|Mechanical damage of red blood cells by rotary blood pumps: selective destruction of aged red blood cells and subhemolytic trauma|
D Sakota, R Sakamoto, H Sobajima, N Yokoyama, S Waguri, K Ohuchi, ...
Artificial organs 32 (10), 785-791, 2008
|Application of a magnetic fluid seal to rotary blood pumps|
Y Mitamura, S Arioka, D Sakota, K Sekine, M Azegami
Journal of Physics: Condensed Matter 20 (20), 204145, 2008
|Deformability of red blood cells and its relation to blood trauma in rotary blood pumps|
N Watanabe, D Sakota, K Ohuchi, S Takatani
Artificial organs 31 (5), 352-358, 2007
|Feasibility of the optical imaging of thrombus formation in a rotary blood pump by near]infrared light|
D Sakota, T Murashige, R Kosaka, M Nishida, O Maruyama
Artificial organs 38 (9), 733-740, 2014
|New Generation Extracorporeal Membrane Oxygenation With M ed T ech M ag]L ev, a Single]Use, Magnetically Levitated, Centrifugal Blood Pump: Preclinical Evaluation in Calves|
T Fujiwara, E Nagaoka, T Watanabe, N Miyagi, T Kitao, D Sakota, ...
Artificial organs 37 (5), 447-456, 2013
|Effect of Impeller Geometry on Lift]Off Characteristics and Rotational Attitude in a Monopivot Centrifugal Blood Pump|
M Nishida, K Nakayama, D Sakota, R Kosaka, O Maruyama, Y Kawaguchi, ...
Artificial organs 40 (6), E89-E101, 2016
|Quantitative analysis of optical properties of flowing blood using a photon-cell interactive Monte Carlo code: effects of red blood cells' orientation on light scattering|
D Sakota, S Takatani
Journal of biomedical optics 17 (5), 057007, 2012
|In vivo evaluation of the gtinypumph as a pediatric left ventricular assist device|
T Kitao, Y Ando, M Yoshikawa, M Kobayashi, T Kimura, H Ohsawa, ...
Artificial organs 35 (5), 543-553, 2011
|Red blood cells aggregability measurement of coagulating blood in extracorporeal circulation system with multiple-frequency electrical impedance spectroscopy|
J Li, A Sapkota, D Kikuchi, D Sakota, O Maruyama, M Takei
Biosensors and Bioelectronics 112, 79-85, 2018
|Photon-cell interactive Monte Carlo model based on the geometric optics theory for photon migration in blood by incorporating both extra-and intracellular pathways|
D Sakota, S Takatani
Journal of biomedical optics 15 (6), 065001, 2010
|Alterations in red blood cell volume and hemoglobin concentration, viscoelastic properties, and mechanical fragility caused by continuous flow pumping in calves|
N Yokoyama, D Sakota, E Nagaoka, S Takatani
Artificial organs 35 (8), 791-799, 2011
|Properties of a monopivot centrifugal blood pump manufactured by 3D printing|
M Nishida, T Negishi, D Sakota, R Kosaka, O Maruyama, T Hyakutake, ...
Journal of Artificial Organs 19 (4), 322-329, 2016
|Glucose Depletion Enhances Sensitivity to Shear Stress]induced Mechanical Damage in Red Blood Cells by Rotary Blood Pumps|
D Sakota, R Sakamoto, N Yokoyama, M Kobayashi, S Takatani
Artificial organs 33 (9), 733-739, 2009
|Development of an optical detector of thrombus formation on the pivot bearing of a rotary blood pump|
D Sakota, T Fujiwara, K Ouchi, K Kuwana, H Yamazaki, O Maruyama
Artificial organs 40 (9), 834-841, 2016
|Optical aggregometry of red blood cells associated with the blood-clotting reaction in extracorporeal circulation support|
D Sakota, R Kosaka, M Nishida, O Maruyama
Journal of Artificial Organs 19 (3), 241-248, 2016
|Real]time observation of thrombus growth process in an impeller of a hydrodynamically levitated centrifugal blood pump by near]infrared hyperspectral imaging|
D Sakota, T Murashige, R Kosaka, T Fujiwara, M Nishida, O Maruyama
Artificial organs 39 (8), 714-719, 2015
|Method and device for measuring blood information|
D Sakota, S Takatani
US Patent App. 14/378,090, 2015
|Development of a real-time and quantitative thrombus sensor for an extracorporeal centrifugal blood pump by near-infrared light|
D Sakota, T Fujiwara, K Ohuchi, K Kuwana, H Yamazaki, R Kosaka, ...
Biomedical optics express 9 (1), 190-201, 2018
|Evaluation of a spiral groove geometry for improvement of hemolysis level in a hydrodynamically levitated centrifugal blood pump|
T Murashige, R Kosaka, D Sakota, M Nishida, Y Kawaguchi, T Yamane, ...
Artificial organs 39 (8), 710-714, 2015
|Optical dynamic analysis of thrombus inside a centrifugal blood pump during extracorporeal mechanical circulatory support in a porcine model|
T Fujiwara, D Sakota, K Ohuchi, S Endo, T Tahara, T Murashige, ...
Artificial organs 41 (10), 893-903, 2017