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1. Measurement of characteristic frequency of red blood cells and thrombogenic process for various hematocrit values using dielectric relaxation method

Author

Yuta ASAKURA, Achyut SAPKOTA, Osamu MARUYAMA, Ryo KOSAKA, Takashi YAMANE, and Masahiro TAKEI

Subjects
dielectric relaxation method, relaxation frequency, thrombus formation, red blood cell, artificial heart, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215
Abstract

Dielectric relaxation method has been proposed for the possibility of real-time detection of thrombosis by exploiting the electrical properties of the blood. In-vitro experiments were conducted with bovine blood to measure relative permittivity and dielectric loss in the case of various hematocrit values under static blood condition. As a result, the relaxation frequency of the electrode and red blood cells were observed at 20 kHz and 2 MHz respectively. The characteristics frequency showing the permittivity of the red blood cells membrane was in the range of 60 kHz to 1 MHz. The time variations of resistivity and relative permittivity were observed at this frequency range of characteristics frequency of red blood cell membrane. Resistivity and relative permittivity measured at this frequency range increased in the case of the increase in the hematocrit values. Additionally, a peak was observed in the temporal change in relative permittivity only in the case of that frequency range. Moreover, from the results of visual check of thrombosis, this peak indicated the start of the micro-thrombus formation. This phenomenon was specific to the thrombosis, and was observed only in the presence of red blood cells. The experiments showed the possibility of the real time detection of thrombosis for implantable ventricular assistance devices, heart-lung machines and artificial kidney.

Published
2014
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5. Real-time Lung Weight Measurement During Cellular Ex Vivo Lung Perfusion: An Early Predictor of Transplant Suitability

Author

Ryo, Kosaka, Daisuke, Sakota, Ichiro, Sakanoue, Hiromichi, Niikawa, Katsuhiro, Ohuchi, Hirokuni, Arai, Kenneth R, McCurry, and Toshihiro, Okamoto

Subjects
Transplantation
Abstract

Increased extravascular lung water during ex vivo lung perfusion (EVLP) is associated with ischemia reperfusion injury and poor pulmonary function. A non-invasive technique for evaluating extravascular lung water during EVLP is desired to assess the transplant suitability of lungs. We investigated real-time lung weight measurements as a reliable method for assessing pulmonary functions in cellular EVLP using a porcine lung model.Fifteen pigs were randomly divided into 3 groups: control (no warm ischemia) or donation after circulatory death groups with 60 or 90 min of warm ischemia (n = 5, each). Real-time lung weight gain was measured by load cells positioned at the bottom of the organ chamber.Real-time lung weight gain at 2 h was significantly correlated with lung weight gain as measured on a back table (R = 0.979, P 0.01). Lung weight gain in non-suitable cases (n = 6) was significantly higher than in suitable cases (n = 9) at 40 min (51.6 ± 46.0 versus -8.8 ± 25.7 g; P 0.01, cutoff = +12 g, area under the curve = 0.907). Lung weight gain at 40 min was significantly correlated with PaO2/FiO2, peak inspiratory pressure, shunt ratio, wet/dry ratio, and transplant suitability at 2 h (P 0.05, each). In non-suitable cases, lung weight gain at 66% and 100% of cardiac output was significantly higher than at 33% (P 0.05).Real-time lung weight measurement could potentially be an early predictor of pulmonary function in cellular EVLP.

Published
2023

11. Lung thermography during the initial reperfusion period to assess pulmonary function in cellular ex vivo lung perfusion

Author

Ryo Kosaka, Daisuke Sakota, Hiromichi Niikawa, Katsuhiro Ohuchi, Hirokuni Arai, Kenneth R. McCurry, and Toshihiro Okamoto

Subjects
Perfusion, Biomaterials, Ischemia, Swine, Thermography, Reperfusion, Biomedical Engineering, Animals, Medicine (miscellaneous), Bioengineering, General Medicine, Lung, Lung Transplantation
Abstract

Thermography is a noninvasive technology to detect low temperatures in poorly circulated areas. In ex vivo lung perfusion (EVLP), lungs are rewarmed to body temperature during the initial 1 h. Currently, the effect of graft thermal changes during the rewarming phase on pulmonary function is unknown. In this study, we evaluated the correlation of lung surface temperature with physiological parameters, wet/dry ratio, and transplant suitability in Lund-type EVLP.Fifteen pigs were divided into three groups: control group (no warm ischemia) or donation after circulatory death groups with 60 or 90 min of warm ischemia (n = 5, each). Thermal images of the lower lobes were continuously collected from the bottom of an organ chamber using infrared thermography throughout EVLP.At 8 min, lung surface temperatures of nonsuitable cases were significantly lower than in suitable cases (25.1 ± 0.6 vs. 27.8 ± 1.2°C, p 0.001), while there was no difference in lung surface temperatures between the two groups at 0-4 min and 12-120 min. There was a significant negative correlation between lung surface temperatures at 8 min and wet/dry ratio at 2 h in the lower lobes (R = -0.769, p 0.001, cutoff = 26°C, area under the curve = 1.0). A lung surface temperature of26°C was significantly correlated with poor pulmonary function and transplant nonsuitability.A lung surface temperature of ≥26°C at 8 min is a good early predictor of transplant suitability in cellular EVLP and might be applicable in clinical EVLP.

Published
2022

17. In vitro hemocompatibility investigation for the development of low-flow centrifugal blood pumps with less platelet clogging

Author

Ryo Kosaka, Masahiro Nishida, Daisuke Sakota, Osamu Maruyama, Takashi Yamane, and Akiko Oota-Ishigaki

Subjects
Blood Platelets, Platelet Aggregation, Platelet Function Tests, Swine, medicine.medical_treatment, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Artificial kidney, Hemolysis, Biomaterials, Blood cell, Clogging, Hemofiltration, medicine, Animals, Platelet, Chemistry, General Medicine, medicine.disease, Centrifugal pump, Blood pump, medicine.anatomical_structure, Heart-Assist Devices, Biomedical engineering
Abstract

Low-flow blood pumps rated under 1 L/min are emerging for new medical applications, such as hemofiltration in acute use. In those pumps, platelet adhesion and aggregation have to be carefully considered because of clogging risk in the filter part. To find an acceptable hemocompatibility that can be applied to low-flow centrifugal blood pump design, the platelet aggregation index, clogging on a micromesh filter, and the hemolysis index were investigated using a low-flow blood pump designed for hemofiltration use. We conducted circulation testing in vitro using fresh porcine blood and two centrifugal pumps with different impeller inlet shapes. The Negative Log Platelet Aggregation Threshold Index (NL-PATI), which reflects the ability of residual platelets to aggregate, and flow rate were measured during reflux for 60 min, and the Normalized Index of Hemolysis (NIH (g/20 min)) was calculated. In addition, blood cell clogging after reflux was observed on the micromesh filter by SEM, and the adhesion rate was calculated. Our results showed that the platelet clogging on the micromesh filter occurred when the average NL-PATI was greater than 0.28 and the average NIH (g/20 min) was greater than 0.01. In contrast, platelet clogging on the micromesh was suppressed when NL-PATI was less than 0.17 and the NIH (g/20 min) was less than 0.003. These values might be used as acceptable hemocompatibility of low-flow centrifugal blood pumps with suppressed platelet clogging for hemofiltration pumps.

Published
2021

21. Investigating the cause of hemolysis in patients supported by a pulsatile ventricular assist device

Author

Hiromichi Sonoda, Satoshi Kimura, Koichi Kojima, Yoshihisa Tanoue, Ryo Kosaka, Takeaki Harada, Satoshi Fujita, Yasuhisa Oishi, Akira Shiose, and Tomoki Ushijima

Subjects
Anemia, Hemolytic, medicine.medical_specialty, Hemoglobin increased, medicine.medical_treatment, Pulsatile flow, 030204 cardiovascular system & hematology, Hemolysis, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Humans, Medicine, In patient, 030212 general & internal medicine, Retrospective Studies, Heart Failure, Hematologic Tests, business.industry, medicine.disease, Particle image velocimetry, Heart failure, Ventricular assist device, Circulatory system, Cardiology, Heart-Assist Devices, Cardiology and Cardiovascular Medicine, business, Follow-Up Studies
Abstract

A survey conducted by Abiomed, Inc. revealed that 10 of 60 patients who received ventricular assistance via the AB5000 ventricular assist device (VAD) experienced hemolysis. The present study was conducted to investigate which factors influence hemolysis under pulsatile-flow VADs such as the AB5000. We compared the specificity of the AB5000 and its driving console with those of the NIPRO-VAD and VCT50χ under severe heart failure conditions using a mock circulatory system with a glycerol water solution. We used the mock circuit with bovine blood to confirm which pump conditions were most likely to cause hemolysis. In addition, we measured the shear velocity using particle image velocimetry by analyzing the seeding particle motion for both the AB5000 and NIPRO-VAD under the same conditions as those indicated in the initial experiment. Finally, we analyzed the correlation between negative pressure, exposure time, and hemolysis by continuously exposing fixed vacuum pressures for fixed times in a sealed device injected with bovine blood. Applying higher vacuum pressure to the AB5000 pump yielded a larger minimum inlet pressure and a longer exposure time when the negative pressure was under - 10 mmHg. The plasma-free hemoglobin increased as more negative pressure was driven into the AB5000 pump. Moreover, the negative pressure interacted with the exposure time, inducing hemolysis. This study revealed that negative pressure and exposure time were both associated with hemolysis.

Published
2021

23. Real-time, non-invasive thrombus detection in an extracorporeal circuit using micro-optical thrombus sensors

Author

Akiko Oota-Ishigaki, Wataru Iwasaki, Kazuki Kondo, Masahiro Nishida, Toshihiro Takeshita, Osamu Maruyama, Ryo Kosaka, Daisuke Sakota, and Nobutomo Morita

Subjects
Swine, Micro-optical sensor, 0206 medical engineering, Biomedical Engineering, Anticoagulation management, Medicine (miscellaneous), Bioengineering, 02 engineering and technology, 030204 cardiovascular system & hematology, Extracorporeal, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, Original Research Articles, Animals, Medicine, cardiovascular diseases, Thrombus, Cardiac Assist Devices and Artificial Heart, blood monitoring, anticoagulation management, thrombus monitoring, business.industry, Non invasive, Thrombosis, General Medicine, medicine.disease, 020601 biomedical engineering, real-time detection, Hematocrit, cardiovascular system, business, circulatory and respiratory physiology, Biomedical engineering
Abstract

Introduction: Real-time, non-invasive monitoring of thrombus formation in extracorporeal circuits has yet to be achieved. To address the challenges of conventional optical thrombus detection methods requiring large devices that limit detection capacity, we developed a micro-optical thrombus sensor. Methods: The proposed micro-optical thrombus sensor can detect the intensity of light scattered by blood at wavelengths of 660 and 855 nm. Two thrombus sensors were installed on in vitro circuit: one at the rotary blood pump and one at a flow channel. To evaluate the variation in the ratio of incident light intensity at each wavelength of the two sensors, Rfluct (for 660 nm) and Ifluct (for 855 nm) were defined. Using fresh porcine blood as a working fluid, we performed in vitro tests of haematocrit (Hct) and oxygen saturation (SaO2) variation and thrombus detection. Thrombus tests were terminated after Rfluct or Ifluct showed a larger change than the maximum range of those in the Hct and SaO2 variation test. Results: In all three thrombus detection tests, Ifluct showed a larger change than the maximum range of those in the Hct and SaO2 variation test. After the tests, thrombus formation was confirmed in the pump, and there was no thrombus in the flow channel. The results indicate that Ifluct is an effective parameter for identifying the presence of a thrombus. Conclusion: Thrombus detection in an extracorporeal circuit using the developed micro-optical sensors was successfully demonstrated in an in vitro test.

Published
2020

24. Three-Dimensional Observation of Internal Defects in a β-Ga2O3 (001) Wafer Using the FIB–SEM Serial Sectioning Method

Author

Yukari Ishikawa, Naoya Ogawa, Kenichi Ogawa, Ryo Kosaka, Toshiyuki Isshiki, and Yongzhao Yao

Subjects
010302 applied physics, Materials science, Solid-state physics, Atomic force microscopy, Scanning electron microscope, technology, industry, and agriculture, Stacking, macromolecular substances, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Crystallographic defect, Electronic, Optical and Magnetic Materials, Ion, Planar, 0103 physical sciences, Materials Chemistry, Wafer, Electrical and Electronic Engineering, Composite material, 0210 nano-technology
Abstract

We reported our observation results on the etch pit shapes on β-Ga2O3 (001) wafers using a scanning electron microscope (SEM) and an atomic force microscope (AFM) in a previous study. However, it was difficult to detect the internal crystal defects that exist under the etch pits. In this study, to gain a detailed understanding of the internal crystal defects under the etch pits in detail, we observed the etch pits on the (001) surface three-dimensionally using a focused ion beam–SEM. The etch pits investigated were “Cicada I” and “Cicada II,” which had the characteristic shapes observed in previous SEM and AFM analysis. Using this method, we revealed the existence of plate-like defects along the (100) plane under the etch pits. The proposed method is useful for understanding internal defects the etch pits which cannot be clarified by observing the surface using SEM and AFM analysis. Furthermore, from the changes in the SEM image contrast, Cicada I and Cicada II were deduced to be internal planar defects, i.e., plate-like voids and stacking faults, respectively.

Published
2020

25. AFM Observation of Etch-Pit Shapes on β-Ga2O3 (001) Surface Formed by Molten Alkali Etching

Author

Naoya Ogawa, Masato Iyoki, Yukari Ishikawa, Toru Aiso, Ryo Kosaka, Toshiyuki Isshiki, Yongzhao Yao, and Kenichi Ogawa

Subjects
010302 applied physics, Surface (mathematics), Materials science, Atomic force microscopy, Mechanical Engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Alkali metal, 01 natural sciences, Chemical engineering, Mechanics of Materials, Etching (microfabrication), 0103 physical sciences, General Materials Science, 0210 nano-technology
Abstract

In order to understand the crystal defects of beta-gallium oxide (β-Ga2O3) in more detail, we classified the crystal defects of a 2-inch substrate of β-Ga2O3 (001) single crystal. As a result of observing the etch pits formed by molten alkali etching using scanning electron microscope (SEM) and atomic force microscope (AFM), we succeeded in observing six different etch pit shapes. These etch pit shapes are categorized into “Cicada I type”, “Cicada II type”, “Cannonball type”, “Trapezoid type”, “Bar type”, and “Shell type”. We consider that “Cicada I type” and “Cicada II type” are etch pit shapes caused by planar defects, and “Cannon ball type” is etch pit shapes due to dislocations. In addition, “Trapezoid type”, “Bar type”, and “Shell type” are deduced the result of surface morphology.

Published
2020

26. Optical oxygen saturation imaging in cellular ex vivo lung perfusion to assess lobular pulmonary function

Author

Daisuke Sakota, Ryo Kosaka, Hiromichi Niikawa, Katsuhiro Ohuchi, Hirokuni Arai, Kenneth R. McCurry, and Toshihiro Okamoto

Subjects
Atomic and Molecular Physics, and Optics, Article, Biotechnology
Abstract

Ex vivo lung perfusion (EVLP) is an emerging tool to evaluate marginal lungs in lung transplantation. However, there is no objective metric to monitor lobular regional oxygenation during EVLP. In this study, we developed oxygen saturation (SaO2) imaging to quantitatively assess the regional gas exchange potential of the lower lobes. Ten porcine lungs were randomly divided into control and donation after circulatory death (DCD) groups (n = 5, each). Lungs were perfused in cellular EVLP for 2 h, and multispectral images were continuously collected from the dorsal sides of the lower lobes. We examined whether lower lobe SaO2 correlated with PaO2/FiO2 (P/F) ratios in lower pulmonary veins (PV). The wet/dry ratio in lower lobes was measured and Monte Carlo simulations were performed to investigate the method’s feasibility. There was a significant correlation between lower lobe SaO2 and the P/F ratio in lower PV (r = 0.855, P 2 and higher wet/dry ratio than the control group (P 2 was limited according to Monte Carlo simulations. The developed technology provides a noninvasive and regional evaluative tool of quantitative lobular function in EVLP.

Published
2021

27. Impact of gap size and groove design of hydrodynamic bearing on plasma skimming effect for use in rotary blood pump

Author

Ming Jiang, Daisuke Sakota, Ryo Kosaka, and Wataru Hijikata

Subjects
Biomaterials, Erythrocytes, Hematocrit, Biomedical Engineering, Hydrodynamics, Medicine (miscellaneous), Humans, Assisted Circulation, Equipment Design, Heart-Assist Devices, Cardiology and Cardiovascular Medicine, Hemolysis
Abstract

Plasma skimming can exclude red blood cells from high shear regions in the gaps formed by hydrodynamic bearings in rotary blood pumps. We investigated the effect of the gap size and groove design on the plasma skimming efficiency. Spiral groove bearings (SGBs) were installed into a specially designed test rig for in vitro experiments performed using human blood. The measured gap between the ridges of the bearing and the rotor surface was 17-26 µm at a flow rate of 150 ml/min and a rotor speed of 2400 rpm. Three different patterns of SGBs were designed (SGB-0, SGB-30, and SGB-60) with various degrees of the circumferential component. The hematocrit measured by a high-speed camera was compared with the hematocrit in the circuit, and the plasma skimming efficiency for the three bearing patterns was evaluated at hematocrits of 20%, 25%, and 30%. SGB-60, which had the strongest circumferential component, provided the best plasma skimming efficiency. When the gap size was less than 20 µm, the red blood cells in the gaps between the ridges of the bearing and rotor surface reduced significantly and the efficiency became higher than 90%. The gap size had the strongest effect on producing a significant plasma skimming. The plasma skimming efficiency can be significantly improved by optimizing the bearing gap size and groove design, which facilitates the further development of SGBs for use in applications such as rotary blood pumps.

Published
2021

29. Improvement of hemolysis performance in a hydrodynamically levitated centrifugal blood pump by optimizing a shroud size

Author

Ryo Kosaka, Masahiro Nishida, Takashi Yamane, Daisuke Sakota, and Osamu Maruyama

Subjects
Materials science, Bearing (mechanical), Numerical analysis, Biomedical Engineering, Medicine (miscellaneous), Fluid bearing, Thrust, Centrifugation, Mechanics, Equipment Design, medicine.disease, Prosthesis Design, Hemolysis, law.invention, Biomaterials, Blood pump, Impeller, law, medicine, Hydrodynamics, Humans, Shroud, Heart-Assist Devices, Cardiology and Cardiovascular Medicine
Abstract

We have developed a hydrodynamically levitated centrifugal blood pump. In the blood pump having hydrodynamic bearings, the narrow bearing gap has a potential for high hemolysis. The purpose of the this study is to improve hemolysis performance in a hydrodynamically levitated centrifugal blood pump by optimizing a shroud size. The impeller was levitated passively at the position where the thrust forces acting on the impeller were balanced. We focused on a size of a bottom shroud with a hydrodynamic bearing that could change the bottom hydrodynamic force to balance the thrust force at the wide bearing gap for reducing hemolysis. Five test models with various shroud size were compared: 989 mm2 (HH-10.5), 962 mm2 (HH-12), 932 mm2 (HH-13.5), 874 mm2 (HH-16), and 821 mm2 (HH-18). A numerical analysis was first performed to estimate the bearing gaps in the test model. The bearing gaps were then measured to validate the numerical analysis. Finally, an in vitro hemolysis test was performed. The numerical analysis revealed that the HH-13.5 model had the widest bearing gap of 129 µm. In the measurement test, the estimation error for the bearing gap was less than 10%. In the hemolysis test, the HH-13.5 model achieved the lowest hemolysis level among the five models. The present study demonstrated that the numerical analysis was found to be effective for determining the optimal should size, and the HH-13.5 model had the optimal shroud size in the developed hydrodynamically levitated centrifugal blood pump to reduce hemolysis.

Published
2020

30. Plasma skimming efficiency of human blood in the spiral groove bearing of a centrifugal blood pump

Author

Ryo Kosaka, Osamu Maruyama, Daisuke Sakota, Masahiro Nishida, and Kazuki Kondo

Subjects
Materials science, Erythrocytes, Biomedical Engineering, Medicine (miscellaneous), Centrifugation, Hematocrit, Prosthesis Design, Hemolysis, Biomaterials, Hydrodynamic bearing, medicine, Humans, Assisted Circulation, Mean corpuscular volume, Centrifugal blood pump, Spiral groove bearing, medicine.diagnostic_test, Plasma, medicine.disease, Plasma skimming, Volumetric flow rate, Red blood cell, medicine.anatomical_structure, Optics of blood, Ridge (meteorology), Hydrodynamics, Original Article, Heart-Assist Devices, Cardiology and Cardiovascular Medicine, Biomedical engineering
Abstract

This work investigates the plasma skimming effect in a spiral groove bearing within a hydrodynamically levitated centrifugal blood pump when working with human blood having a hematocrit value from 0 to 40%. The present study assessed the evaluation based on a method that clarified the limitations associated with such assessments. Human blood was circulated in a closed-loop circuit via a pump operating at 4000 rpm at a flow rate of 5 L/min. Red blood cells flowing through a ridge area of the bearing were directly observed using a high-speed microscope. The hematocrit value in the ridge area was calculated using the mean corpuscular volume, the bearing gap, the cross-sectional area of a red blood cell, and the occupancy of red blood cells. The latter value was obtained from photographic images by dividing the number of pixels showing red blood cells in the evaluation area by the total number of pixels in this area. The plasma skimming efficiency was calculated as the extent to which the hematocrit of the working blood was reduced in the ridge area. For the hematocrit in the circuit from 0 to 40%, the plasma skimming efficiency was approximately 90%, meaning that the hematocrit in the ridge area became 10% as compared to that in the circuit. For a hematocrit of 20% and over, red blood cells almost completely occupied the ridge. Thus, a valid assessment of plasma skimming was only possible when the hematocrit was less than 20%. Electronic supplementary material The online version of this article (10.1007/s10047-020-01221-9) contains supplementary material, which is available to authorized users.

Published
2020

31. Suitable hemolysis index for low-flow rotary blood pumps

Author

Masahiro Nishida, Kazuki Adachi, Osamu Maruyama, Takashi Yamane, and Ryo Kosaka

Subjects
Materials science, Rotational speed, Flow (psychology), Centrifugal pump, Biomedical Engineering, Medicine (miscellaneous), Hemolysis rate, Flow rate, Hemolysis, Biomaterials, Impeller, Hemoglobins, medicine, Animals, Hemodynamics, medicine.disease, Volumetric flow rate, Cattle, Hemoglobin, Heart-Assist Devices, Hemolysis index, Cardiology and Cardiovascular Medicine, Algorithms, Biomedical engineering
Abstract

A suitable index is needed for hemolysis tests that use low-flow pumps, such as pediatric blood pumps or blood purification pumps. To create such an index, the present study investigates the change of plasma-free hemoglobin in the pump circuit with time and the change of the hemolysis rate with flow rate and impeller rotational speed. The results show that the hemolysis rate or the increase rate of the total free hemoglobin are suitable measures for hemolysis evaluation for low-flow pumps.

Published
2020

34. Optical Dynamic Analysis of Thrombus Inside a Centrifugal Blood Pump During Extracorporeal Mechanical Circulatory Support in a Porcine Model

Author

Tomotaka Murashige, Shu Endo, Tomoki Tahara, Daisuke Sakota, Katsuhiro Ohuchi, Ryo Kosaka, Hirokuni Arai, Tomohiro Mizuno, Tatsuki Fujiwara, Keiji Oi, and Osamu Maruyama

Subjects
medicine.medical_specialty, Materials science, medicine.medical_treatment, Dynamic imaging, 0206 medical engineering, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, 02 engineering and technology, 030204 cardiovascular system & hematology, Extracorporeal, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Extracorporeal membrane oxygenation, Centrifugal blood pump, cardiovascular diseases, Thrombus, General Medicine, medicine.disease, 020601 biomedical engineering, Pump flow, Ventricular assist device, Circulatory system, cardiovascular system, Cardiology, circulatory and respiratory physiology, Biomedical engineering
Abstract

Complications due to pump thrombus remain the weak point of mechanical circulatory support (MCS), such as the use of a left ventricular assist device (LVAD) or extracorporeal membrane oxygenation, leading to poor outcomes. Hyperspectral imaging (HSI) is an effective imaging method using a hyperspectral (HS) camera, which comprises a spectrophotometer and a charge-coupled device camera to discriminate thrombus from whole blood. Animal experiments were conducted to analyze dynamic imaging of thrombus inside a prototype of a hydrodynamically levitated centrifugal blood pump using an HSI system. Six pigs were divided into a venous circulation group (n = 3) and an arterial circulation group (n = 3). Inflow and outflow cannulae were inserted into the jugular veins in the venous circulation group. The latter simulated an LVAD application. To create thrombogenic conditions, pump flow was maintained at 1 L/min without anticoagulation. An image of the bottom surface of the pump was captured by the HS camera every 4 nm over the wavelength range of 608–752 nm. Real-time dynamic images of the inside of the pump were displayed on the monitor. Appearance of an area displaying thrombus was detected within 24 h after the start of the circulation in every experiment. This imaging system also succeeded in determining the origins of pump thrombus: from inside the pump in two cases, and from outside in four cases. Two main possible sources of pump thrombus originating outside the pump were identified on autopsy: wedge thrombus around the inflow cannula; and string-like thrombus at the junction between the pump inlet and circuit tube. The results of this study from close observation of the changing appearance of pump thrombus may contribute to improvements in the safety of extracorporeal MCS.

Published
2017

35. A Study on the Introduction of Environmental Cooperative Tax in Okinawa Prefecture

Author

Shimoji, Yoshiro, Uchiyama, Yuta, Fujihira, Yoshinori, Kohsaka, Ryo / Kosaka, Ryo, Matsumoto-Oda, Akiko, and Hirano, Norio

Subjects
財政悪化, Island municipalities, Environmental cooperative tax, Financial deterioration, Tourism tax, 観光税, 離島自治体, 環境協力税
Abstract

Three island villages in the Okinawa prefecture, Izena, Iheya and Tokashiki, have introduced "environmental cooperative tax" to obtain the budget to conserve the landscape as tourism resources and to maintain their tourism facilities. In this paper, the current trend and process of the introduction of the environmental cooperative tax are investigated by reviewing the existing survey and statistical information. Further, the socio-economic characteristics of the 3 villages are examined in order to explore the possibilities of the applying the taxation to the other island municipalities. Overall purpose of this study is to rethink the tourism tax in the whole Okinawa prefecture and explore future direction of the tourism management in the Okinawa in terms of the tourism tax system. The revenues from the tax are stable in Izena and Iheya, increasing in Tokashiki. Izena has introduced the tax in year 2005 earlier than other two villages. By the introducing the tax, environmental conservation activities have been facilitated by the revenues of the tax in Izena. As the indirect effects of the taxation, environmental management activities by the residents have been reinforced in Izena. The tax introduced by the villages has characteristics as environmental tax and tourist tax, because the tax is used for environmental conservation and imposed on the residents and tourists who come from the outside of the villages. The population amounts in the 3 villages are relatively small in the Okinawa. By examining the demographic and economic structures of the 3 villages and the other islands municipalities in the Okinawa, similarity and uniqueness of the islands municipalities are identified. Based on the results, several municipalities which may have potentials to introduce the environmental cooperative tax are detected. The taxation can be a tool for the tourism management in the Okinawa by appropriate gainsharing and synergistic collaboration among municipalities., 紀要論文

Published
2016

36. Optical Blood Clotting Sensor for an Artificial Circulation Apparatus

Author

Masahiro Nishida, Toshihiro Takeshita, Daisuke Sakota, Wataru Iwasaki, Ryo Kosaka, Akiko Oota-Ishigaki, Kazuki Kondo, Osamu Maruyama, and Nobutomo Morita

Subjects
Cmos chip, Materials science, Blood clotting, 0206 medical engineering, Monitoring system, 02 engineering and technology, 030204 cardiovascular system & hematology, 020601 biomedical engineering, Photodiode, law.invention, Blood pump, 03 medical and health sciences, 0302 clinical medicine, law, Detection performance, Porcine blood, Biomedical engineering
Abstract

This paper reports a newly developed micro optical sensor for detecting blood clotting in an artificial circulation apparatus, such as a blood pump. The sensor comprises three LEDs, CMOS chip, which has monolithically-fabricated photodiodes, and amplifier circuits. The small sensor size (2.8×2.8×0.4 mm3, after packaging with epoxy resin: 5.5×5.5×1.2 mm3) allowed it to be mounted and measure various points of the artificial circulation apparatus. We have evaluated the blood clotting detection performance using porcine blood. Then, we detected blood clotting in a blood pump by analyzing the change in the optical characteristics of blood that lead to clotting using the developed sensor. The micro optical sensor contributes to the development of a blood clotting monitoring system for artificial circulation apparatus.

Published
2019

37. Tissue-engineered endothelial cell layers on surface-modified Ti for inhibiting in vitro platelet adhesion

Author

Xiupeng Wang, Fupo He, Xia Li, Atsuo Ito, Yu Sogo, Osamu Maruyama, Ryo Kosaka and Jiandong Ye

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492, Biotechnology, TP248.13-248.65
Abstract

A tissue-engineered endothelial layer was prepared by culturing endothelial cells on a fibroblast growth factor-2 (FGF-2)–l-ascorbic acid phosphate magnesium salt n-hydrate (AsMg)–apatite (Ap) coated titanium plate. The FGF-2–AsMg–Ap coated Ti plate was prepared by immersing a Ti plate in supersaturated calcium phosphate solutions supplemented with FGF-2 and AsMg. The FGF-2–AsMg–Ap layer on the Ti plate accelerated proliferation of human umbilical vein endothelial cells (HUVECs), and showed slightly higher, but not statistically significant, nitric oxide release from HUVECs than on as-prepared Ti. The endothelial layer maintained proper function of the endothelial cells and markedly inhibited in vitro platelet adhesion. The tissue-engineered endothelial layer formed on the FGF-2–AsMg–Ap layer is promising for ameliorating platelet activation and thrombus formation on cardiovascular implants.

Published
2013
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38. T2 and Apparent Diffusion Coefficient of MRI Reflect Maturation of Tissue-Engineered Auricular Cartilage Subcutaneously Transplanted in Rats

Author

Naotaka Nitta, Yuko Fujihara, Kazuhiko Hayashi, Tomokazu Numano, Kazuhiro Homma, Kuni Ohtomo, Ryo Kosaka, Koji Hyodo, Yoshio Shirasaki, Shouta Kuribayashi, Yasushi Watanabe, Tsuyoshi Takato, Kazuto Hoshi, Masaki Misawa, and Jiro Sato

Subjects
Male, Biomedical Engineering, Type II collagen, Medicine (miscellaneous), Bioengineering, 01 natural sciences, Regenerative medicine, 030218 nuclear medicine & medical imaging, Rats, Nude, 03 medical and health sciences, 0302 clinical medicine, 0103 physical sciences, otorhinolaryngologic diseases, medicine, Animals, Humans, Effective diffusion coefficient, Autologous chondrocyte implantation, Cells, Cultured, 010302 applied physics, Tissue Engineering, Tissue Scaffolds, medicine.diagnostic_test, business.industry, Cartilage, Ultrasound, Cell Differentiation, Magnetic resonance imaging, Magnetic Resonance Imaging, Rats, Transplantation, medicine.anatomical_structure, Ear Cartilage, business, Biomedical engineering
Abstract

In cartilage regenerative medicine, autologous chondrocyte implantation (ACI) has been applied clinically for partial defects of joint cartilage or nasal augmentation. To make treatment with ACI more effective and prevalent, modalities to evaluate the quality of transplanted constructs noninvasively are necessary. In this study, we compared the efficacy of several noninvasive modalities for evaluating the maturation of tissue-engineered auricular cartilage containing a biodegradable polymer scaffold. We first transplanted tissue-engineered cartilage consisting of human auricular chondrocytes, atelocollagen gel, and a poly-l-lactic acid (PLLA) porous scaffold subcutaneously into the back of athymic nude rats. Eight weeks after transplantation, the rats were examined by magnetic resonance imaging (MRI), X-ray, and ultrasound as noninvasive modalities. Then, the excised constructs were examined by histological and biochemical analysis including toluidine blue (TB) staining, glycosaminoglycans content, and enzyme-linked immunosorbent assay of type II collagen. Among the modalities examined, transverse relaxation time (T2) and apparent diffusion coefficient of MRI showed quite a high correlation with histological and biochemical results, suggesting that these can effectively detect the maturation of tissue-engineered auricular cartilage. Since these noninvasive modalities would realize time-course analysis of the maturation of tissue-engineered auricular cartilage, this study provides a substantial insight for improving the quality of tissue-engineered cartilage, leading to improvement of the quality and technique in cartilage regenerative medicine.

Published
2016

39. Effect of Impeller Geometry on Lift-Off Characteristics and Rotational Attitude in a Monopivot Centrifugal Blood Pump

Author

Yasuo Kawaguchi, Katsuyuki Kuwana, Kento Nakayama, Takashi Yamane, Osamu Maruyama, Ryo Kosaka, Daisuke Sakota, and Masahiro Nishida

Subjects
Physics, business.industry, 0206 medical engineering, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Geometry, 02 engineering and technology, General Medicine, 030204 cardiovascular system & hematology, Computational fluid dynamics, Centrifugal pump, 020601 biomedical engineering, Slip factor, Pivot point, Volumetric flow rate, Biomaterials, Lift (force), 03 medical and health sciences, Impeller, 0302 clinical medicine, business, Casing
Abstract

The effect of the flow path geometry of the impeller on the lift-off and tilt of the rotational axis of the impeller against the hydrodynamic force was investigated in a centrifugal blood pump with an impeller supported by a single-contact pivot bearing. Four types of impeller were compared: the FR model with the flow path having both front and rear cutouts on the tip, the F model with the flow path having only a front cutout, the R model with only a rear cutout, and the N model with a straight flow path. First, the axial thrust and the movement about the pivot point, which was loaded on the surface of the impeller, were calculated using computational fluid dynamics (CFD) analysis. Next, the lift-off point and the tilt of the rotational axis of the impeller were measured experimentally. The CFD analysis showed that the axial thrust increased gently in the FR and R models as the flow rate increased, whereas it increased drastically in the F and N models. This difference in axial thrust was likely from the higher pressure caused by the smaller circumferential velocity in the gap between the top surface of the impeller and the casing in the FR and R models than in the F and N models, which was caused by the rear cutout. These results corresponded with the experimental results showing that the impellers lifted off in the F and N models as the flow rate increased, whereas it did not in the FR and R models. Conversely, the movement about the pivot point increased in the direction opposite the side with the pump outlet as the flow rate increased. However, the tilt of the rotational axis of the impeller, which oriented away from the pump outlet, was less than 0.8° in any model under any conditions, and was considered to negligibly affect the rotational attitude of the impeller. These results confirm that a rear cutout prevents lift-off of the impeller caused by a decrease in the axial thrust.

Published
2016

40. In Vitro Thrombogenesis Resulting from Decreased Shear Rate and Blood Coagulability

Author

Osamu Maruyama, Ryo Kosaka, Takashi Yamane, Masahiro Nishida, Yoshiyuki Taenaka, and Eisuke Tatsumi

Subjects
Rheometer, Biomedical Engineering, Activated clotting time, Medicine (miscellaneous), Bioengineering, 030204 cardiovascular system & hematology, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, medicine, Shear stress, Animals, Citrates, Blood Coagulation, Blood coagulation test, Prothrombin time, medicine.diagnostic_test, Chemistry, General Medicine, Shear rate, 030228 respiratory system, Clotting time, Prothrombin Time, Cattle, Partial Thromboplastin Time, Blood Coagulation Tests, Heart-Assist Devices, Stress, Mechanical, Partial thromboplastin time, Biomedical engineering
Abstract

In vitro antithrombogenic testing with mock circulation is a useful type of pre-evaluation in ex vivo testing of mechanical assist devices. For effective in vitro testing, we have been developing a clear quantitative thrombogenesis model based on shear stress and blood coagulability. Bovine blood was used as the test medium. The activating clotting time (ACT) was adjusted with trisodium citrate and calcium chloride from 200 to 1,000 seconds. The blood was then applied to a rheometer and subjected to shear at 50 to 2,880 s-1. Blood coagulation time and degree of thrombogenesis were measured by the torque sensor of the rheometer. Prothrombin time (PT) and activated partial thromboplastin time (APTT) of the test blood were also measured after the application of shear. Blood coagulation time increased, and the degree of thrombogenesis decreased, with increases in shear rate to between 50 and 2,880 s-1. for test bloods with ACTs of 200 to 250 seconds. An ACT of 200 to 250 seconds is thus appropriate for in vitro antithrombogenic testing under a shear rate of 2,880 s-1. APTT was prolonged, whereas PT did not change, with increasing shear rate: that is, increasing the shear rate reduced thrombogenesis related to the intrinsic clotting pathway. An ACT of 200 to 250 seconds was suitable for in vitro antithrombogenic testing, and increasing the shear stress generated in the mechanical assist device reduced thrombogenesis via the intrinsic clotting pathway.

Published
2016

41. Optical aggregometry of red blood cells associated with the blood-clotting reaction in extracorporeal circulation support

Author

Ryo Kosaka, Osamu Maruyama, Masahiro Nishida, and Daisuke Sakota

Subjects
Erythrocyte Aggregation, Extracorporeal Circulation, Erythrocytes, Swine, Biomedical Engineering, Pulsatile flow, Medicine (miscellaneous), 030204 cardiovascular system & hematology, Fibrinogen, 01 natural sciences, Erythrocyte aggregation, 010309 optics, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, 0103 physical sciences, medicine, Animals, Chemistry, Extracorporeal circulation, Blood proteins, Blood pump, Red blood cell, medicine.anatomical_structure, Anesthesia, Circulatory system, Cardiology and Cardiovascular Medicine, medicine.drug, Biomedical engineering
Abstract

The aggregability of red blood cell (RBCs) is associated with the contribution of plasma proteins, such as fibrinogen and lipoproteids, to blood-clotting. Hence, we hypothesized that RBC aggregability reflects the blood-clotting reaction. A noninvasive optical monitoring method to measure RBC aggregability for the assessment of blood-clotting stage during mechanical circulatory support was developed. An in vitro thrombogenic test was conducted with a rotary blood pump using heparinized fresh porcine blood. Near-infrared laser light at a wavelength of 785 nm was guided by an optical fiber. The fibers for detecting incident, forward-, and backward-scattered light were fixed on the circuit tubing with an inner diameter of 1/4 inch. Because there is substantial RBC aggregation at low shear flow rates, a pulsatile flow was generated by controlling the pump rotational speed. The flow rate was changed from 0 to 8.5 L/min at a period of 40 s. The intensities of forward- and backward-scattered light changed dramatically when the flow stopped. The aggregability was evaluated by the increase ratio of the transmitted light intensity from the flow stopping in the low-flow condition. The experiment started when the anticoagulation was stopped by the addition of protamine into the circulating blood. Reduction in RBC aggregability was associated with a decrease in the amount of fibrinogen and the number of platelets. Continuous, noninvasive monitoring of thrombosis risk is possible using optical measurements combining pulsatile flow control of a rotary blood pump. RBC aggregometry is a potential label-free method for evaluating blood-clotting risk.

Published
2016

42. Noninvasive optical imaging of thrombus formation in mechanical circulatory support devices

Author

Katsuhiro Ouchi, Daisuke Sakota, Osamu Maruyama, Masahiro Nishida, Tomotaka Murashige, Tatsuki Fujiwara, and Ryo Kosaka

Subjects
medicine.medical_specialty, Materials science, Near infrared light, Mechanical Engineering, 0206 medical engineering, Hyperspectral imaging, 02 engineering and technology, 030204 cardiovascular system & hematology, medicine.disease, 020601 biomedical engineering, 03 medical and health sciences, 0302 clinical medicine, Optical imaging, Mechanics of Materials, Circulatory system, medicine, General Materials Science, Radiology, Thrombus
Published
2016

46. Development of real-time and quantitative monitoring of thrombus formation in an extracorporeal centrifugal blood pump

Author

Ryo Kosaka, Osamu Maruyama, Tatsuki Fujiwara, Katsuhiro Ohuchi, Daisuke Sakota, Hiroyuki Yamazaki, and Katsuyuki Kuwana

Subjects
Bearing (mechanical), Optical fiber, Materials science, Extracorporeal circulation, Detector, medicine.disease, Signal, Extracorporeal, law.invention, law, Artificial heart, medicine, Thrombus, Biomedical engineering
Abstract

We developed an optical detector of thrombus formed on the pivot bearing of an extracorporeal centrifugal blood pump (MERA HCF-MP23; Senko Medical Instrument Mfg. Co., Ltd., Tokyo, Japan) which is frequently used for long-term extracorporeal circulation support to bridge to an implantable artificial heart, which in turn is used for bridge to heart transplantation in Japan. In this study, we investigated the quantitative performance of the thrombus formation in acute animal experiments. A total of three experiments of extracorporeal left ventricular assist using Japanese specific pathogen-free pigs were conducted. The optical fibers were set in the pump driver unit. The incident light at nearinfrared wavelength aiming at the pivot bearing and the resulting scattered light were guided to respective fibers. The detected signal was analyzed to obtain thrombus formation level (TFL) calculated by a specially developed software. When the increase in TFL was confirmed, the pump was exchanged and the extracorporeal circulation was restarted. The number of pump exchanges were four times at each experiment so a total of twelve pumps were evaluated. 3-dimentional data surrounding the pivot bearing and the adhered thrombus was captured by a 3-dimantional surface measurement system to calculate the thrombus surface area (TSA) formed on the pivot bearing. As a result, the correlation coefficient between TFL and TSA was 0.878. The accuracy of TSA estimated by the optical detector was 3.6±2.3 mm 2 . This was small enough to not have the pump exchanged in clinical judgement. The developed detector would be useful for optimal anti-coagulation management.

Published
2018

47. Development of a real-time and quantitative thrombus sensor for an extracorporeal centrifugal blood pump by near-infrared light

Author

Daisuke Sakota, Osamu Maruyama, Tomohiro Mizuno, Masahiro Nishida, Ryo Kosaka, Hirokuni Arai, Katsuyuki Kuwana, Hiroyuki Yamazaki, Tatsuki Fujiwara, and Katsuhiro Ohuchi

Subjects
Optical fiber, Materials science, medicine.diagnostic_test, 0206 medical engineering, Extracorporeal circulation, 02 engineering and technology, 030204 cardiovascular system & hematology, medicine.disease, 020601 biomedical engineering, Ray, Signal, Atomic and Molecular Physics, and Optics, Light scattering, Extracorporeal, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Optical coherence tomography, law, medicine, Thrombus, Biotechnology, Biomedical engineering
Abstract

We developed an optical thrombus sensor for a monopivot extracorporeal centrifugal blood pump. In this study, we investigated its quantitative performance for thrombus detection in acute animal experiments of left ventricular assist using the pump on pathogen-free pigs. Optical fibers were set in the driver unit of the pump. The incident light at the near-infrared wavelength of 810 nm was aimed at the pivot bearing, and the resulting scattered light was guided to the optical fibers. The detected signal was analyzed to obtain the thrombus formation level. As a result, real-time and quantitative monitoring of the thrombus surface area on the pivot bearing was achieved with an accuracy of 3.6 ± 2.3 mm2. In addition, the sensing method using the near-infrared light was not influenced by changes in the oxygen saturation and the hematocrit. It is expected that the developed sensor will be useful for optimal anticoagulation management for long-term extracorporeal circulation therapies.

Published
2017

48. Real-Time Observation of Thrombus Growth Process in an Impeller of a Hydrodynamically Levitated Centrifugal Blood Pump by Near-Infrared Hyperspectral Imaging

Author

Ryo Kosaka, Masahiro Nishida, Tatsuki Fujiwara, Osamu Maruyama, Daisuke Sakota, and Tomotaka Murashige

Subjects
medicine.medical_specialty, Materials science, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, General Medicine, Blood flow, medicine.disease, Light scattering, Spectral imaging, Biomaterials, Blood pump, Wavelength, Impeller, medicine, Thrombus, Heart-Assist Devices, Biomedical engineering
Abstract

Understanding the thrombus formation in cardiovascular devices such as rotary blood pumps is the most important issue in developing more hemocompatible devices. The objective of this study was to develop a hyperspectral imaging (HSI) method to visualize the thrombus growth process within a rotary blood pump and investigate the optical properties of the thrombus. An in vitro thrombogenic test was conducted using fresh porcine blood and a specially designed hydrodynamically levitated centrifugal blood pump with a transparent bottom. The pump rotating at 3000 rpm circulated the blood at 1.0 L/min. The bottom surface of the pump was illuminated with white light pulsed at the same frequency as the pump rotation, and the backward-scattered light was imaged using the HSI system. Using stroboscopic HSI and an image construction algorithm, dynamic spectral imaging at wavelengths ranging from 608 to 752 nm within the rotating pump was achieved. After completing the experiment, we collected the red thrombus formed in the pump impeller and quantified the thrombus hemoglobin concentration (Hbthrombus ). The spectrum changed around the center of the impeller, and the area of change expanded toward the impeller flow path. The shape corresponded approximately to the shape of the thrombus. The spectrum change indicated that the light scattering derived from red blood cells decreased. The Hbthrombus was 4.7 ± 1.3 g/dL versus a total hemoglobin of 13 ± 0.87 g/dL. The study revealed that Hbthrombus was reduced by the surrounding blood flow.

Published
2015

49. Evaluation of a Spiral Groove Geometry for Improvement of Hemolysis Level in a Hydrodynamically Levitated Centrifugal Blood Pump

Author

Tomotaka Murashige, Takashi Yamane, Ryo Kosaka, Daisuke Sakota, Masahiro Nishida, Osamu Maruyama, and Yasuo Kawaguchi

Subjects
Materials science, Bearing (mechanical), Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Geometry, General Medicine, medicine.disease, Hemolysis, Volumetric flow rate, law.invention, Biomaterials, Impeller, Thrust bearing, law, medicine, Levitation, Groove (music), Spiral
Abstract

The purpose of this study is to evaluate a spiral groove geometry for a thrust bearing to improve the hemolysis level in a hydrodynamically levitated centrifugal blood pump. We compared three geometric models: (i) the groove width is the same as the ridge width at any given polar coordinate (conventional model); (ii) the groove width contracts inward from 9.7 to 0.5 mm (contraction model); and (iii) the groove width expands inward from 0.5 to 4.2 mm (expansion model). To evaluate the hemolysis level, an impeller levitation performance test and in vitro hemolysis test were conducted using a mock circulation loop. In these tests, the driving conditions were set at a pressure head of 200 mm Hg and a flow rate of 4.0 L/min. As a result of the impeller levitation performance test, the bottom bearing gaps of the contraction and conventional models were 88 and 25 μm, respectively. The impeller of the expansion model touched the bottom housing. In the hemolysis test, the relative normalized index of hemolysis (NIH) ratios of the contraction model in comparison with BPX-80 and HPM-15 were 0.6 and 0.9, respectively. In contrast, the relative NIH ratios of the conventional model in comparison with BPX-80 and HPM-15 were 9.6 and 13.7, respectively. We confirmed that the contraction model achieved a large bearing gap and improved the hemolysis level in a hydrodynamically levitated centrifugal blood pump.

Published
2015

50. Analysis of the influence of volume and red blood cell concentration of a thrombus on the permittivity of blood

Author

Masahiro Takei, Takuto Fuse, Osamu Maruyama, Achyut Sapkota, Ryo Kosaka, and Takashi Yamane

Subjects
Permittivity, medicine.medical_specialty, Materials science, Mechanical Engineering, medicine.disease, law.invention, Red blood cell, medicine.anatomical_structure, Volume (thermodynamics), Mechanics of Materials, law, Internal medicine, Artificial heart, medicine, Cardiology, General Materials Science, Thrombus
Published
2015

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