2009.5.8 現在

147. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: In vitro measurement of viscoelastic properties of actin bundles using micro-tensile tester with visual feedback control. Proceedings of the 4th Asian Pacific Conference on Biomechanics / 10th International Symposium of 2009 Global COE Program, Christchurch, NZ, 2009.4

146. K. Oya, N. Sakamoto, T. Ohashi, and M. Sato: Mechanical cyclic stretch stimulates matrix metalloproteinases production from macrophages. Proceedings of the 4th Asian Pacific Conference on Biomechanics / 10th International Symposium of 2009 Global COE Program, Christchurch, NZ, 2009.4

145. S. Sugita, N. Sakamoto, T. Ohashi, and M. Sato: Active control of sliding pathway of kinesin-driven microtubules. Proceedings of the 9th International Symposium of 2007 Global COE Program Global Nano-Biomedical Engineering Education and Research Network Centre, Sendai, 2009.3

144. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: Development of microneedle-based viscoelastic test system for actin bundles. Proceedings of the 9th International Symposium of 2007 Global COE Program Global Nano-Biomedical Engineering Education and Research Network Centre, Sendai, 2009.3

143. Y. Ueki, N. Sakamoto, T. Ohashi, and M Sato: Cytoskeletal reorganization in vascular endothelial cells in response to cyclic force applied with a magnetic tweezer. Proceedings of the 9th International Symposium of 2007 Global COE Program Global Nano-Biomedical Engineering Education and Research Network Centre, Sendai, 2009.3

142. M. Sato: Intracellular force transmission and stress fiber. Proceedings of the 3rd International Symposium for Interface Oral Health Science, Sendai, 2009.1

141. Y. Ueki, N. Sakamoto, T. Ohashi, and M. Sato: Morphological changes in vascular endothelial cells induced by tension transmitted through intercellular junctions. Proceedings of GPBE/NUS-Tohoku Graduate Student Conference in Bioenginnering, Singapore, 2008.12

140. N. Sakamoto, T. Ohashi, M. Sato: Influence of fluid shear stress on matrix metalloproteinase production in endothelial cells. Proceedings of the 8th International Symposium of Tohoku University Global COE Program, Singapore, 2008.12

139. N. Sakamoto, Y. Ueki, T. Ohashi, and M. Sato: Fluid shear stress suppresses transendothelial migration of leukocytes in coculture model. Proceedings of NUS-Tohoku Graduate Student Conference in Bioengineering, Singapore, 2008.12

138. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: In vitro viscoelastic test apparatus for cytoskeletal bundles. Proceedings of GPBE/NUS-Tohoku Graduate Student Conference in Bioenginnering, Singapore, 2008.12

137. T. Ohashi, H. Ichihara, N. Sakamoto, M. Sato: Specificity of traction forces to extracellular matrix in smooth muscle cells. Proceedings of the 13th International Conference on Biomedical Engineering, Singapore, 2008.12

136. M. Sato: Biomechanics of cytoskeleton. Proceedings of International Symposium on  Genomic Biomechanics: Frontier of the 21st Century, UCSD, La Jolla, 2008.9

135. N. Saito, N. Sakamoto, T. Ohashi, and M. Sato: Morphological response of endothelial cells to hemodynamic conditions mimicking arterial bifurcation. Proceedings of the 7th International Symposium on 2007 Tohoku University Global COE Program “Global Nano-Biomedical Engineering Education and Research Network Centre”, Tainan, 2008.10

134. S.  Sugita, N. Sakamoto, T. Ohashi, and M. Sato: Active control of sliding direction of kinesin-driven microtubules with electric field. Proceedings of the 7th International Symposium on 2007 Tohoku University Global COE Program “Global Nano-Biomedical Engineering Education and Research Network Centre”, Tainan, 2008.10

133. M.  Sato: Intracellular stress transmission though actin stress fiber network. Proceedings of the 7th International Symposium on 2007 Tohoku University Global COE Program “Global Nano-Biomedical Engineering Education and Research Network Centre”, Tainan, 2008.10

132. Y. Ueki, N. Sakamoto, T. Ohashi, and M. Sato: Remodeling of endothelial cells induced by tension transmitted through intercellular junctions. Proceedings of the 13th International Congress of Biorheology and 6th International Conference on Clinical Hemorheology, Pennsylvania Sate University, 2008.7

131. M. Sato: Roles of stress fibers in cytomechanics -Structural component and mechanosensor-. Proceedings of the 13th International Congress of Biorheology and 6th International Conference on Clinical Hemorheology, Pennsylvania Sate University, 2008.7

130. T. Ohashi, H. Ichihara, N. Sakamoto, and M. Sato: Effect of different types of extracellular matrix on smooth muscle cell traction forces. Proceedings of 16th Congress European Society of Biomechanics, Lucerne, Switzerland, 2008.7

129. N. Sakamoto,T. Ohashi,and M. Sato: High shear stress induces production of matrix metalloproteinase in endothelial cells. Proceedings of 2008 Summer Bioengineering Conference, Florida, 2008.6

128. S. Sugita, N. Sakamoto, T. Ohashi, and M. Sato: Dynamic control of sliding directions of kinsin-driven microtubules with rotating electric fields. Proceedings of 2008 Summer Bioengineering Conference, Florida, 2008.6

127. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: A dynamic force-strain control system for isolated actin bundles. Proceedings of Tohoku-NUS Student Joint Symposium, Tokyo, 2008.5

126. M. Sato, N. Sakamoto, and T. Ohashi: Cell-matrix contact area modulates traction forces and proliferation of smooth muscle cells. Proceedings of the 5th International Symposium on 2007 Tohoku University Global COE Program “Global Nano-Biomedical Engineering Education and Research Network Centre”, Matsushima, 2008.5

125. N. Sakamoto,Y. Ueki,T. Kiuchi,T. Ohashi, and M. Sato: Effect of fluid shear stress on migration of leukocytes across endothelial monolayer in coculture model. The 13th Meeting on Thrombosis&Rheology, Tokyo, 2008.3

124. T. Murase, S. Sugita, N. Sakamoto, T. Ohashi, and M. Sato: Basic study of microtubule sorting by length using kinesin-coated microstructure. Proceedings of 3rd Tohoku-NUS Joint Symposium on Nano-Biomedical Engineering in the East Asian-Pacific Rim Region (4th International Symposium of Tohoku University Global COE Programme  Global Nano-Biomedical Engineering Education and Research Network Centre), Singapore, 2007.12

123. Y. Ueki, N. Sakamoto, T. Ohashi, and M. Sato: Morphological and cytoskeletal responses of endothelial cells to local tension transmitted through intercellular junctions. Proceedings of 3rd Tohoku-NUS Joint Symposium on Nano-Biomedical Engineering in the East Asian-Pacific Rim Region (4th International Symposium of Tohoku University Global COE Programme  Global Nano-Biomedical Engineering Education and Research Network Centre), Singapore, 2007.12

122. S. Sugita, S. Setowaki, N. Sakamoto, T. Ohashi, and M. Sato: Electrical control of gliding direction of kinesin-driven microtubules. Proceedings of 3rd Tohoku-NUS Joint Symposium on Nano-Biomedical Engineering in the East Asian-Pacific Rim Region (4th International Symposium of Tohoku University Global COE Programme  Global Nano-Biomedical Engineering Education and Research Network Centre), Singapore, 2007.12

121.  T. Ohashi, S. Nakamura, N. Sakamoto, and M. Sato: Biomechanical role of intracellular structures in smooth muscle cells estimated by traction force measurements. Proceedings of the 2007 International Symposium on Micro-NanoMechatronics and Human Science, Nagoya, 2007.11

120. M. Sato: Programs of university-industry partnership in Tohoku university engineering school. Proceedings of International Forum on Engineering Higher Education for the 21st Century, Hong Kong, 2007.11

119. T. Ohashi, S. Nakamura, N. Sakamoto, and M. Sato: Estimation of mechanical role of intracellular structures in smooth muscle cells by using traction force measurements. Proceedings of The 11th  International Conference on Miniaturized Systems for Chemistry and Life Sciences (µTAS 2007 Conference), Paris, 2007.10

118. M. Sato: Experimental estimation of preexisting tension in single actin stress fiber of vascular cells. Proceedings of 3rd International Symposium on 2007 Tohoku University Global COE Program Global Nano-Biomedical Engineering Education and Research Network Centre, Tokyo, 2007.10

117. M. Chiba, M. Nishimura, T. Ohashi, M. Sato, and K. Igarashi: Development of resonance vibration device and its clinical application for dentistry. Proceedings of 2nd International Symposium on Advanced Fluid/Solid Science and Technology in Experimental Mechanics, Osaka, 2007.9

116. T. Ohashi, N. Sakamoto, and M. Sato: Experimental approaches towards understanding of intracellular mechanical environment. Proceedings of 2nd International Symposium on 2007 Tohoku University Global COE Program Global Nano-Biomedical Engineering Education and Research Network Centre, Sendai, 2007.9

115. Y. Ueki, N. Sakamoto, T. Ohashi, and M. Sato: Role of mechanotransduction at intercellular junctions in morphological change of vascular endothelial cells. Proceedings of The 12th Meeting on Thrombosis&Rheology, Tokyo, 2007.3

114. M. Nishimura, M. Chiba, T. Ohashi, M. Sato, and K. Igarashi: Periodontal tissue activation by resonance vibration. Proceedings of The 2nd International Symposium for Interface Oral Health Science in Sendai, 2007.2

113. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: Strain rate-dependent tensile properties of single stress fibers isolated from smooth muscle cells. Proceedings of 9th International Symposium of Future Medical Engineering Based on Bio-nanotechnology, Sendai, 2007.1

112. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: Stress relaxation properties of stress fibers isolated from smooth muscle cells. Proceedings of 9th International Symposium of Future Medical Engineering Based on Bio-nanotechnology, Sendai, 2007.1

111. S. Sugita, T. Murase, N. Sakamoto, T. Ohashi, and M. Sato: Observation of microtubule motility focusing on the effect of their length. Proceedings of 9th International Symposium of Future Medical Engineering Based on Bio-nanotechnology, Sendai, 2007.1

110. K. Ito, N. Sakamoto, T. Ohashi, and M. Sato: FRAP analysis of actin dynamics of smooth muscle cells in response to local mechanical stimulation. Proceedings of 9th International Symposium of Future Medical Engineering Based on Bio-nanotechnology, Sendai, 2007.1

109. M. Sato: The Activities of the 21st Century COE Program  “Future Medical Engineering based on Bio-nanotechnology”. Proceedings of 2nd Tohoku-NUS Joint Symposium on the Future Nano-medicine and Bioengineering in the East-Asian Region, 2006.12

108. T. Matsui, S. Deguchi, N. Sakamoto, T. Ohashi, and M. Sato: Viscoelastic properties and locally heterogeneous deformation of stress fibers isolated from smooth muscle cells. Proceedings of 2nd Tohoku-NUS Joint Symposium on the Future Nano-medicine and Bioengineering in the East-Asian Region, 2006.12

107. K. Ito, N. Sakamoto, T. Ohashi, and M. Sato: Dynamics of actin and α-actinin associated with local retraction of smooth muscle cells. Proceedings of 2nd Tohoku-NUS Joint Symposium on the Future Nano-medicine and Bioengineering in the East-Asian Region, 2006.12

106. T. Ohashi, J. Yamazaki, N. Kameda, and M. Sato: Control of cell morphology and measurement of traction forces of smooth muscle cells using microfabricated substrates. Proceedings of Microfabricated Substrates. Proceedings of the 2006 International Symposium on Micro-NanoMechatronics and Human Science (MHS2006), Nagoya, 2006.11

105. M. Sato, Y. Sugaya, N. Sakamoto, and T. Ohashi: Effects of hydrostatic pressure on morphology of cultured bovine aortic endothelial cells. Proceedings of Fifth East Asian Biophysics Symposium & Forty-Fourth Annual Meeting of the Biophysical Society of Japan, Okinawa, 2006.11

104. N. Sakamoto, Y. Ueki, M. Oi, T. Kiuchi, T. Ohashi, and M Sato: Transendothelial migration of leukocytes in cocultured vessel model exposed to shear stress. Proceedings of Annual Fall Meeting of BMES, Chicago, 2006.10

103. T. Ohashi, J. Yamazaki, N. Kameda, and M. Sato: Mechanical role of cytoskeletal structures in traction forces of smooth muscle cells using different configuration of micropillars. Proceedings of 5th World Congress of Biomechanics, Munich, 2006.7

102. S. Deguchi, T. Ohashi, and M. Sato: Intracellular force balance in actin stress fiber network. Proceedings of 5th World Congress of Biomechanics, Munich, 2006.7

101. M. Sato, S. Deguchia, T. Matsuia, and T. Ohashi: Biomechanical properties and roles of stress fibers in mechanotransduction. Proceedings of 5th World Congress of Biomechanics, Munich, 2006.7

100. Masaaki Sato: Endothelial Biomechanics: Focusing on the Dynamic Behavior of Cytoskeletal Structure. Proceedings of 5th World Congress of Biomechanics, Munich, 2006.7

99. M. Sato: Morphological changes of cultured bovine aortic endothelial cells by exposure to hydrostatic pressure. Proceedings of International Symposium on  “Cardiovascular Biology” First Meeting on “Endothelial Cell in Health and  Hypertension”, Praha, 2006.6

98. M. Sato: Mechanical properties of isolated internal organs of vascular cells. Proceedings of TMS 2006, San Antonio, Texas, 2006.3

97. T. Ohashi, N. Kameda, and M. Sato: Contributions of cytoskeletal structures to traction forces generated by smooth muscle cells using microfabricated substrate. The 12th International Conference on Biomedical Engineering, Singapore, 2005.12

96. M. Sato, Y. Sugaya, N. Sakamoto, and T. Ohashi: Multilayered phenomena of cultured bovine aortic endothelial cells by exposure to hydrostatic pressure.  The 12th International Conference on Biomedical Engineering, Singapore, 2005.12

95. K. Ito, N. Sakamoto, T. Ohashi, and M. Sato: Frequency of Shear Stress Modulates Integrin Expression in Endothelial Cells. The 6th International Symposium on Future Medical Engineering based on Bio-nanotechnology, Sendai, 2005.11

94. T. Ohashi, N. Kameda, M. Sato: The role of cytoskeletal structures in traction forces in smooth muscle cells. The 2nd Japan-Switzerland Workshop on Biomechanics, Kyoto, 2005.9

93. M. Sato, Y. Sugaya, T. Ohashi and N. Sakamoto: Effects of Hydrostatic Pressure on Endothelial Cell Responses. The 2nd Japan-Switzerland Workshop on Biomechanics, Kyoto, 2005.9

92. N. Sakamoto, M. Oi, Y. Ueki, T. Ohashi, and M. Sato: Adhesive property of leukocytes to endothelial cells in cocultured model exposed to fluid shear stress. Proceedings of Summer Bioengineering, Vail Cascade, Colorado, 2005.6

91. T. Matsumoto, H. Tajima, N. Ito, K. Nagayama, and M. Sato: A cell rotation system for the observation of 3D microstructure of cells. Proceedings of Summer Bioengineering, Vail Cascade, Colorado, 2005.6

90. M. Sato: Biorheological Views for Endothelial Responses to Mechanical Stimuli. Proceedings of The 12th International Congress of Biorheology, Chongqing, 2005.5

89. S. Deguchi1,  T. Ohashi, and M. Sato: Tensile properties of single stress fibers characterized by in vitro manipulation. Proceedings of The 12th International Congress of Biorheology, Chongqing, 2005.5

88. T. Ohashi, N. Kameda and M. Sato: Subcellular distribution of traction forces of smooth muscle cells using micropatterned substrates. Proceedings of The 12th International Congress of Biorheology, Chongqing, 2005.5

87.    M. Sato, S. Deguchi and T. Ohashi: Mechanical properties of isolated stress fibers and nuclei to understand mechanical responses of endothelial cells. Proceedings of ACPBME , Tsukuba, 2005.4

86.    T. Ohashi, Y. Sugaya, N. Sakamoto, and M. Sato: Synergistic effects of hydrostatic pressure and fluid shear stress on morphology of cultured endothelial cells. Proceedings of ACPBME, Tsukuba, 2005.4

85.    T. Ushiyama, T. Ohashi, K. Kumagai, H. Akimoto, K. Tabayashi, and M. Sato: Measurement of rupture mechanical properties of human thoracic aortic aneurysms using a pressure-imposed test. Proceedings of the 4th International Symposium on Future Medical Engineering Based on Bio-nanotechnology, 71-72, 2004.

84.    N. Aruga, M. Masuda, T. Ohashi, and M. Sato: Morphological changes of cultured endothelial cells subjected to locally different strain field. Proceedings of the 4th International Symposium on Future Medical Engineering Based on Bio-nanotechnology, 90-91, 2004.

83.    Y. Sugaya, N. Sakamoto, T. Ohashi and M. Sato: Hydrostatic pressure affects morphology and expression of VE-cadherin of cultured bovine endothelial cells. Proceedings of the 4th International Symposium on Future Medical Engineering Based on Bio-nanotechnology, 92-93, 2004.

82.    S. Deguchi, T. Ohashi, and M. Sato: Significance of pretension of single stress fibers in living smooth muscle cells. Proceedings of the First Asian Pacific Conference on Biomechanics. 221-222, 2004

81.    N. Sakamoto, T. Ohashi, and M. Sato: Role of nitric oxide in migration of smooth muscle cells in cocultured model. Proceedings of the First Asian Pacific Conference on Biomechanics. 83-84, 2004

80.     S. Deguchi, T. Ohashi, and M. Sato: Measurement of mechanical properties of subcellular components in adherent cells. Proceedings of the First Asian Pacific Conference on Biomechanics. 77-78, 2004

79.    T. Ohashi, M. Masuda, T, Matsumoto, and M. Sato: Effect of nonuniform strain of substrate on cytoskeletal structure of endothelial cell. Proceedings of Workshop on Biomechanical Engineering and Biomaterials, in CD, 2004.

78.    M. Sato, K. Tsuyuki , T. Yamamoto, T. Ohashi and N. Mochizuki : Dynamic Responses of Actin Filament and Focal Adhesion Proteins of Endothelial cell in Shear Flow. Proceedings of the 2nd International Symposium on Future Medical Engineering Based on Bio-nanotechnology, 27-29, 2003

77.     S. Deguchi, T. Ohashi and M. Sato: Single stress fibers isolated from vascular smooth muscle cells possess surprisingly high extensibility. Proc. of 2003 Summer Bioengineering Conference, 833-834 in CD, 2003

76.    T. Ohashi, T. Yamamoto, N. Mochizuki and M. Sato: Temporal observation of dynamic process of focal adhesion-associated proteins in sheared endothelial cells. Proc. of 2003 Summer Bioengineering Conference, 703-704 in CD, 2003

75.    N. Sakamoto, T. Ohashi and M. Sato: Endothelial cells exposed to fluid shear stress regulate migration of cocultured smooth muscle cells. Proc. of 2003 Summer Bioengineering Conference, 621-622 in CD, 2003

74.    T. Matsumoto, T. Furukawa, T. Goto and M. Sato: Experimental and analytical study of residual stress and strain in the lamellar unit of the prcine aortas. Proc. of 2003 Summer Bioengineering Conference, 651-652 in CD, 2003

73.    T. Yamamoto, T. Ohashi, N. Mochizuki and M. Sato: Dynamic behavior of focal adhesion-associated proteins of endothelial cells in the early stage of shear stress exposure. Proceedings of Int. Cong. Biol. and Med. Eng. in Singapore, 243.pdf in CD, 2002

72.    N. Sakamoto, T. Ohashi and M. Sato: Fluid shear stress affects migration of vascular smooth muscle cells cocultured with endothelial cells. Proceedings of Int. Cong. Biol. and Med. Eng. in Singapore, 240pdf in CD, 2002

71.    M. Sato, K. Tsuyuki and T. Ohashi: Observation of actin filament movement and remodeling process of endothelial cells during exposure to shear stress. Proceedings of Int. Cong. Biol. and Med. Eng. in Singapore, 241.pdf in CD, 2002

70.    T. Ohashi, S. Sugita, T. Matsumoto, K. Kumagai, H. Akimoto, K. Tabayashi and M. Sato: Measurement of rupture properties of thoracic aortic aneurysms using pressure-imposed test, Proceedings of Int. Cong. Biol. and Med. Eng. in Singapore, 98.pdf in CD, 2002

69.    T. Ohashi, S. Seo, T. Matsumoto and M. Sato: Structural optimization analysis of endothelial cell remodeling to fluid flow. Proceeding of the second Joint EMBS - BMES conference, 366-367, 2002

68.    S. Seo, T. Ohashi, T. Matsumoto, and M. Sato: Finite element analysis of sheared endothelial cells using structural optimization method. Proc. The First International Symposium on Advanced Fluid Information., 143-146, 2001

67.    T. Matsumoto, M. Yamamoto, S. Seo, J. Sato and M. Sato: Effect of hypertension on contractile and mechanical properties of smooth muscle cells isolated from rat thoracic aortas. Proc. ASME 2001 Summer Bioengineering Conference, BMD-50, 613-614, 2001

66.    T. Ohashi, Y. Ishii, Y. Ishikawa, T. Matsumoto and M. Sato: Analysis of local mechanical properties of sheared endothelial cells measured by atomic force microscopy. Proc. ASME 2001 Summer Bioengineering Conference, BMD-50, 159-160, 2001

65.    N. Sakamoto, T. Ohashi, and M. Sato: Effect of oscillating magnetic field on nitric oxide synthesis of cultured endothelial cells. Proc. The 10th International Symposium on Applied Electromagnetics and Mchanics, 397-398, 2001

64.    Y. Kato, T. Matsumoto, K. Kumagai, H. Akimoto, K. Tabayashi and M. Sato: Development of a Method to Construct Three-Dimensional Finite Element Models of Thoracic Aortic Aneurysms from MRI Images. Proc. Medical Imaging and Augmented Reality, 131-136,  2001

63.    Y. Kato, T. Matsumoto, K. Kumagai, H. Akimoto, K. Tabayashi, and M. Sato: 3-D Model Construction of Thoracic Aortic Aneurysms using MRI and the Stress Analysis by Finite Element Method. Proc. 10th International Conference on Biomedical Engineering. 517-518, 2000

62.    N Sakamoto, T Ohashi, M Sato: Oscillating magnetic field affects NO synthesis of cultured endothelial cell. Proc. 10th International Conference on Biomedical Engineering. 433-434, 2000

61.    T. Ohashi, M. Fujita, D.L. Bader, and M. Sato: Change in Mechanical Properties of Isolated Articular Chondrocytes with Time in Culture. Proc. 10th International Conference on Biomedical Engineering. 431-432, 2000

60.    T. Matsumoto, M. Yamamoto, S. Seo, J. Sato, and M. Sato: Changes in Morphology and Mechanical Properties of Rat Aortic Smooth Muscle Cells in Response to Hypertension. Proc.  10th International Conference on Biomedical Engineering. 427-428, 2000

59.    M. Sato,  N. Kataoka, K. Hashimoto and M. Imamura: Mechanical stress and actin filament dynamics in cultured endothelial cell. Proc. 4th Int. Symp. on Tissue Engineering for Therapeutic Use 4. 121-130, 2000

58.    M. Sato, T. Matsumoto and T. Ohashi: An application of the pipette technique to the measuremtn of local mechanical properties of aortic walls. Proc. Toyota Int. Symp. on Human Life Support Biomechanics. 147-154, 2000.

57.    M. Sato, K. Nagayama, N. Kataoka, M. Sasaki and K. Hane: Shear stress induced changes in endothelial cell stiffness measured by atomic force microscopy. Proceedings of Bioenigneering Conference, BED-Vol. 42, 343-344, 1999.

56. N. Kataoka, A. Sugimoto, and M. Sato: Effects of cell - cell and cell - substrate contacts on the response of cultured endothelial cells to fluid shear stress. Proc of the 5th JUSSC Conf on Biomech (pp.54-55), 1998

55. T Matsumoto, and M Sato: Intramural strain analysis of atherosclerotic aorta of WHHL rabbit considering residual strain. Proc of the 5th JUSSC Conf on Biomech (pp.30-31), 1998

54. H. Ozawa, T. Matsumoto, T. Ohashi, and M. Sato: Biomechanical role of the pia mater in spinal cord deformation. Proc of the 5th JUSSC Conf. on Biomech. (pp.118-119)、1998

53. Y Kato, T Matsumoto, T Ohashi, M Sato: Histological analysis of rabbit atherosclerotic aortas: Close correlation between their histology and local elastic modulus. Proc of the 5th JUSSC Conf on Biomech (pp.28-29), 1998

52.    N Kataoka and M Sato, How do flow directions affect the morphology of cultured endothelial cells? — In relation to the blood flow condition at atherosclerotic regions —.  Proc. of The 10th International Conference on Mechanics in Medicine and Biology, 133-136, 1998

51. N Kataoka and M Sato: Morphological responses of cultured vascular endothelial cells to flow-induced shear stress. Proceedings 2nd Asian Control Conference, vol. III pp.167-170, 1997

50.    N Kataoka, S Ujita and M Sato: Statistical image analysis of F-actin distribution in cultured bovine aortic endothelial cells exposed to various flow conditions. Proc. of the International Conference on New Frontiers in Biomechanical Engineering, 405-408, 1997

49.    M Sato,  N Sakamoto, K Takeda, and N Kataoka: Endothelial cell responses to fluid shear stress using excised aortic segments. Proc. of the 3rd International Conference on Cellular Engineering, 51-52, 1997

48.    T Ohashi, H Abe, T Matsumoto, T Aoki, M Sato: Analytical and experimental studies on the measurement of soft biological tissue elasticity using a pipette with rectangular cross section. Proc. of the International Conference on New Frontiers in Biomechanical Engineering, 403-404,1997

47.    M Sato, T Ohashi, H Abe, T Matsumoto: Measurement of nonlinear elastic properties in aortic walls using pipette aspiration technique under biaxial stretching. Proc. of the International Conference on New Frontiers in Biomechanical Engineering, 81-82, 1997

46.    T Matsumoto, S Nagano, M Sato: Change in residual strain in rat thoracic aorta due to smooth muscle contraction/relaxation: Positional variation along the aortic tree. Proc. of the International Conference on New Frontiers in Biomechanical Engineering, 83-84, 1997

45.    T Matsumoto, E Okumura, Y Miura, M Sato: Mechanical and dimensional adaptation of rabbit carotid artery cultured in vitro. 1996 Advances in Bioengineering, ASME, BED Vol.33, pp.367-368

44.    N Ohshima, K Yanagi, K Ookawa, M Sato: The dye/light method to induce platelet thrombus in vivo or in vitro. Microcirculation Annual 12, 20-23, 1996

43.    T Ohashi, T Matsumoto, T Aoki, M Sato: Local elastic moduli of bovine and porcine aortic walls measured with pipette aspiration technique. 1995 Advances in Bioengineering, BED-Vol.31, 259-260 (1995)

42.    T Matsumoto, M Tsuchida, M Sato: Effects of smooth muscle contraction/relaxation on strain distribution in aortic walls. Proceedings of The Fourth China-Japan-USA-Singapore Conference on Biomechanics (Ed G Yang, K Hayashi, SL-Y Woo, JCH Goh),  International Academic Publishers, pp 107-110, 1995

41. M Sato, N Kataoka, S Ujita: Effects of flow direction on morphology of cultured bovine aortic endothelial cells. Proceedings of The Fourth China-Japan-USA-Singapore Conference on Biomechanics (Ed Yang G, Hayashi K, Woo S L-Y, Goh JCH),  International Academic Publishers, pp 385-388, 1995

40.    T Ito, S Homma, K Yanagi, M Sato, N Ohshima: Intravital near-infrared fluorescence microscope system to observe deep tissue microcirculation. Microcirc Ann 183-184、1992

39.    M Sato, K Ookawa, K Yanagi, S Homma, T Fujimori, N Ohshima: Autofluorescence observed in macrophages and microvessels of cholesterol-fed guinea pig mesentery. Microcirc Ann 175-176, 1991.

38.    S Homma, M Sato, Y Sugishita, N Ohshima: Flow behavior of erythrocytes in living microvessels : Analysis of the distribution of dynamic hematocrits measured in vivo.    Proc Intern Conf Multiphase Flow '91 Tsukuba 143-146,1991

37.    M Sato, K Ookawa, N Ohshima: Biomechanics of vascular endothelial cells.Proc 34th Jap Cong on Materials Res 63-69, 1991

36.    佐藤正明、大川敬子、大島宣雄:活性化した白血球の細静脈への粘着と物質透過性.シンポジウム「血液レオロジー最近の進歩」,273-281,1990

35.    MAA El-Haleem, T Miyauchi, S Homma, R Shiba, K Goto, Y Sugishita, M Sato, N Ohshima:Role of endothelin-1 in the regulation of the microcirculation of the rat mesentery. Microcirc Ann 43-44,1990

34.    S Homma, T Miyauchi, K Goto, Y Sugishita, M Sato, N Ohshima:Vasoconstrictor effects of endothelin-1 on myocardium microcirculation.Microcirc Ann 29-30,1990

33.    K Ookawa, M Sato, N Ohshima:Shape change of cultured vascular endothelial cells induced by extracellular matrices.Microcirc Ann 139-140,1990

32.    M Sato, K Ookawa, T Fujimori, N Ohshima:Changes in mesenteric microcirculation of cholesterol-fed guinea pigs.Microcirc Ann 187-188,1990

31.    K Ookawa, M Sato, N Ohshima:Vascular permeability and leukocyte emigration in venules of rat mesentery.Microcirc Annual 153-154,1989

30.    S Homma, M Sato, N Ohshima:Visualization of microvessels using an intravital near-infrared fluorescence microscope system.Microcirc Ann 163-164,1989

29.    M Sato, M Onohara, N Ohshima:Platelet thrombus model produced on cultured porcine endothelial cells.Microcirc Ann 13-14,1989

28.    N Ohshima, M Sato:Biomechanics on platelet thrombogenesis by the fluorescent dye-light method.Progress and New Directions of Biomechanics(Eds YC Fung, K Hayashi, Y Seguchi)(2nd Japan-USA-China Conference on Biomechanics),Mita Press,pp. 279-288,1989

27.    M Sato, MJ Levesque, RM Nerem:The effect of a fluid-imposed shear stress on the mechanical properties of cultured endothelial cells.in "The Role of Blood Flow in Atherogenesis" (eds Yoshida, Yamaguchi, Caro, Glagov, Nerem),Springer-Verlag,189-194,1988

26.    S Sakuraba, M Sato, N Ohshima:Effect of chemotactic factors on leukocyte behavior at the arteriolar bifurcation and the venular confluence in the rat mesenter.Microcirc Ann 105-106,1988

25.    M Sato, MJ Levesque, RM Nerem:The effect of a fluid-imposed shear stress on the mechanical properties of cultured endothelial cells.Proc of Int Symp on The Role of Blood Flow in Atherogenesis III-17-20,1987

24.    M Sato, N Ohshima:Application of the fluorescent dye technique to the study on hemodynamics of platelets and leucocytes in microvessels.Microcirculation - An update    (Eds. M Tsuchiya, M Asano, Y Mishima, M Oda),Elsevier Sci Publ 1,pp.  318-321,1987

23.    M Sato, H Maeta, N Ohshima:Hemodynamics in the rabbit mesenteric microvessels during acute cardiac tamponade.Microcirculation - An update(Eds. M Tsuchiya, M Asano, Y Mishima, M Oda),Elsevier Sci Publ,1,pp. 575-576,1987

22.    M Sato,T Natori,N Ohshima:Effects of scavengers of active oxygens on the platelet thrombus formation in microvessels induced by photochemical reaction.Microcirc Ann135-137, 1987 (6)

21.    RM Nerem, MJ Levesque, M Sato:Vascular dynamics and the endothelium.in "Frontiers in Biomechanics"(GW Schmid-Schoenbein et al.), Springer-Verlag,pp.324-341,1986

20.    佐藤正明,大島宣雄:蛍光物質をラベルした白血球の細静脈内での挙動の解析.日本バイオレオロジー学会論文集 9, 259-262,1986

19.    M Sato,H Maeta,N Ohshima:The microcirculation of rabbit mesentery in acute cardiac tamponade.Microcirc Ann 61-62,1986

18.    N Ohshima,M Sato:Quantitative visualization of the leukocyte behavior in microvessels using fluorescent dye.Microcirc Ann 19-20,1986

17.    佐藤正明,MJ Levesque,RM Nerem:培養したウシ大動脈内皮細胞の力学的性質.日本バイオレオロジー学会論文集 8, 255-257,1985

16.    M Sato, MJ Levesque, RM Nerem:Application of the micropipette technique to the measurement of endothelial cell mechanical properties.Proc 1985 Biomechanics Symposium AMD-68, 167-169,1985

15.    N Ohshima,  M Sato:Microhemodynamics of mesenteric capillary blood flow.Proc of China-Japan-USA Conf on Biomechanics (Eds YC Fung, E Fukada, W Junjian), Science Press, Beijing, pp. 120-126, 1984

14.    M Sato, N Ohshima:Hemodynamics at stenosis formed by growing platelet thrombus in mesenteric microvasculature of rat.Proc 1983 Biomechanics Symposium AMD-56, 67-70,1983

13.    佐藤正明、小田直人、小松さつき、大島宣雄:微小血管内における血小板凝集に対する流れの影響.日本バイオレオロジー学会論文集 5, 147-150,1982

12.    N Ohshima, M Sato, A Yasuda, S Komatsu, N Oda:A rheological aspect of the microcirculatory blood flow dynamics: Effects of red blood cell deformability on capillary blood flow.日本バイオレオロジー学会論文集 5, 14-18,1982

11.    Zheng X-Xiang、佐藤正明、大島宣雄:人工血液(PFC乳剤)の投与による微小循環血行動態の変化:界面活性剤の影響.人工臓器 11(6),1026-1029,1982

10.    大島宣雄、Zheng X-Xiang、佐藤正明、安田晃、小田直人:Perfluoro-chemical 乳濁液の血管内投与による微小循環動態の変化.人工臓器 11(2), 505-508,1982

9. 佐藤正明、大島宣雄:紫外線および蛍光物質によって誘起される微小血管内血栓の定量的評価.日本バイオレオロジー学会論文集 4, 146-149,1981

8. 佐藤正明,大島宣雄:静脈壁の外圧による不安定現象について.日本バイオレオロジー学会論文集 3,71-74,1980

7. 前田肇、佐藤正明、入山正、伊藤翼、岡村健二、井島宏、三井利夫、堀原一:異種生体弁の問題点.人工臓器 9(1), 293-295,1980

6. 大島宣雄,佐藤正明,赤塚孝雄,前田肇,入山 正:体外循環時の上・下大静脈脱血流量比の計測法.人工臓器 8(1), 31-34,1979

5. 佐藤正明,大島宣雄,前田肇,岡村健二:生物弁の力学的挙動について.人工臓器 8(1), 108-111,1979

4. H Niimi, K Hayashi, M Sato, H Handa, K Moritake, A Okumura:Nonlinear theory of pulse waves in blood vessels.Proc 1975 Joint JSME-ASME Applied Mechanics Western Conference, 1-6,1975

3. K Hayashi, M Sato, H Niimi, H Handa, K Moritake, A Okumura:Triaxial constitutive laws of deformation of vascular wall.Proc. 1975 Biomechanics Symposium AMD-Vol.10, 81-82,1975

2. S Taira, M Sato:Mechanical analysis on stability of blood vessel walls.Proc. of The 1975 Symp on Biomaterials 97-103,1975

1. K Hayashi, M Sato, H Handa, K Moritake:Biomechanical study of vascular walls (Testing apparatus of mechanical behavior of vascular walls and measurement of volume fraction of their structural components).Proc. the16th Japan Congress on Materials Research 240-244,1973