88\u7a3f\u96c6<\/em>, J JSCAS 11(3) 342-3, 2009<\/li>\n
- Wittek A., Dutta-Roy T., Taylor Z. Subject-specific non-linear biomechanical model of needle insertion into brain<\/a><\/strong>. Comput Methods Biomech Biomed Engin<\/em>, Vol. 11 No. 2, pp. 135-46, 2008.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u901f\u5831\u300c\u9ad8\u5ea6\u533b\u7642\u8a55\u4fa1\u5236\u5ea6\u300d\u306e\u30a4\u30f3\u30d1\u30af\u30c8<\/a><\/strong>, \u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u8a8c<\/em>, Vol. 10, No. 1, pp.11-4, 2008.<\/li>\n
- R. Gassert, E. Burdet, K. Chinzei, MRI-Compatible Robotics<\/strong><\/a>, IEEE Eng Med Biol<\/em>, Vol. 27, No. 3, pp. 12-14, 2008.<\/li>\n
- R. Gassert, E. Burdet, K. Chinzei, Opportunities and Challenges in MRI-Compatible Robotics<\/strong>, IEEE Eng Med Biol<\/a>, Vol. 27, No. 3, pp. 15-22, 2008. PDF<\/a><\/li>\n
- K. Chinzei, MR-Compatible Robotics; Technology and Validation<\/strong>, proc 4th Asian Conference on Computer Aided Surgery (ACCAS)<\/em>, p. 61, Beijing, April 2008. PDF<\/a><\/li>\n
- S. P. DiMaio, S. Pieper, K. Chinzei, N. Hata, S. J. Haker, D. F. Kacher, G. Fichtinger, C. M. Tempany and R. Kikinis, Robot-assisted needle placement in open MRI: System architecture, integration and validation<\/strong>, Comput Aided Surg<\/em>, Vol. 12, No. 1, pp. 15-24, 2007 PDF<\/a><\/li>\n
- M. A. Audette, H. Delingette, A. Fuchs, O. Burgert and K. Chinzei, A topologically faithful, tissue-guided, spatially varying meshing strategy for computing patient-specific head models for endoscopic pituitary surgery simulation<\/strong>, Comput Aided Surg<\/em>, Vol. 12, No. 1, pp. 43-52, 2007 PDF<\/a><\/li>\n
- M. Descoteaux, M. Audette, K. Chinzei and K. Siddiqi, Bone enhancement filtering: Application to sinus bone segmentation and simulation of pituitary surgery<\/strong>, Comput Aided Surg<\/em>, Vol . 11, No. 5, pp. 247-255, 2006 PDF<\/a><\/li>\n
- K Chinzei, K Yoshinaka, T Washio, Numerical Simulations and Lab Tests for Design of MR-Compatible Robots<\/strong>, proc IEEE International Conference on Robotics and Automation (ICRA) 2006<\/em>, pp.3819 \u2013 24, 2006. PDF<\/a><\/li>\n
- Y Koseki, R Kikinis, F A. Jolesz, K Chinzei, Precise Evaluation of Positioning Repeatability of MR-Compatible Manipulator Inside MRI<\/strong>, proc MICCAI 2004<\/em>, LNCS 3217, 192-99, 2004.\u00a0PDF<\/a><\/li>\n
- T Washio, K Chinzei, Needle Force Sensor, Robust and Sensitive Detection of Needle Puncture<\/strong>, proc MICCAI04, LNCS Vol. 3217, 113-20, 2004. PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, MRI\u5bfe\u5fdc\u30ed\u30dc\u30c3\u30c8\u306eEMC\u5bfe\u7b56<\/strong>, \u96fb\u78c1\u5834\u74b0\u5883\u5de5\u5b66\u60c5\u5831EMC<\/em>, Vol.16, No. 10, pp. 40-4, 2004.<\/li>\n
- T Washio, K Mizuhara, K Chinzei, A development of load transducer for detecting the moment of puncture of tissue<\/strong>, proc SMIT 2003<\/em>, Aug 2003 Amsterdam.<\/li>\n
- M Audette, H Delingette, A Fuchs, Y Koseki, K Chinzei, Towards Patient-specific Anatomical Model Generation for Finite Element-based Surgical Simulation<\/strong>, proc IS4TM<\/em>, pp. 340-52, Boston, 2003. PDF<\/a><\/li>\n
- Chinzei K, Warfield S, Hata N, Tempany C, Jolesz F, Kikinis R, Planning, Simulation and Assistance with Intraoperative MRI<\/strong>, Minimally Invasive Treatment and Allied Technologies<\/i> 2003; Vol. 12, No. 1\/2, pp. 59-64, 2003. DOI<\/a><\/li>\n
- K. Miller, K. Chinzei, Mechanical properties of brain tissue in tension<\/strong>,\u00a0Journal of Biomechanics<\/i>, Vol. 35, No. 4, pp 483-90, 2002. PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, MRI\u3068\u30ed\u30dc\u30c3\u30c8<\/strong>, \u81e8\u5e8a\u653e\u5c04\u7dda<\/em>, Vol. 47, No. 3, pp. 415-22, 2002.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u753b\u50cf\u8a98\u5c0e\u306e\u624b\u8853\u652f\u63f4\u30de\u30cb\u30d4\u30e5\u30ec\u30fc\u30bf<\/strong>, \u65e5\u672c\u30ed\u30dc\u30c3\u30c8\u5b66\u4f1a\u8a8c<\/em>, Vol.20, No. 2, pp. 143-4, 2002.<\/li>\n
- \u93ae\u897f \u6e05\u884c, MR\u5bfe\u5fdc\u624b\u8853\u652f\u63f4\u30ed\u30dc\u30c3\u30c8<\/strong>, \u6a5f\u68b0\u8a2d\u8a08<\/em>, Vol.45, No.17, pp. 124-9, 2001.<\/li>\n
- K. Chinzei, K. Miller, MRI Guided Surgical Robot<\/strong>, proc 2001 Australian Conference on Robotics and Automation<\/em>, pp.50-5, Sydney, 2001. PDF<\/a><\/li>\n
- K. Miller, K. Chinzei, Mathematical modelling of brain tissue mechanical properties for computer and robot assisted surgery<\/strong>, Mathematical Modelling and Scientific Computing<\/em>, Vol. 13, No. 1\/2, pp. 1-11, 2001.<\/li>\n
- K. Chinzei, K. Miller, Towards MRI Guided Surgical Manipulator<\/strong>, Med Sci Monit<\/em>, Vol. 7, No. 1, pp. 153-63, 2001. PDF<\/a><\/li>\n
- K. Miller, K. Chinzei, Mechanical properties of brain tissue in-vivo; experiment and computer simulation<\/strong>, J Biomech<\/em>, Vol. 33, No. 11, pp. 1369-76, 2000.\u00a0PDF<\/a><\/li>\n
- K. Chinzei, N. Hata,\u00a0F. A. Jolesz, R. Kikinis, Surgical Assist Robot for the Active Navigation in the Intraoperative MRI: Hardware Design Issues<\/strong>, proc IEEE\/RSJ IROS 2000<\/em>, Oct 30-Nov 3, Takamatsu, Japan, pp. 727-32, 2000. PDF<\/a><\/li>\n
- K. Chinzei, N. Hata, F. A. Jolesz, R. Kikinis, MR Compatible Surgical Assist Robot: System Integration and Preliminary Feasibility Study<\/strong>, Lecture Notes in Computer Science, Vol. 1935, proc MICCAI 2000<\/em>, Oct 11-4, Pittsburgh, PA, p.p 921-30, 2000. PDF<\/a><\/li>\n
- Y. Koseki, K. Chinzei, N. Koyachi, T. Arai,\u00a0Robotic Assist for MR-Guided Surgery Using Leverage and Parallelepiped Mechanism<\/strong>, proc MICCAI 2000 Lecture Notes in Computer Science<\/em>, 2000.<\/li>\n
- \u93ae\u897f \u6e05\u884c, \u30aa\u30fc\u30d7\u30f3MRI\u3068\u30ed\u30dc\u30c3\u30c8<\/strong>, \u65e5\u672c\u30ed\u30dc\u30c3\u30c8\u5b66\u4f1a\u8a8c<\/em>, Vol. 18, No. 1, pp. 37-40, Jan. 2000. PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, MRI\u74b0\u5883\u4e0b\u306e\u30e1\u30ab\u30c8\u30ed\u30cb\u30af\u30b9\u6280\u8853<\/strong>, \u7b2c\uff18\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u4e88\u7a3f\u96c6 \u7b2c\uff18\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u6284\u9332\u96c6<\/em>, pp. 4-5, 1999.<\/li>\n
- K. Chinzei, T. Washio, Y. Yamada, I. Ihara, R. Murata, N. Hata, R. Kikinis, F. A. Jolesz \u4ed6, Development of an MR Compatible Manipulator for the Intraoperative MRI<\/strong>, \u7b2c\uff18\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u4e88\u7a3f\u96c6 \u7b2c\uff18\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u6284\u9332\u96c6<\/em>, pp. 87-88, 2000. TXT<\/a><\/li>\n
- K. Chinzei, R.Kikinis, F.Jolesz, MR Compatibility of Mechatronic Devices: Design Criteria<\/strong>, proc MICCAI \u201999 Lecture Notes in Computer Science<\/em>, Vol. 1679, pp. 1020-1031, 1999. PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, K.Miller, \u30d6\u30bf\u5927\u8133\u306eIn vivo indentation\u8a66\u9a13<\/strong>, \u7b2c\uff17\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u4e88\u7a3f\u96c6<\/em>, 1998. PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, \u672c\u9593 \u4e00\u5f18, \u4e95\u539f \u4e00\u90ce, MRI Compatibility\u3092\u6709\u3059\u308b\u6a5f\u68b0\u6a5f\u69cb<\/strong>, \u7b2c\uff17\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u4e88\u7a3f\u96c6<\/em>, 1998. PDF<\/a><\/li>\n
- K. Miller, K. Chinzei, Constitutive Modeling of Brain Tissue: Experiment and Theory<\/strong>, J. Biomech<\/em>, Vol. 30, No. 11\/12, pp. 1115-1121, Nov. 1997.PDF<\/a><\/li>\n
- \u93ae\u897f\u6e05\u884c, Karol Miller, \u5927\u8133\u7d44\u7e54\u306e\u3072\u305a\u307f\u2212\u5fdc\u529b\u95a2\u4fc2\u306e\u30e2\u30c7\u30eb\u5316<\/strong>, \u7b2c\uff16\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u5927\u4f1a\u4e88\u7a3f\u96c6<\/em>, pp. 75-76, 1997. PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, \u4f0a\u95a2 \u6d0b, \u5e73 \u5b5d\u81e3, \u9ad8\u5009 \u516c\u670b, Visible Human\u30c7\u30fc\u30bf\u306b\u3088\u308b\u89e3\u5256\uff0f\u6a5f\u80fd\u30a2\u30c8\u30e9\u30b9\u306e\u69cb\u7bc9<\/strong>, \u7b2c\uff16\u56de\u65e5\u672c\u30b3\u30f3\u30d4\u30e5\u30fc\u30bf\u5916\u79d1\u5b66\u4f1a\u5927\u4f1a\u4e88\u7a3f\u96c6<\/em>, pp. 99-100, 1997.\u00a0PDF<\/a><\/li>\n
- K. Chinzei, K. Miller, Measurement of Compressive Behavior of Swine Brain Tissue<\/strong>, proc World Congress on Medical Physics and Biomedical Engineering, 1997<\/em>. PDF<\/a><\/li>\n
- K. Chinzei, K. Miller, Compression of Swine Brain Tissue; Experiment In Vivo<\/strong>, proc International Society of Biomechanics Tokyo Congress 97<\/em>, p. 318, 1997.\u00a0PDF<\/a><\/li>\n
- \u93ae\u897f \u6e05\u884c, \u624b\u8853\u652f\u63f4\u3068MRI-Compatibility<\/strong>, BME (\u65e5\u672c\u30a8\u30e0\u30fb\u30a4\u30fc\u5b66\u4f1a\u8a8c)<\/em>, Vol. 11, No. 8, pp. 72-77, Jul. 1997.<\/li>\n
- K. Miller, K. Chinzei, Modelling of Brain Tissue Mechanical Properties: Bi-phasic versus Single-phase Approach<\/strong>, proc 3rd Intl Symp Comput Methods in Biomech & Biomed Eng<\/em>, 1997.
|