Your search keyword '"N. Mizuguchi"' showing total 103 results

1. Refueling of field-reversed configuration core via axial plasmoids injection

Author

T. Asai, T. Takahashi, D. Kobayashi, T. Seki, Y. Takeuchi, O. Mitarai, J. Morelli, N. Mizuguchi, S. Dettrick, H. Gota, T. Roche, T. Matsumoto, M. Binderbauer, T. Tajima, and M. Inomoto

Subjects

field-reversed configuration, plasmoid injection, refueling, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

This study successfully developed a refueling technique for a field-reversed configuration (FRC) via axial plasmoid injection and demonstrated it on the FAT-CM device at Nihon University. The target FRC is generated using the collisional-merging formation technique combined with conical theta-pinch formation. Plasmoids with an FRC-like configuration are coaxially injected from both ends of the FAT-CM device toward the preexisting target FRC. Postinjection, the system achieves equilibrium, resulting in increases by factors of 1.8 and 2.4 in the total inventory and plasma energy, respectively, compared to cases without injection. This method effectively accomplishes FRC refueling while preserving the intrinsic characteristics of a simply connected, axisymmetric configuration and a high beta value approaching unity. Therefore, this approach offers potential for repetitive refueling in the reactor stage having a FRC plasma core. Experimental outcomes are compared with magnetohydrodynamic simulation results. In the collisional merging process, the characteristics of the pre-collision plasmoids, such as the strong toroidal rotation and coherent FRC-like magnetic field structures of the FRC, are not preserved. Experimental environments have been constructed to investigate such unique properties of the resulting FRCs.

Published

2024

2. Posterior Wedge Resection

Author

Nana N. Mizuguchi, Shahrooz Sean Kelishadi, John Paul Tutela, Arun Jay Rao, and Joshua B. Elston

Subjects

medicine.medical_specialty, Free edge, business.industry, Labiaplasty, medicine.medical_treatment, General Medicine, Surgery, Adult women, medicine.anatomical_structure, Labia minora, Chart review, Body contouring, medicine, business, Wedge resection (lung)

Abstract

Background: Hypertrophy of the labia minora is of concern to a subset of adolescents and adult women. The posterior wedge resection is a new labiaplasty technique with an anatomic approach to yield the optimal aesthetic outcome and yet continue the functional achievement of prior techniques. o bjective: The authors describe the results of their posterior wedge resection technique in a retrospective series of patients. Methods: A retrospective chart review was performed of 22 consecutive patients who underwent posterior wedge resection labiaplasty between February 2009 and February 2012. Complications and aesthetic outcomes were reviewed. Results: The average age of the patients in this study was 35 years (median, 33 years). Follow-up ranged from 2 weeks to 1.5 years. Two minor complications occurred without further sequelae. At follow-up, none of the patients reported any paresthesias, pain, or problems with penetrating vaginal intercourse. Conclusions: An increasing number of labiaplasties are being performed for aesthetic and functional concerns. The posterior wedge resection enables the surgeon to perform labiaplasty easily, safely, and effectively, ensuring symmetry and maintenance of the natural pigment, color, and texture of the defining free edge of the labia minora.

Published

2013

3. Nonlinear simulation of edge-localized mode in a spherical tokamak

Author

R. Khan, Takaya Hayashi, N. Mizuguchi, and Noriyoshi Nakajima

Subjects

Physics, Nuclear and High Energy Physics, Toroid, Magnetic confinement fusion, Mechanics, Spherical tokamak, Condensed Matter Physics, Instability, Ballooning, Protein filament, Nonlinear system, Physics::Plasma Physics, Atomic physics, Edge-localized mode

Abstract

A numerical modelling of the dynamics of an edge-localized mode (ELM) crash in the spherical tokamak is proposed by means of a three-dimensional nonlinear magnetohydrodynamic simulation. The simulation result shows a crash of the edge pressure profile due to the spontaneous growth of the ballooning mode instability. The simulation result shows good agreement in several characteristic features of the experimental observation of large scale ELMs in an appropriate time scale: (1) relation to the ballooning instability, (2) intermediate-n precursors, (3) low-n structure on the crash, (4) formation and separation of the filament and (5) considerable amount of convective loss of plasma, where n is the toroidal mode number. Furthermore, the model is verified by examining the effect of diamagnetic stabilization and by comparing the nonlinear behaviour with that of the peeling modes. The ion diamagnetic drift terms are found to stabilize some specific components linearly; nevertheless they are not so effective in the nonlinear dynamics such as the filament formation and the amount of loss. For the peeling mode case, no prominent filament structure is found to appear in contrast to the ballooning mode case.

Published

2007

4. Thermal Injury in the Elderly: When is Comfort Care the Right Choice?

Author

Nicole A. Stassen, James K. Lukan, Nana N. Mizuguchi, David A. Spain, Eddy H. Carrillo, and Hiram C. Polk

Subjects

General Medicine

Abstract

The factors contributing to a higher mortality rate in elderly thermal injury victims are not well delineated. The purpose of this study is to determine the impact of the initial injury, medical comorbidities, and burn size on patient outcome and to determine a level of injury in this population when comfort care is an appropriate first choice. Individual medical records of patients over 65 years of age admitted to our burn center over a 10-year interval were reviewed for patient demographics, mechanism of injury, total body surface area (TBSA) burned, medical comorbidities, use of Swan-Ganz catheters, evidence of inhalation injury, level of support, and patient outcome. The mechanisms of thermal injury were flame (68%), scald (21%) and electrical or chemical contact (11%). Twenty-six preventable bathing, cooking, and smoking-related injuries were seen (33%). The average TBSA was 25 per cent. Average length of stay varied depending on outcome. The overall mortality rate for this group was 45 per cent. Patients older than 80 years with 40 per cent or greater TBSA burned had a 100 per cent mortality rate despite aggressive treatment. Burn wound size correlated better with probability of poor outcome than age. Thermal injuries in the elderly are becoming more important with the aging of our population. Underlying medical problems—specifically chronic obstructive pulmonary disease—do play a role in increased patient morbidity and mortality. This study shows that age greater than 80 years in combination with burns greater than 40 per cent TBSA are uniformly fatal despite aggressive therapy. We believe that delaying the start of comfort-only measures in this situation only prolongs the pain and suffering for the patient, the family, and the physician.

Published

2001

5. Convective Loss of Heat Energy Excited in the Edge Region of Spherical Tokamak

Author

T. Hayashi, Tetsuya Sato, and N. Mizuguchi

Subjects

Physics, Convection, Tokamak, law, Excited state, Heat energy, Edge region, Atomic physics, Spherical tokamak, Condensed Matter Physics, law.invention

Published

2000

6. Non-linear simulations of internal reconnection events in spherical tokamaks

Author

T Hayashi, N Mizuguchi, T.H Watanabe, Y Todo, T Sato, and Complexity Simulation Group

Subjects

Physics, Nuclear and High Energy Physics, Tokamak, Deformation (mechanics), Torus, Mechanics, Spherical tokamak, Condensed Matter Physics, law.invention, Spherical model, Nonlinear system, Classical mechanics, Physics::Plasma Physics, law, Excited state, Magnetohydrodynamics

Abstract

Three dimensional MHD simulations are executed in a full toroidal geometry to clarify the physical mechanisms of the internal reconnection event (IRE) which is observed in spherical tokamak experiments. The simulation results reproduce several main properties of IREs. A notable property in the linear growth of modes is the simultaneous excitation of multiple low n modes, which grow together with similar growth rates. A spontaneous phase alignment mechanism among these excited modes is found in the non-linear stage of the development, which causes a bulge-like deformation of the torus and subsequent expulsion of heat energy to the external region through the occurrence of external reconnection.

Published

2000

7. Multifactorial analyses in the diagnosis of pneumonia arising in the surgical intensive care unit

Author

Hiram C. Polk and Nana N. Mizuguchi

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, Surgical intensive care unit, General Medicine, Routine practice, medicine.disease, law.invention, Pneumonia, Bronchoalveolar lavage, Gram staining, law, Intensive care, Medicine, Sputum, Surgery, Leukocytosis, medicine.symptom, business, Intensive care medicine

Abstract

The diagnosis of ventilator-associated pneumonia in the surgical intensive care unit continues to be problematic. The majority of intensive care units use clinical criteria based on chest x-ray; fever; leukocytosis; alterations in the pulse oximeter observations; the need to alter modes and amounts of ventilatory support; and more specific microbiologic studies, such as appropriate sputum, Gram stain, and culture to identify pneumonia. Diagnosing pneumonia based on clinical criteria alone is often difficult and inaccurate, which may lead to inappropriate use and choice of antibiotics. Invasive diagnostic techniques, such as protected specimen brush and bronchoalveolar lavage, provide an important microbiologic diagnosis. However, the cost and inconvenience limit broad usage. Furthermore, those results that return positive are often too late to dictate the need for, or direction of, therapy. Our use of a “pneumonia grid” may help identify patients likely to have a poor outcome. Until a readily available and cost-effective diagnostic study for pneumonia is developed, clinical criteria remain vital in routine practice.

Published

2000

8. Heating and Particle Build-Up of Field-Reversed Configuration due to Neutral Particle Injection in a Translation Process

Author

T. Asai, Y. Matsuzawa, T. Okano, T. Kiguchi, K. Sakuraba, T. Takahashi, Y. Hirano, N. Mizuguchi, and Y. Tomita

Subjects

Nuclear and High Energy Physics, Materials science, 020209 energy, Mechanical Engineering, Process (computing), 02 engineering and technology, Translation (geometry), 01 natural sciences, 010305 fluids & plasmas, Nuclear Energy and Engineering, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Field-reversed configuration, Particle, General Materials Science, Atomic physics, Neutral particle, Computer Science::Databases, Civil and Structural Engineering

Abstract

The magnetic configuration of a field-reversed configuration (FRC) has a center closed region and open field region. Because of this geometrical property, an FRC can be translated from a formation ...

Published

2007

9. Posterior wedge resection: a more aesthetic labiaplasty

Author

Shahrooz Sean, Kelishadi, Joshua Brandon, Elston, Arun Jay, Rao, John Paul, Tutela, and Nana N, Mizuguchi

Subjects

Adult, Time Factors, Esthetics, Hypertrophy, Middle Aged, Plastic Surgery Procedures, Vulva, Young Adult, Postoperative Complications, Treatment Outcome, Body Image, Humans, Female, Retrospective Studies

Abstract

Hypertrophy of the labia minora is of concern to a subset of adolescents and adult women. The posterior wedge resection is a new labiaplasty technique with an anatomic approach to yield the optimal aesthetic outcome and yet continue the functional achievement of prior techniques.The authors describe the results of their posterior wedge resection technique in a retrospective series of patients.A retrospective chart review was performed of 22 consecutive patients who underwent posterior wedge resection labiaplasty between February 2009 and February 2012. Complications and aesthetic outcomes were reviewed.The average age of the patients in this study was 35 years (median, 33 years). Follow-up ranged from 2 weeks to 1.5 years. Two minor complications occurred without further sequelae. At follow-up, none of the patients reported any paresthesias, pain, or problems with penetrating vaginal intercourse.An increasing number of labiaplasties are being performed for aesthetic and functional concerns. The posterior wedge resection enables the surgeon to perform labiaplasty easily, safely, and effectively, ensuring symmetry and maintenance of the natural pigment, color, and texture of the defining free edge of the labia minora.

Published

2013

10. Progress in low-aspect-ratio RFP research in RELAX

Author

Sadao Masamune, A. Sanpei, S. Nakaki, K. Deguchi, K. Nishimura, H. Tanaka, H. Himura, A. Ejiri, N. Mizuguchi, K. Kawahata, D.J. Den Hartog, and R. Paccagnella

Published

2012

11. Progress in low-aspect-ratio RFP studies in RELAX

Author

Sadao Masamune, A. Sanpei, K. Oki, D. Fukabori, K. Deguchi, S. Nakaki, H. Himura, N. Mizuguchi, D. Den Hartog, and R. Paccagnella

Subjects

Physics::Plasma Physics

Abstract

Equilibrium analyses have shown that the aspect ratio A is one of the important parameters for optimization of the RFP configuration because it affects the q profile or fraction of the pressure-driven bootstrap current. RELAX (A=R/a=0.5m/0.25m) is a low-A RFP machine to explore the potential advantages of low-A configurations. The discharge and plasma parameters in RELAX to date are as follows: plasma current up to 100kA, discharge duration of up to 2.5ms, electron density in the range from 0.2 to 2.0× 1019 m-3, and electron temperature

Published

2011

12. Hot-Carrier AC Lifetime Enhancement due to Wire Resistance Effect (WRE) in 45nm CMOS Circuits

Author

N. Mizuguchi, K. Ishibashi, H. Tobe, P. Lee, and K. Takeuchi

Subjects

Materials science, CMOS, business.industry, Optoelectronics, business, Wire resistance, Electronic circuit

Published

2008

13. Predicting patients at low probability of requiring postmastectomy radiation therapy

Author

David J. Carlson, Nana N. Mizuguchi, Paris Kj, Souzan E. El-Eid, Charles R. Scoggins, Terre Q. McGlothin, Kelly M. McMasters, Earl Francis Cook, Terry M. McCurry, Anees B. Chagpar, Robert C.G. Martin, and Alison L. Laidley

Subjects

Adult, medicine.medical_specialty, medicine.medical_treatment, Sentinel lymph node, Breast Neoplasms, Models, Biological, Random Allocation, Breast cancer, Surgical oncology, Predictive Value of Tests, medicine, Humans, Postoperative Period, Mastectomy, Aged, Probability, Aged, 80 and over, business.industry, Sentinel Lymph Node Biopsy, Middle Aged, medicine.disease, Surgery, Radiation therapy, Axilla, medicine.anatomical_structure, Oncology, Databases as Topic, Predictive value of tests, Lymphatic Metastasis, Female, Radiotherapy, Adjuvant, Radiology, Lymph, Lymph Nodes, business

Abstract

Postmastectomy radiation therapy (PMRT) is recommended for patients with four or more positive lymph nodes (LN+). Given the ramifications of PMRT for immediate reconstruction, we sought to create a model using preoperative and intraoperative factors to predict which patients with a positive sentinel lymph node will have less than four LN+.The database from a prospective multicenter study of 4,131 patients was used for this analysis. Patients with one to three positive sentinel lymph nodes (SLN) and tumors5 cm (n = 1,133) in size were randomly divided into a training set (n = 580) and a test set (n = 553). Multivariate logistic regression was used on the training set to create a prediction rule that was subsequently validated in the test set.Median patient age was 57 (range, 27-100) years, and median tumor size was 2.0 (range, 0.2-4.8) cm. In the training set, factors associated with having four or more LN+ on multivariate analysis were: tumor size [odds ratio (OR) = 2.087; 95% confidence interval (CI): 1.307-3.333, P = 0.002), number of positive SLN (P0.0005), and proportion of positive SLN (OR = 3.602; 95% CI: 2.100-6.179, P0.005). A predictive model was established with a point assigned to each positive SLN, T2 (vs. T1), and if proportion of positive SLN was50%, for a maximum of five points. In both the training and test sets, patients with one point had a low probability of having four or more LN+ (3.8% and 3.3%, respectively).Tumor size, number of positive SLN, and the proportion of positive SLN influence whether patients will have four or more LN+. A simple model can predict the probability of requiring PMRT.

Published

2006

14. A genetic hill climbing method for function optimization using a neighborhood based on interactions among parameters

Author

Norihiko Ono, N. Mizuguchi, H. Takeichi, and Isao Ono

Subjects

Mathematical optimization, Computational complexity theory, Exponential growth, business.industry, Computation, Epistasis, Local search (optimization), business, Hill climbing, Metaheuristic, Subspace topology, Mathematics

Abstract

Most conventional genetic algorithms (GAs) for function optimization always search all parameters simultaneously. As the result, the search space size increases exponentially with the number of parameters. Therefore, the search efficiency of these GAs deteriorates in high-dimensional function optimization because they requires a huge population size and enormous computation time. Generally, in order to find the optima, if a parameter has no interaction with the others, it can be searched independently and, if it has interactions with others, it must be searched with the ones which have interactions with it. We believe that, in many cases, all parameters do not need to be searched simultaneously because many evaluation functions in real-world applications have partially epistasis. We propose a new genetic hill climbing method. The proposed method, first, estimates all interactions among parameters and, then, incrementally improves a search point, using a neighborhood that is a subspace spaned by a parameter and the parameters having interactions with it, named epistasis neighborhood. The sampling method in an epistasis neighborhood is UNDX+MGG, which is a real-coded GA showing good performance on epistatic multimodal functions. We confirm that the proposed method shows better performance than conventional GAs on high-dimensional partially-epistatic functions by applying them to some benchmark problems.

Published

2004

15. Realization of a 3D vision mobile robot that can avoid collision with moving obstacles

Author

Sakae Nishiyama, K. Sorimati, Junichi Takeno, Y. Shin'ogi, and N. Mizuguchi

Subjects

Moving parts, Engineering, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Mobile robot, Collision, Mobile robot navigation, 3d vision, Robot, Computer vision, Charge-coupled device, Artificial intelligence, business, Realization (systems)

Abstract

The authors present a real-time visual system for avoiding collision with moving obstacles and describe a realization of robots using the system to avoid collisions with moving objects. The visual sensor used in this system is a passive optical stereo type having no mechanical moving parts. Using two special slit patterns, the sensor is configured so as to split the two images obtained by individual cameras placed on the right and left, and to project the split images onto one CCD sensor, providing some 200 autofocusing subsystems. These subsystems can operate independently of one another, making real-time processing possible. >

Published

2002

16. Thermal injury in the elderly: when is comfort care the right choice?

Author

N A, Stassen, J K, Lukan, N N, Mizuguchi, D A, Spain, E H, Carrillo, and H C, Polk

Subjects

Aged, 80 and over, Male, Survival Rate, Risk Factors, Palliative Care, Age Factors, Humans, Female, Length of Stay, Burns, Aged

Abstract

The factors contributing to a higher mortality rate in elderly thermal injury victims are not well delineated. The purpose of this study is to determine the impact of the initial injury, medical comorbidities, and burn size on patient outcome and to determine a level of injury in this population when comfort care is an appropriate first choice. Individual medical records of patients over 65 years of age admitted to our burn center over a 10-year interval were reviewed for patient demographics, mechanism of injury, total body surface area (TBSA) burned, medical comorbidities, use of Swan-Ganz catheters, evidence of inhalation injury, level of support, and patient outcome. The mechanisms of thermal injury were flame (68%), scald (21%) and electrical or chemical contact (11%). Twenty-six preventable bathing, cooking, and smoking-related injuries were seen (33%). The average TBSA was 25 per cent. Average length of stay varied depending on outcome. The overall mortality rate for this group was 45 per cent. Patients older than 80 years with 40 per cent or greater TBSA burned had a 100 per cent mortality rate despite aggressive treatment. Burn wound size correlated better with probability of poor outcome than age. Thermal injuries in the elderly are becoming more important with the aging of our population. Underlying medical problems--specifically chronic obstructive pulmonary disease--do play a role in increased patient morbidity and mortality. This study shows that age greater than 80 years in combination with burns greater than 40 per cent TBSA are uniformly fatal despite aggressive therapy. We believe that delaying the start of comfort-only measures in this situation only prolongs the pain and suffering for the patient, the family, and the physician.

Published

2001

17. Multifactorial analyses in the diagnosis of pneumonia arising in the surgical intensive care unit

Author

H C, Polk and N N, Mizuguchi

Subjects

Intensive Care Units, Respiratory Distress Syndrome, Time Factors, Risk Factors, Humans, Pneumonia, Aspiration, Respiration, Artificial, Anti-Bacterial Agents

Abstract

The diagnosis of ventilator-associated pneumonia in the surgical intensive care unit continues to be problematic. The majority of intensive care units use clinical criteria based on chest x-ray; fever; leukocytosis; alterations in the pulse oximeter observations; the need to alter modes and amounts of ventilatory support; and more specific microbiologic studies, such as appropriate sputum, Gram stain, and culture to identify pneumonia. Diagnosing pneumonia based on clinical criteria alone is often difficult and inaccurate, which may lead to inappropriate use and choice of antibiotics. Invasive diagnostic techniques, such as protected specimen brush and bronchoalveolar lavage, provide an important microbiologic diagnosis. However, the cost and inconvenience limit broad usage. Furthermore, those results that return positive are often too late to dictate the need for, or direction of, therapy. Our use of a "pneumonia grid" may help identify patients likely to have a poor outcome. Until a readily available and cost-effective diagnostic study for pneumonia is developed, clinical criteria remain vital in routine practice.

Published

2000

18. Nonlinear dynamics of a collapse phenomenon in heliotron plasma with large pressure gradient

Author

N. Ohyabu, N. Mizuguchi, and Yasuhiro Suzuki

Subjects

Physics, Nuclear and High Energy Physics, Large Helical Device, Nonlinear system, Classical mechanics, Field line, Magnetic pressure, Mechanics, Plasma, Condensed Matter Physics, Instability, Pressure gradient, Magnetic field

Abstract

We have executed nonlinear magnetohydrodynamic simulations in a heliotron-type configuration with a large pressure gradient to reveal the nonlinear dynamics of a collapse phenomenon. The simulation results reproduce the qualitative characteristics of the experimental observation on the so-called core density collapse events in the Large Helical Device plasma with the super-dense core profile. A long-term nonlinear behaviour on the event, including the flushing mechanism of the core pressure, is clarified. The simulation result shows the linear growth of the ballooning-like resistive instability modes with the intermediate poloidal wavenumbers. The growth of the modes are eventually saturated, and the system experiences the energy relaxation in about 1 ms. It should be noted that the linear mode structures are localized in the edge region, whereas the core pressure rapidly falls as the system reaches the relaxed state. Such coexistence of the edge perturbation and the core collapse is consistent with the experimental observations. The lost pressure forms a wide base in the peripheral region. The core pressure is, on the other hand, remarkably reduced at a certain period, although it had well withstood the disturbance before it. The most salient feature on this period is the disordering of the magnetic field structure. The system keeps the nested-flux-surface structure well at the beginning, whereas part of them are abruptly lost in this period. Such a situation can induce a flattening of the pressure profile along the reconnected field lines. By checking the place where the plasma loss due to this mechanism occurs, such plasma outlets are found to be located mainly on the disordered region. Thus, one can conclude that the core collapse can be caused by the disturbance of the magnetic field.

Published

2009

19. [A case of recurrent hepatocellular carcinoma after hepatic resection surviving over five years by hepatic arterial infusion of lipiodol-anticancer drug suspension]

Author

M, Takeda, N, Mizuguchi, Y, Ohyama, S, Suzuki, M, Itoh, T, Mukojima, T, Kumagai, and H, Iwasaki

Subjects

Male, Carcinoma, Hepatocellular, Mitomycin, Liver Neoplasms, Iodized Oil, Middle Aged, Prognosis, Embolization, Therapeutic, Drug Administration Schedule, Mitomycins, Doxorubicin, Antineoplastic Combined Chemotherapy Protocols, Hepatectomy, Humans, Fluorouracil, Cisplatin, Neoplasm Recurrence, Local

Abstract

A 63-year-old male with four intrahepatic recurrences of surgically resected hepatocellular carcinoma was admitted to our hospital in June 1985. He underwent lateral segmentectomy of the liver in November 1983. Pathologic finding of Edmondson II with liver cirrhosis had been confirmed by the operative specimen. Sizes of four recurrent tumors were assessed by CT as 3.5 x 2.2 cm, 2.6 x 2.2 cm, 2.2 x 2.2 cm and 2.2 x 2.2 cm, respectively. During five years until July 1990, the patient was treated with hepatic arterial infusion of Lipiodol-anticancer drug suspension eight times (total 5-FU 900 mg, ADM 77 mg, MMC 73 mg, and Lipiodol 36 ml) and hepatic arterial chemoembolization of MMC microcapsules one time. In addition, two hepatic arterial infusions of CDDP (total 70 mg) were given and 5-FU (total 10 g) was administered intravenously. Partial response (PR) was obtained for 19 months. Hepatic arterial infusion of Lipiodol-anticancer drug suspension was given only once every 6 months, and he maintained a good quality of life for over four and half years. The man died in July 1990. In general, multiple intrahepatic recurrence of surgical resected hepatocellular carcinoma has a poor prognosis. Therefore it was considered that hepatic arterial infusion of this drug brought about the relatively long survival of more than five years.

Published

1991

20. Dynamics of the ballooning mode and the relation to edge-localized modes in a spherical tokamak

Author

Takaya Hayashi, N. Mizuguchi, R. Khan, and Noriyoshi Nakajima

Subjects

Physics, Gyroradius, Phase (waves), Plasma, Spherical tokamak, Condensed Matter Physics, Ballooning, Computational physics, Magnetic field, Physics::Plasma Physics, Physics::Space Physics, Magnetohydrodynamic drive, Atomic physics, Magnetohydrodynamics

Abstract

Nonlinear simulations based on the magnetohydrodynamic model have been executed to reveal the dynamics of the ballooning mode in the spherical tokamak plasma. The simulation results have reproduced the characteristic features of the edge-localized mode crash phase, where the filamentary structures are formed along the magnetic field in the edge region, and separated from the core plasma. Moreover, the finite Larmor radius effect is addressed.

Published

2007

21. Simulation of edge-localized modes in a spherical tokamak: effects of ion diamagnetic drift

Author

N. Mizuguchi, Takaya Hayashi, and Riaz Khan

Subjects

Physics, Gyroradius, Phase (waves), Magnetic confinement fusion, Spherical tokamak, Condensed Matter Physics, Computational physics, Nonlinear system, Classical mechanics, Physics::Plasma Physics, Physics::Space Physics, Wavenumber, Magnetohydrodynamics, Linear phase

Abstract

This paper presents the numerical modeling of nonlinear magnetohydro-dynamic (MHD) instabilities containing the effects of finite Larmor radius (FLR) in spherical tokamak geometry. Our results contain the comparison of small, inter-mediate, and large effects of the FLR. For small values, the linear and nonlinear behavior is not greatly modified, but with intermediate and large FLR, stabilizing effects on the higher wave number components are observed in the linear phase but in the nonlinear phase the overall properties are dominated by MHD effects. Similar filamentary structures are reproduced as found in some of the experimental observations as a result of the development of ballooning modes. The formation and the properties of filamentary type structures during edge-localized modes are also discussed.

Published

2006

22. 2D electron temperature diagnostic using soft x-ray imaging technique.

Author

K. Nishimura, A. Sanpei, H. Tanaka, G. Ishii, R. Kodera, R. Ueba, H. Himura, S. Masamune, S. Ohdachi, and N. Mizuguchi

Subjects

ELECTRON research, REVERSED field pinches, X-ray research, HELICITY (Chemistry), MAGNETIC traps

Abstract

We have developed a two-dimensional (2D) electron temperature (Te) diagnostic system for thermal structure studies in a low-aspect-ratio reversed field pinch (RFP). The system consists of a soft x-ray (SXR) camera with two pin holes for two-kinds of absorber foils, combined with a high-speed camera. Two SXR images with almost the same viewing area are formed through different absorber foils on a single micro-channel plate (MCP). A 2D Te image can then be obtained by calculating the intensity ratio for each element of the images. We have succeeded in distinguishing Te image in quasi-single helicity (QSH) from that in multi-helicity (MH) RFP states, where the former is characterized by concentrated magnetic fluctuation spectrum and the latter, by broad spectrum of edge magnetic fluctuations. [ABSTRACT FROM AUTHOR]

Published

2014

23. A case of intussusception caused by Meckel's diverticulum

Author

T. Mukoujima, N. Mizuguchi, M. Takeda, Toshio Naganuma, U. Masamune, and T. Kumagai

Subjects

Meckel's diverticulum, medicine.medical_specialty, business.industry, General surgery, Intussusception (medical disorder), Gastroenterology, Medicine, Surgery, business, medicine.disease

Abstract

症例は58歳女性, 昭和60年12月より臍周囲痛が出現, 症状は間欠的で, 近医にて治療を受けていたが, 昭和61年6月16日, 食 欲不振, 下腹部痛を主訴に秋田県成人病医療センターを受診し, 腹部単純X線検査で腸閉塞と診断した. 入院後の注腸検査で, 上行結腸に重積した腸重積症と診断し, 同日開腹手術を施行した. 回腸が内筒となって盲腸に重積し, その先進部の回腸には, 内翻憩室がみられた. 重積部位の回腸は壊死に陥っていた. 切除標本の病理検査で, 憩室は全層性で, 異所性胃粘膜を持ち, Meckel憩室の内翻による腸重積症と確定診断した. 症例報告に加えて, Meckel憩室による腸重積症について文献的考察を加えた.

Published

1989

24. The Welfare State and Bureaucracy

Author

N. Mizuguchi

Subjects

Political science, media_common.quotation_subject, Welfare state, Bureaucracy, Public administration, media_common

Published

1988

25. [Thermochemotherapy of cancer of the stomach]

Author

M, Kakehi, K, Watai, T, Mukojima, and N, Mizuguchi

Subjects

Stomach Neoplasms, Mitomycin, Humans, Antineoplastic Agents, Hyperthermia, Induced, Mitomycins, Tegafur

Abstract

Short-term results of chemo-hyperthermia of gastric carcinoma were reported. Complete regression was noted in 15%, partial regression in 42% of cases.

Published

1988

26. [Pre-operative endoscopic infusions of an adsorbent containing mitomycin C (MMC-CH44) in stomach cancer]

Author

A, Hagiwara, T, Takahashi, T, Ueda, M, Takeda, R, Lee, and N, Mizuguchi

Subjects

Male, Antibiotics, Antineoplastic, Stomach Neoplasms, Charcoal, Lymphatic Metastasis, Mitomycin, Gastroscopy, Preoperative Care, Humans, Adsorption, Pharmaceutical Vehicles, Aged, Mitomycins

Abstract

Small charcoal particles adsorbing Mitomycin C (MMC-CH) were used in the treatment of lymphnode metastasis of gastric cancer. Immediately after injection of MMC-CH into the gastric wall, lymph capillaries and regional lymphnodes were stained in black and the high concentration of MMC was delivered with charcoal particles. MMC-CH was injected preoperatively using endoscope into the gastric wall of 20 patients with gastric cancer. MMC-CH was observed in 70% of metastatic regional lymphnodes. Systemic side effect was not noted at all. Erosion and shallow ulcers were observed at the site of injection but no perforation occurred.

Published

1983

27. Candidate brain regions for motor imagery practice: a commentary on Rieger et al., 2023.

Author

Mizuguchi N

Subjects

Humans, Practice, Psychological, Motor Activity physiology, Brain physiology, Imagination physiology, Psychomotor Performance physiology, Gyrus Cinguli physiology

Abstract

The mechanism through which motor imagery practice improves motor performance remains unclear. In this special issue, Rieger et al. propose a model to explain why motor imagery practice improves motor performance. According to their model, motor imagery involves a comparison between intended and predicted action effects, allowing for the modification of the internal model upon detecting errors. I believe that the anterior cingulate cortex (ACC) is a candidate as a brain region responsible for comparing intended and predicted action effects. Evidence supports this hypothesis, as a previous study has observed error-related activity in the ACC preceding incorrect responses (i.e., commission errors) in the Go/No-go task (Bediou et al., 2012, Neuroimage). Therefore, the error-related activity can be induced without any feedback. This fact also sheds light on the mechanisms of brain-computer interface. I believe that this additional literature will enhance Rieger's model., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

28. EEG decoding with spatiotemporal convolutional neural network for visualization and closed-loop control of sensorimotor activities: A simultaneous EEG-fMRI study.

Author

Iwama S, Tsuchimoto S, Mizuguchi N, and Ushiba J

Subjects

Humans, Adult, Male, Young Adult, Female, Electroencephalography methods, Magnetic Resonance Imaging, Brain-Computer Interfaces, Neurofeedback methods, Sensorimotor Cortex physiology, Sensorimotor Cortex diagnostic imaging, Neural Networks, Computer

Abstract

Closed-loop neurofeedback training utilizes neural signals such as scalp electroencephalograms (EEG) to manipulate specific neural activities and the associated behavioral performance. A spatiotemporal filter for high-density whole-head scalp EEG using a convolutional neural network can overcome the ambiguity of the signaling source because each EEG signal includes information on the remote regions. We simultaneously acquired EEG and functional magnetic resonance images in humans during the brain-computer interface (BCI) based neurofeedback training and compared the reconstructed and modeled hemodynamic responses of the sensorimotor network. Filters constructed with a convolutional neural network captured activities in the targeted network with spatial precision and specificity superior to those of the EEG signals preprocessed with standard pipelines used in BCI-based neurofeedback paradigms. The middle layers of the trained model were examined to characterize the neuronal oscillatory features that contributed to the reconstruction. Analysis of the layers for spatial convolution revealed the contribution of distributed cortical circuitries to reconstruction, including the frontoparietal and sensorimotor areas, and those of temporal convolution layers that successfully reconstructed the hemodynamic response function. Employing a spatiotemporal filter and leveraging the electrophysiological signatures of the sensorimotor excitability identified in our middle layer analysis would contribute to the development of a further effective neurofeedback intervention., (© 2024 The Author(s). Human Brain Mapping published by Wiley Periodicals LLC.)

Published

2024

29. Investigating proficiency using a lift-type transfer support device for effective care: comparison of skilled and unskilled nursing homes.

Author

Yoshimi T, Kato K, Tsuchimoto S, Mizuguchi N, Aimoto K, Itoh N, and Kondo I

Subjects

Humans, Nursing Homes, Skilled Nursing Facilities

Abstract

Purpose: The purpose of the study was to investigate whether the sustained use of the "Hug," a "hugging" type robotic transfer support device, could increase the level of quality of care., Methods: The effect of proficiency on using the device was examined in terms of time spent for transfer, ratio of transfers using the device, and range of targets. The results were compared between skilled care facilities that had used the device for >24 months and unskilled facilities., Results: The time spent for transfer at the unskilled facility was 4.6 min (2nd week after introduction), was reduced to 3.0 min (5th week), and 1.5 min at the skilled facility. The usage ratio at the unskilled facility was 13% and 30% (2nd and 5th week, respectively), while it was 97% in the skilled facility. Further, we identified wider in the range of target care recipients in the skilled facility., Conclusion: It takes time to master the use of Hug; however, its use was associated with many positive aspects, especially from the perspective of care recipients, e.g., better care, use of their own legs, and reduced time for transfers. These findings suggest that the widespread use of Hug would improve the quality of care.IMPLICATIONS FOR REHABILITATIONLess physically burdened on the caregivers using Hug, they can afford to talk to the care recipients.Using recipient's own legs during transfers, it prevents leg muscle disuse.As reduced time for transfers, recipients will have more opportunities to get out of bed.

Published

2024

30. Complex sequential learning is not facilitated by transcranial direct current stimulation over DLPFC or M1.

Author

Kaminski E, Carius D, Knieke J, Mizuguchi N, and Ragert P

Subjects

Humans, Dorsolateral Prefrontal Cortex, Learning physiology, Reaction Time physiology, Prefrontal Cortex physiology, Transcranial Direct Current Stimulation methods, Motor Cortex physiology

Abstract

Transcranial direct current stimulation (tDCS) is a non-invasive brain stimulation technique which was found to have a positive modulatory effect on online sequence acquisition or offline motor consolidation, depending on the relative role of the associated brain region. Primary motor regions (M1) and dorsolateral prefrontal cortices (DLPFC) have both been related to sequential learning. However, research so far did not systematically disentangle their differential roles in online and offline learning especially in more complex sequential paradigms. In this study, the influence of anodal M1 leg area-tDCS and anodal DLPFC-tDCS applied during complex sequential learning (online and offline) was investigated using a complex whole body serial reaction time task (CWB-SRTT) in 42 healthy volunteers. TDCS groups did not differ from sham tDCS group regarding their response and reaction time (online) and also not in terms of overnight consolidation (offline). Sequence specific learning and the number of recalled items also did not differ between groups. Results may be related to unspecific parameters such as timing of the stimulation or current intensity but can also be attributed to the relative role of M1 and DLPFC during early complex learning. Taken together, the current study provides preliminary evidence that M1 leg area or DLPFC modulation by means of tDCS does not improve complex sequential skill learning. SIGNIFICANCE STATEMENT: Understanding motor learning is helpful to deepen our knowledge about the human ability to acquire new skills. Complex sequential learning tasks have only been studied, sparsely, but are particularly mimicking challenges of daily living. The present study studied early motor learning in a complex serial reaction time task while transcranial direct current stimulation (tDCS) was either applied to leg primary motor cortex or bilateral dorsolateral prefrontal cortex. TDCS did not affect sequential learning, neither directly during performance nor in terms of sequence consolidation. Results provide preliminary information that M1 or bilateral DLPFC modulation does not improve early complex motor learning., (© 2024 The Authors. European Journal of Neuroscience published by Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2024

31. Age and parous-experience dependent changes in emotional contagion for positive infant sounds.

Author

Mizuguchi N, Kato K, Sugawara SK, Yoshimi T, Goto Y, Takasu K, and Isaka T

Abstract

Introduction: Emotional contagion is achieved by inferring and emotionally resonating with other persons' feelings. It is unclear whether age-related changes in emotional contagion for infant sounds are modulated by the experience of childbirth or childcare. This study aims to evaluate changes in inference and emotional resonance for positive and negative infant sounds (laughter and crying) among women, based on age and parous experience., Methods: A total of 241 women (60 young nulliparous, 60 young parous, 60 old nulliparous, and 61 old parous) completed a web-based questionnaire. After listening to three types of infant sounds (laughter, cooing, and crying), participants responded with their valence for hearing infant sounds and estimated infant valence on an 11-point Likert scale., Results: The analysis for emotional resonance revealed that the correlation coefficient between self and estimated infant valences was greater in young parous and old nulliparous women than in young nulliparous women, in laughter and cooing sounds. However, correlation coefficients for crying did not differ among any of the four groups., Conclusion: The degree of emotional resonance for infant valence increased depending on age and parous-experience for positive infant sounds., Competing Interests: This work was a part of collaborative research (kando project) with Yamaha Motor Co., Ltd. However, the company was not involved in the writing of this article nor the decision to submit it for publication. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Mizuguchi, Kato, Sugawara, Yoshimi, Goto, Takasu and Isaka.)

Published

2024

32. Constraints on hand-foot coordination associated with phase dependent modulation of corticospinal excitability during motor imagery.

Author

Nakagawa K, Kawashima S, Fukuda K, Mizuguchi N, Muraoka T, and Kanosue K

Abstract

Interlimb coordination involving cyclical movements of hand and foot in the sagittal plane is more difficult when the limbs move in opposite directions compared with the same direction (directional constraint). Here we first investigated whether the directional constraint on hand-foot coordination exists in motor imagery (imagined motion). Participants performed 10 cyclic coordinated movements of right wrist flexion-extension and right ankle dorsiflexion-plantarflexion as quickly and precisely as possible, in the following three conditions; (1) actual movements of the two limbs, (2) imaginary movements of the two limbs, and (3) actual movement of one limb combined with imaginary movement of the other limb. Each condition was performed under two directions; the same and the opposite direction. Task execution duration was measured as the time between the first and second press of a button by the participants. The opposite directional movement took a significantly longer time than did the same directional movement, irrespective of the condition type. This suggests that directional constraint of hand-foot coordination occurs even in motor imagery without actual motor commands or kinesthetic signals. We secondarily examined whether the corticospinal excitability of wrist muscles is modulated in synchronization with an imaginary foot movement to estimate the neural basis of directional constraint on imaginary hand-foot coordination. The corticospinal excitability of the forearm extensor in resting position increased during dorsiflexion and decreased during plantarflexion similarly in both actual and imaginary foot movements. This corticospinal modulation depending on imaginary movement phase likely produces the directional constraint on the imaginary hand-foot coordination., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Nakagawa, Kawashima, Fukuda, Mizuguchi, Muraoka and Kanosue.)

Published

2023

33. Diagnosing chronic pancreatitis by endoscopic ultrasound assessing the association between ultrasound and pathological findings: A narrative review.

Author

Yamamiya A, Irisawa A, Abe Y, Arisaka T, Ohnishi T, Hoshi K, Suzuki T, Nagashima K, Kashima K, Kunogi Y, Sakuma F, Fukushi K, Ishikawa M, Mizuguchi N, Yamaguchi S, Tominaga K, and Goda K

Abstract

Endoscopic ultrasound (EUS) is widely recognized for its non-invasiveness and for its usefulness in chronic pancreatitis (CP) diagnosis, including early CP. Although it is desirable to obtain a definitive diagnosis of CP by tissue sampling with EUS-guided fine needle aspiration, histopathological changes in CP are heterogeneous in terms of the extent and the distribution of lesions. Therefore, histopathological diagnosis of appropriate tissue sampling by EUS-fine needle aspiration is expected to be difficult. Furthermore, it is virtually impossible to match EUS images with pathological sections, making direct contrast between EUS findings and pathology difficult. This narrative review presents a discussion of the diagnosis of CP/early CP by EUS, particularly assessing the association between ultrasound and pathological findings. Recently, the histological corroboration and correlation of EUS findings related to CP have been clarified by surgical specimens, including those obtained from animal studies. Furthermore, remarkable advances have occurred in the objective and quantitative diagnosis of pancreatic fibrosis by EUS-elastography. Future technological advances in EUS are expected to improve the accuracy of diagnosis of pancreatic fibrosis at earlier stages., Competing Interests: The authors declare that they have no conflict of interest., (© 2022 The Authors. DEN Open published by John Wiley & Sons Australia, Ltd on behalf of Japan Gastroenterological Endoscopy Society.)

Published

2022

34. Spatially bivariate EEG-neurofeedback can manipulate interhemispheric inhibition.

Author

Hayashi M, Okuyama K, Mizuguchi N, Hirose R, Okamoto T, Kawakami M, and Ushiba J

Subjects

Electroencephalography methods, Functional Laterality physiology, Humans, Transcranial Magnetic Stimulation methods, Motor Cortex physiology, Neurofeedback

Abstract

Human behavior requires inter-regional crosstalk to employ the sensorimotor processes in the brain. Although external neuromodulation techniques have been used to manipulate interhemispheric sensorimotor activity, a central controversy concerns whether this activity can be volitionally controlled. Experimental tools lack the power to up- or down-regulate the state of the targeted hemisphere over a large dynamic range and, therefore, cannot evaluate the possible volitional control of the activity. We addressed this difficulty by using the recently developed method of spatially bivariate electroencephalography (EEG)-neurofeedback to systematically enable the participants to modulate their bilateral sensorimotor activities. Here, we report that participants learn to up- and down-regulate the ipsilateral excitability to the imagined hand while maintaining constant contralateral excitability; this modulates the magnitude of interhemispheric inhibition (IHI) assessed by the paired-pulse transcranial magnetic stimulation (TMS) paradigm. Further physiological analyses revealed that the manipulation capability of IHI magnitude reflected interhemispheric connectivity in EEG and TMS, which was accompanied by intrinsic bilateral cortical oscillatory activities. Our results show an interesting approach for neuromodulation, which might identify new treatment opportunities, e.g., in patients suffering from a stroke., Competing Interests: MH is employed by LIFESCAPES Inc, KO, NM, RH, TO, MK No competing interests declared, JU is a founder and the Representative Director of the University Startup Company, LIFESCAPES Inc. involved in the research, development, and sales of rehabilitation devices including brain-computer interfaces. He receives a salary from Connect Inc., and holds shares in Connect Inc. This company does not have any relationships with the device or setup used in the current study, (© 2022, Hayashi et al.)

Published

2022

35. The Motor Engram of Functional Connectivity Generated by Acute Whole-Body Dynamic Balance Training.

Author

Ueta K, Mizuguchi N, Sugiyama T, Isaka T, and Otomo S

Subjects

Brain, Cerebral Cortex, Exercise Therapy, Female, Humans, Magnetic Resonance Imaging, Male, Postural Balance, Young Adult, Activities of Daily Living, White Matter

Abstract

Purpose: Whole-body dynamic balance is necessary for both athletic activities and activities of daily living. This study aimed to investigate the effect of acute dynamic balance training on neural networks., Methods: We evaluated resting-state functional connectivity (rs-FC), white matter fiber density, fiber-bundle cross-section, and gray matter volume in 28 healthy young adults (14 women) before and after 30 min of slackline training using a randomized, counterbalanced crossover design., Results: The rs-FC between the left lateral prefrontal cortex (PFC) and the foot area of the primary sensorimotor (SM1) cortex increased significantly after slackline training compared with that after a control condition involving ergometer-based aerobic exercise. In addition, changes in rs-FC between the left lateral PFC and the primary sensorimotor were correlated with performance changes after training (i.e., offline process) rather than online learning. We also observed a main effect of time between the hippocampus and the cingulate cortex, including the anterior areas, and between the bilateral lateral PFC. Although we observed no structural changes, fiber density in the commissural fiber pathway before the first balance assessment was correlated with initial balance capability., Conclusions: Our findings demonstrate that acute whole-body dynamic balance training alters specific rs-FC, and that this change is associated with performance changes after training. In addition, rs-FC changes in cognitive regions were modulated by both acute dynamic balance training and aerobic exercise. These findings have the potential to influence various fields (e.g., sports neuroscience, neurorehabilitation) and may aid in the development of methods that can improve motor and cognitive performance., (Copyright © 2021 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American College of Sports Medicine.)

Published

2022

36. Para-Sports can Promote Functional Reorganization in the Ipsilateral Primary Motor Cortex of Lower Limbs Amputee.

Author

Nakanishi T, Mizuguchi N, Nakagawa K, and Nakazawa K

Subjects

Adult, Amputees, Athletes, Humans, Magnetic Resonance Imaging, Male, Motor Cortex diagnostic imaging, Nerve Net diagnostic imaging, Prefrontal Cortex diagnostic imaging, Time Factors, Lower Extremity physiopathology, Motor Cortex physiopathology, Nerve Net physiopathology, Neuronal Plasticity physiology, Prefrontal Cortex physiopathology, Sports for Persons with Disabilities

Abstract

Background . Drastic functional reorganization was observed in the ipsilateral primary motor cortex (M1) of a Paralympic long jumper with a unilateral below-knee amputation in our previous study. However, it remains unclear whether long-term para-sports are associated with ipsilateral M1 reorganization since only 1 athlete with amputation was investigated. Objective . This study aimed to investigate the relationship between the long-term para-sports and ipsilateral M1 reorganization after lower limb amputation. Methods . Lower limb rhythmic muscle contraction tasks with functional magnetic resonance imaging and T1-weighted structural imaging were performed in 30 lower limb amputees with different para-sports experiences in the chronic phase. Results . Brain activity in the ipsilateral primary motor and somatosensory areas (SM1) as well as the contralateral dorsolateral prefrontal cortex, SM1, and inferior temporal gyrus showed a positive correlation with the years of routine para-sports participation (sports years) during contraction of the amputated knee. Indeed, twelve of the 30 participants who exhibited significant ipsilateral M1 activation during amputated knee contraction had a relatively longer history of para-sports participation. No significant correlation was found in the structural analysis. Conclusions . Long-term para-sports could lead to extensive reorganization at the brain network level, not only bilateral M1 reorganization but also reorganization of the frontal lobe and visual pathways. These results suggest that the interaction of injury-induced and use-dependent cortical plasticity might bring about drastic reorganization in lower limb amputees.

Published

2021

37. Expression of cell adhesion molecule 1 in human and murine endometrial glandular cells and its increase during the proliferative phase by estrogen and cell density.

Author

Kimura R, Otani T, Shiraishi N, Hagiyama M, Yoneshige A, Wada A, Kajiyama H, Takeuchi F, Mizuguchi N, Morishita K, and Ito A

Subjects

Adult, Animals, Cell Adhesion Molecule-1 genetics, Cell Line, Tumor, Estrogens pharmacology, Female, Humans, Mice, Cell Adhesion Molecule-1 biosynthesis, Cell Proliferation, Endometrium metabolism, Epithelial Cells metabolism, Gene Expression Regulation

Abstract

Aims: Cell adhesion molecule 1 (CADM1) mediates interepithelial adhesion and is upregulated in crowded epithelial monolayers. This study aimed to examine CADM1 expression in the human endometrium of proliferative and secretory phases, and its transcriptional regulation in terms of estrogen stimuli and higher cellularity., Main Methods: CADM1 immunohistochemistry was conducted on endometrial tissues from women in their 40s and adult mice subcutaneously injected with estradiol following ovariectomy. Dual-luciferase reporter assays were conducted using human endometrial HEC-50B and HEC-1B cells and reporter plasmids harboring the human CADM1 3.4-kb promoter and its deleted and mutated forms. Cells were transfected with estrogen receptor α cDNA and reporter plasmids, and treated with estradiol before luciferase activity measurement., Key Findings: Immunohistochemistry revealed that CADM1 was clearly expressed on the lateral membranes of the simple columnar glandular cells in the proliferative phase, but not in the secretory phase, from both women and the mouse model. The glandular cell density increased two-fold in the proliferative phase. Reporter assays identified three Sp1-binding sites as estradiol-responsive elements in the proximal region (from -223 to -84) of the transcription start site (+1) in HEC-50B cells. When the cell culture was started at eight-fold higher cell density, the CADM1 3.4-kb promoter was transactivated at a two-fold higher level in HEC-50B cells. This cell density effect was not detected for the CADM1 2.3-kb or 1.6-kb promoter., Significance: Two (proximal and distal) promoter regions are suggested to function additively to transactivate CADM1 in endometrial glandular cells that crowd in the proliferative phase., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

38. Recognition capability of one's own skilled movement is dissociated from acquisition of motor skill memory.

Author

Mizuguchi N, Tsuchimoto S, Fujii H, Kato K, Nagami T, and Kanosue K

Subjects

Adult, Humans, Male, Learning physiology, Motor Skills physiology, Movement physiology, Recognition, Psychology physiology

Abstract

When we have rehearsed a movement using an object, we can reproduce the movement without holding the object. However, the reproduced movement sometimes differs from the movement holding a real object, likely because movement recognition is inaccurate. In the present study, we tested whether the recognition capability was dissociated from the acquisition of motor skill memory. Twelve novices were asked to rotate two balls with their right hand as quickly as possible; they practiced the task for 29 days. To evaluate recognition capability, we calculated the difference in coordination pattern of all five digits between the ball-rotation movement and the reproduced movement without holding balls. The recognition capability did not change within the first day, but improved after one week of practice. On the other hand, performance of the ball rotation significantly improved within the first day. Since improvement of performance is likely associated with acquisition of motor skill memory, we suggest that recognition capability, which reflects the capability to cognitively access motor skill memory, was dissociated from the acquisition of motor skill memory. Therefore, recognition of one's own skilled movement would rely on a hierarchical structure of acquisition of motor skill memory and cognitive access to that memory., (© 2021. The Author(s).)

Published

2021

39. Identification of care tasks for the use of wearable transfer support robots - an observational study at nursing facilities using robots on a daily basis.

Author

Kato K, Yoshimi T, Tsuchimoto S, Mizuguchi N, Aimoto K, Itoh N, and Kondo I

Subjects

Caregivers, Humans, Robotics, Wearable Electronic Devices

Abstract

Background: To reduce the physical burden of caregivers, wearable transfer support robots are highly desirable. Although these robots are reportedly effective for specific tasks in experimental environments, there is little information about their effectiveness at nursing care facilities. The aim of this study was to identify care tasks and operations suitable for the use of these robots among caregivers in nursing facilities where these robots have been in use on a daily basis., Methods: A 1-min observational time-motion analysis was conducted to examine care tasks and operations in two nursing facilities where wearable transfer support robots, namely Muscle Suit or HAL® Lumbar Type for Care Support, have been used routinely on a daily basis for more than 24 months., Results: Analysis of the care tasks and their time ratio while wearing the equipment revealed that both robots were used conspicuously for direct care in over 70% of transits, especially during transfer assistance and toileting care. Furthermore, these robots were used intensively in the morning along with wake-up calls to care recipients, where pre-assigned wearers used them as part of their "routine work.", Conclusions: We found that these wearable transfer support robots enabled effective performance of care tasks and operations in nursing facilities where these robots have been used on a daily basis for an extended period of time. These results may lead to the effective implementation and sustained operation of other types of care robots in the future., Trial Registration: UMIN Clinical Trials Registry no. UMIN000039204 . Trial registration date: January 21, 2020. Interventional study. Parallel, non-randomized, single blinded.

Published

2021

40. Role of α2δ3 in Cellular Synchronization of the Suprachiasmatic Nucleus Under Constant Light Conditions.

Author

Matsuo M, Seo K, Mizuguchi N, Yamazaki F, Urabe S, Yamada N, Doi M, Tominaga K, and Okamura H

Subjects

Animals, Circadian Rhythm, Light, Mice, Transcription Factors, Period Circadian Proteins genetics, Period Circadian Proteins metabolism, Suprachiasmatic Nucleus metabolism

Abstract

By the effort to identify candidate signaling molecules important for the formation of robust circadian rhythms in the suprachiasmatic nucleus (SCN), the mammalian circadian center, here we characterize the role of α2δ proteins, synaptic molecules initially identified as an auxiliary subunit of the voltage dependent calcium channel, in circadian rhythm formation. In situ hybridization study demonstrated that type 3 α2δ gene (α2δ3) was strongly expressed in the SCN. Mice without this isoform (Cacna2d3 -/- ) did not maintain proper circadian locomotor activity rhythms under a constant light (LL) condition, whereas under a constant dark (DD) condition, these mice showed a similar period length and similar light-responsiveness as compared to wild type mice. Reflecting this behavioral phenotype, Cacna2d3 -/- mice showed a severely impaired Per1 expression rhythm in the SCN under LL, but not under DD. Cultured SCN slices from Per1-luc transgenic Cacna2d3 -/- mice revealed reduced synchrony of Per1-luc gene expression rhythms among SCN neurons. These findings suggest that α2δ3 is essential for synchronized cellular oscillations in the SCN and thereby contributes to enhancing the sustainability of circadian rhythms in behavior., (Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2021

41. Use of common average reference and large-Laplacian spatial-filters enhances EEG signal-to-noise ratios in intrinsic sensorimotor activity.

Author

Tsuchimoto S, Shibusawa S, Iwama S, Hayashi M, Okuyama K, Mizuguchi N, Kato K, and Ushiba J

Subjects

Brain Mapping, Humans, Magnetic Resonance Imaging, Signal-To-Noise Ratio, Electroencephalography, Sensorimotor Cortex

Abstract

Background: Oscillations in the resting-state scalp electroencephalogram (EEG) represent various intrinsic brain activities. One of the characteristic EEG oscillations is the sensorimotor rhythm (SMR)-with its arch-shaped waveform in alpha- and betabands-that reflect sensorimotor activity. The representation of sensorimotor activity by the SMR depends on the signal-to-noise ratio achieved by EEG spatial filters., New Method: We employed simultaneous recording of EEG and functional magnetic resonance imaging, and 10-min resting-state brain activities were recorded in 19 healthy volunteers. To compare the EEG spatial-filtering methods commonly used for extracting sensorimotor cortical activities, we assessed nine different spatial-filters: a default reference of EEG amplifier system, a common average reference (CAR), small-, middle- and large-Laplacian filters, and four types of bipolar manners (C3-Cz, C3-F3, C3-P3, and C3-T7). We identified the brain region that correlated with the EEG-SMR power obtained after each spatial-filtering method was applied. Subsequently, we calculated the proportion of the significant voxels in the sensorimotor cortex as well as the sensorimotor occupancy in all significant regions to examine the sensitivity and specificity of each spatial-filter., Results: The CAR and large-Laplacian spatial-filters were superior at improving the signal-to-noise ratios for extracting sensorimotor activity from the EEG-SMR signal., Comparison With Existing Methods: Our results are consistent with the spatial-filter selection to extract task-dependent activation for better control of EEG-SMR-based interventions. Our approach has the potential to identify the optimal spatial-filter for EEG-SMR., Conclusions: Evaluating spatial-filters for extracting spontaneous sensorimotor activity from the EEG is a useful procedure for constructing more effective EEG-SMR-based interventions., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

42. Increase of verbal communication by long-term use of transfer-support robots in nursing facilities.

Author

Yoshimi T, Kato K, Tsuchimoto S, Mizuguchi N, and Kondo I

Subjects

Adult, Attitude of Health Personnel, Female, Humans, Long-Term Care methods, Male, Moving and Lifting Patients methods, Moving and Lifting Patients psychology, Quality of Health Care, Verbal Behavior, Caregiver Burden etiology, Caregiver Burden prevention & control, Caregivers psychology, Caregivers supply & distribution, Homes for the Aged statistics & numerical data, Moving and Lifting Patients instrumentation, Nursing Homes statistics & numerical data, Professional-Patient Relations, Robotics methods

Published

2021

43. Neurofeedback of scalp bi-hemispheric EEG sensorimotor rhythm guides hemispheric activation of sensorimotor cortex in the targeted hemisphere.

Author

Hayashi M, Mizuguchi N, Tsuchimoto S, and Ushiba J

Subjects

Adult, Brain-Computer Interfaces, Cross-Over Studies, Double-Blind Method, Feedback, Sensory, Hand, Humans, Male, Scalp physiology, Shoulder, Young Adult, Brain Waves, Neurofeedback methods, Sensorimotor Cortex physiology

Abstract

Oscillatory electroencephalographic (EEG) activity is associated with the excitability of cortical regions. Visual feedback of EEG-oscillations may promote sensorimotor cortical activation, but its spatial specificity is not truly guaranteed due to signal interaction among interhemispheric brain regions. Guiding spatially specific activation is important for facilitating neural rehabilitation processes. Here, we tested whether users could explicitly guide sensorimotor cortical activity to the contralateral or ipsilateral hemisphere using a spatially bivariate EEG-based neurofeedback that monitors bi-hemispheric sensorimotor cortical activities for healthy participants. Two different motor imageries (shoulder and hand MIs) were selected to see how differences in intrinsic corticomuscular projection patterns might influence activity lateralization. We showed sensorimotor cortical activities during shoulder, but not hand MI, can be brought under ipsilateral control with guided EEG-based neurofeedback. These results are compatible with neuroanatomy; shoulder muscles are innervated bihemispherically, whereas hand muscles are mostly innervated contralaterally. We demonstrate the neuroanatomically-inspired approach enables us to investigate potent neural remodeling functions that underlie EEG-based neurofeedback via a BCI., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

44. Scalp electroencephalograms over ipsilateral sensorimotor cortex reflect contraction patterns of unilateral finger muscles.

Author

Iwama S, Tsuchimoto S, Hayashi M, Mizuguchi N, and Ushiba J

Subjects

Adult, Brain-Computer Interfaces, Electroencephalography methods, Female, Humans, Male, Movement physiology, Young Adult, Fingers physiology, Motor Cortex physiology, Muscles physiology, Scalp physiology, Sensorimotor Cortex physiology

Abstract

A variety of neural substrates are implicated in the initiation, coordination, and stabilization of voluntary movements underpinned by adaptive contraction and relaxation of agonist and antagonist muscles. To achieve such flexible and purposeful control of the human body, brain systems exhibit extensive modulation during the transition from resting state to motor execution and to maintain proper joint impedance. However, the neural structures contributing to such sensorimotor control under unconstrained and naturalistic conditions are not fully characterized. To elucidate which brain regions are implicated in generating and coordinating voluntary movements, we employed a physiologically inspired, two-stage method to decode relaxation and three patterns of contraction in unilateral finger muscles (i.e., extension, flexion, and co-contraction) from high-density scalp electroencephalograms (EEG). The decoder consisted of two parts employed in series. The first discriminated between relaxation and contraction. If the EEG data were discriminated as contraction, the second stage then discriminated among the three contraction patterns. Despite the difficulty in dissociating detailed contraction patterns of muscles within a limb from scalp EEG signals, the decoder performance was higher than chance-level by 2-fold in the four-class classification. Moreover, weighted features in the trained decoders revealed EEG features differentially contributing to decoding performance. During the first stage, consistent with previous reports, weighted features were localized around sensorimotor cortex (SM1) contralateral to the activated fingers, while those during the second stage were localized around ipsilateral SM1. The loci of these weighted features suggested that the coordination of unilateral finger muscles induced different signaling patterns in ipsilateral SM1 contributing to motor control. Weighted EEG features enabled a deeper understanding of human sensorimotor processing as well as of a more naturalistic control of brain-computer interfaces., Competing Interests: Declaration of Competing Interest J.U. is one of the founders and the Representative Director of the University Startup Company, Connect Inc. for the research, development, and sales of rehabilitation devices including brain-computer interface. J.U. has received a salary from Connect Inc., and has held the shares of Connect Inc. This company does not have any relationship with the present study., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2020

45. Ectopic TWEAKR expression in type I fiber of stroke-prone spontaneously hypertensive rats is related to slow muscle-specific hypotrophy.

Author

Inoue T, Hagiyama M, Maenishi O, Kimura M, Mizuguchi N, Mine Y, Kimura R, Chikugo T, Itoh T, Satou T, and Ito A

Subjects

Animals, Hypertension complications, Hypertension metabolism, Male, Muscle Fibers, Skeletal metabolism, Muscle Proteins genetics, Muscle Proteins metabolism, Muscle, Skeletal metabolism, Muscle, Smooth, Vascular metabolism, Muscular Atrophy etiology, Muscular Atrophy metabolism, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Stroke etiology, Stroke metabolism, TWEAK Receptor genetics, Tripartite Motif Proteins genetics, Tripartite Motif Proteins metabolism, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, Hypertension pathology, Muscle Fibers, Skeletal pathology, Muscle, Skeletal pathology, Muscle, Smooth, Vascular pathology, Muscular Atrophy pathology, Stroke pathology, TWEAK Receptor metabolism

Abstract

Aims: Stroke-prone spontaneously hypertensive rats (SHRSP) show significantly lower body weight than normotensive Wistar-Kyoto rats (WKY). Our hypotheses are as follows: weight loss of the skeletal muscle is related to hypertension-related diseases, and muscle hypotrophy is useful as a therapeutic target for hypertension and hypertension-related diseases. In this study, we aimed to investigate the pathophysiological characteristics of muscle hypotrophy in SHRSP to determine the therapeutic target molecule(s)., Main Methods: The difference in skeletal muscles in the lower leg between WKY and SHRSP was evaluated mainly through weight/tibial length, histological, gene expression, and protein expression analyses., Key Findings: SHRSP had a significantly lower weight/tibial length in soleus and gastrocnemius, but not in plantaris and tibialis anterior, indicating that muscles consisting of a relatively high amount of slow muscle fiber were affected. This result was confirmed by the histological analysis of soleus, showing that type I fiber mainly decreased the fiber size. Microarray and protein expression analyses showed that the muscle-specific ubiquitin ligase, muscle RING finger 1 (MuRF1), but not atrogin-1, was highly expressed in soleus, but not in plantaris, in SHRSP. TNF-like weak inducer of apoptosis receptor (TWEAKR) was predicted as a MuRF1 up-regulator by Ingenuity Pathway Analysis and immunostained only in type II fiber in WKY but in both type I and II fibers in SHRSP., Significance: TWEAKR is a type II-specific receptor in the skeletal muscle. Ectopic TWEAKR expression in type I fiber of SHRSP is most likely involved in slow muscle-specific hypotrophy through MuRF1 overexpression., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

46. Involvement of human left frontoparietal cortices in neural processes associated with task-switching between two sequences of skilled finger movements.

Author

Uehara S, Mizuguchi N, Hirose S, Yamamoto S, and Naito E

Subjects

Adult, Brain Mapping, Female, Fingers, Humans, Magnetic Resonance Imaging, Male, Young Adult, Frontal Lobe physiology, Motor Activity, Motor Skills, Parietal Lobe physiology

Abstract

In this study, we demonstrate the involvement of left frontoparietal cortices in neural processes for task-switching between skilled movements. Functional magnetic resonance imaging was conducted while thirty-two right-handed healthy participants performed two sequential finger-movement tasks with their left hands. One group (n = 16) trained these tasks through random-practice (tasks were either switched or repeated trial by trial) on one day and blocked-practice (successive intensive practice of each task) on the next day, while the remaining participants practiced in the reverse order. On the first day, performance of both tasks improved in all participants, suggesting that the two skilful tasks can be learned in both practice schedules. However, during the random-practice, the performance in the switched trials initially deteriorated and gradually approached to that in the repeated trials as the practice proceeded. The left (mainly inferior) frontoparietal cortices showed greater preparatory activity for the switched trials compared with the repeated trials in a left-hemispheric dominant manner, and the left intraparietal activity decreased as the performance of the switched trials improved. The results indicate that neural processes for task-switching are associated with the greater preparatory activity in the left inferior frontoparietal cortices, and the efficient switching may proceed concomitantly with the left intraparietal activity reduction., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

47. Vividness and accuracy: Two independent aspects of motor imagery.

Author

Mizuguchi N, Suezawa M, and Kanosue K

Subjects

Adult, Brain Mapping, Female, Humans, Male, Movement physiology, Visual Cortex physiology, Cerebral Cortex physiology, Imagination physiology, Kinesthesis physiology, Psychomotor Performance physiology

Abstract

Motor imagery is the mental execution of an action without any actual movement. Although numerous studies have utilized questionnaires to evaluate the vividness of motor imagery, it remains unclear whether it is related to the accuracy of motor imagery. To examine the relationship between vividness and accuracy, we investigated brain activity during kinesthetic and visual motor imagery, by using a novel sequential finger-tapping task. We estimated accuracy by measuring the fidelity of the actual performance and evaluated vividness by using a visual analog scale. We found that accuracy of visual motor imagery was correlated with the activity in the left visual cortex, as well as with bilateral sensorimotor regions. In contrast, vividness of visual motor imagery was associated with the activity in the right orbitofrontal cortex. However, there was no correlation in the brain activity between the right orbitofrontal cortex and visuomotor regions or between vividness and accuracy of motor imagery. In addition, we did not find any correlation in the kinesthetic imagery condition. We conclude that vividness of visual motor imagery is associated with the right orbitofrontal cortex and is independent of processes occurring in sensorimotor regions, which would be responsible for the accuracy of visual motor imagery., (Copyright © 2018 Elsevier B.V. and Japan Neuroscience Society. All rights reserved.)

Published

2019

48. Two-stage regression of high-density scalp electroencephalograms visualizes force regulation signaling during muscle contraction.

Author

Hayashi M, Tsuchimoto S, Mizuguchi N, Miyatake M, Kasuga S, and Ushiba J

Subjects

Adult, Humans, Male, Young Adult, Brain-Computer Interfaces, Electroencephalography methods, Electromyography methods, Muscle Contraction physiology, Scalp physiology

Abstract

Objective: A critical feature for the maintenance of precise skeletal muscle force production by the human brain is its ability to configure motor function activity dynamically and adaptively in response to visual and somatosensory information. Existing studies have concluded that not only the sensorimotor area but also distributed cortical areas act cooperatively in the generation of motor commands for voluntary force production to the desired level. However, less attention has been paid to such physiological mechanisms in conventional brain-computer interface (BCI) design and implementation. We proposed a new, physiologically inspired two-stage decoding method to see its contribution on accuracy improvement of BCI., Approach: We performed whole-head high-density scalp electroencephalographic (EEG) recording during a right finger force-matching task at three strength levels (20%, 40%, and 60% maximal voluntary contraction following a resting state). A two-stage regression approach was employed that decodes muscle contraction level from EEG signals in the multi-level force-matching task and translates them into: (1) presence/absence of muscle contraction as a first stage; and (2) muscle contraction level as a second stage. Dimensionality reduction of the EEG signals, using principal component analysis, avoided multicollinearity during multiple regression, and data-driven stepwise multiple regression identified EEG components that were involved in the multi-level force-matching task., Main Results: An alternatively tuned two-stage regressor accurately decoded muscle contraction level with online processing rather than the conventional decoders, and identified EEG components that were related to voluntary force production. Relaxation/contraction state-dependent EEG components were localized dominantly in the contralateral parieto-temporal regions, whereas multi-level force regulation-dependent EEG components came from the fronto-parietal regions., Significance: Our findings identify respective cortical signalings during relaxation/contraction and multi-level force regulation using a sensor-based approach with EEG. Simulation-based assessment of the current physiologically inspired decoding technique proved improved accuracy in online BCI control.

Published

2019

49. Structural connectivity prior to whole-body sensorimotor skill learning associates with changes in resting state functional connectivity.

Author

Mizuguchi N, Maudrich T, Kenville R, Carius D, Maudrich D, Villringer A, and Ragert P

Subjects

Adult, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Neural Pathways anatomy & histology, Neural Pathways physiology, Reaction Time, Young Adult, Brain anatomy & histology, Brain physiology, Learning physiology, Motor Skills physiology

Abstract

Changes in resting state functional connectivity are induced by sensorimotor training and assumed to be concomitant of motor learning, although a potential relationship between functional and structural connectivity associated with sensorimotor sequence learning remains elusive. To investigate whether initial structural connectivity relates to changes in functional connectivity, we evaluated resting state functional connectivity (rs-FC), white matter fibre density (FD), fibre-bundle cross-section (FC), and gray matter volume (GMV) in healthy human participants before and after two days of performing a complex whole-body serial reaction time task (CWB-SRTT). As CWB-SRTT was implicit, participants were not told about the presence of any sequence. Since the lateral prefrontal cortex (PFC) plays an important role in sequence learning, we hypothesized that structural connectivity within the PFC prior to learning is associated with changes in rs-FC involving the lateral PFC. Sequence specific improvements, as assessed by the time difference between the last random and the last sequence blocks, were observed for reaction times, suggesting that sensorimotor sequence memory was acquired. Rs-FC between the right lateral PFC and bilateral striatum increased significantly in the learning group, when compared to a control group who performed only random blocks. This indicated that rs-FC changes are related to sequence memory but not to exercise itself. In addition, changes in rs-FC between the right lateral PFC and the left striatum were correlated with sequence specific improvements in individual reaction times. Furthermore, changes in rs-FC between right lateral PFC and left striatum were positively correlated with FC in the right anterior corona radiata measured before the task. We did not find any structural changes or significant correlations in FD or GMV. These findings suggest that an early phase of sensorimotor sequence learning in complex whole-body movements is associated with an increase in rs-FC between prefrontal and subcortical regions. Furthermore, we provide novel evidence that CWB-SRTT-induced changes in rs-FC were correlated with FC within the PFC., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

50. Remote effects on corticospinal excitability during motor execution and motor imagery.

Author

Shironouchi F, Ohtaka C, Mizuguchi N, Kato K, Kakigi R, and Nakata H

Subjects

Evoked Potentials, Motor, Female, Foot physiology, Functional Laterality, Hand physiology, Humans, Transcranial Magnetic Stimulation, Young Adult, Executive Function, Imagination, Movement, Muscle, Skeletal physiology, Pyramidal Tracts physiology

Abstract

We investigated the remote effect on corticospinal excitability of resting left and right hand muscles during motor execution and motor imagery when performing left or right foot plantar flexion. Fifteen right-handed subjects performed two conditions with three tasks: Condition (Motor Execution (ME) vs. Motor Imagery (MI)): Task (Control, Ipsilateral, and Contralateral). From the left and right first dorsal interosseous, motor evoked potentials (MEPs) elicited by a single-pulse transcranial magnetic stimulation (TMS) to the left or right primary motor cortices (M1) were recorded under all six trials. MEP amplitudes were significantly larger under the ME than MI condition, irrespective of hands and tasks. MEP amplitudes were also the largest during the Contralateral tasks, irrespective of the condition and hands. The correlation analysis showed that MEP amplitudes were significantly correlated between ME and MI conditions with both left and right hands. Our results indicate that the magnitude of the remote effect on corticospinal excitability of hand muscles differs between motor execution and motor imagery, and between ipsi- and contralateral limbs, when performing foot plantar flexion., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019