NAOSUKE KAMEI

Last Updated :2022/12/01

Affiliations, Positions
Graduate School of Biomedical and Health Sciences(Medicine), Associate Professor
E-mail
nahkameihiroshima-u.ac.jp
Other Contact Details
1-2-3 Kasumi, Minami-ku, Hiroshima, Japan, Japan
TEL : (+81)82-257-5233 FAX : (+81)82-257-5234

Basic Information

Major Professional Backgrounds

  • 1997/05/16, 1997/09/30, Hiroshima University, Hospital, Resident
  • 1997/10/01, 1999/03/31, JA Yoshida General Hospital, Department of Orthopaedic Surgery, Medical Doctor
  • 1999/04/01, 2001/03/31, Matsuyama Red Cross Hospital, Department of Orthopaedic Surgery, Medical Doctor
  • 2001/04/01, 2003/03/31, Hiroshima General Hospital of West Japan Railway Company, Department of Orthopaedic Surgery, Medical Doctor
  • 2005/04/01, 2007/03/31, Hiroshima University, Hospital, Medical Staff
  • 2007/04/01, 2009/03/31, RIKEN, CDB, Visiting Researcher
  • 2009/04/01, 2015/03/31, Hiroshima University, Hospital, Assistant Professor
  • 2015/04/01, 2019/03/31, Hiroshima University, Hospital, Lecturer
  • 2019/04/01, 2020/03/31, Hiroshima University, Hospital, Associate Professor
  • 2020/04/01, Hiroshima University, Graduate School of Biomedical and Health Sciences, Department of Orthopaedic Surgery, Associate Professor

Educational Backgrounds

  • Hiroshima University, Faculty of Medicine, Japan, 1991/04, 1997/03
  • Hiroshima University, Graduate School of Biomedical Sciences, Department of Orthopedic Surgery, Japan, 2002/04, 2006/03

Academic Degrees

  • Doctor of Philosophy in Medical Science, Hiroshima University

Educational Activity

  • [Bachelor Degree Program] School of Medicine : Program of Medicine : Medicine
  • [Doctoral Program] Graduate School of Biomedical and Health Sciences : Division of Biomedical Sciences

In Charge of Primary Major Programs

  • Medicine

Research Fields

  • Medicine,dentistry, and pharmacy;Clinical surgery;Orthopaedic surgery

Research Keywords

  • Cell transplantation
  • Vascular regeneration
  • Spinal cord regeneration
  • Cartilage regeneration

Affiliated Academic Societies

  • Orthopaedic Research Society
  • Japanese Orthopaedic Association
  • Japanese Society for Spine Surgery and Related Research
  • Japanese Society for Regenerative Medicine
  • Japanese Society of Inflammation and Regeneration
  • Central Japan Association of Orthopaedic Surgery & Traumatology
  • Chugoku-Shikoku Orthopaedic Association

Educational Activity

Course in Charge

  1. 2022, Undergraduate Education, Year, Clinical diagnosis and treatment II
  2. 2022, Undergraduate Education, Intensive, Symptomatology, Diagnosis and Treatment
  3. 2022, Undergraduate Education, Intensive, Practice of Medicine I
  4. 2022, Undergraduate Education, Intensive, Practice of Medicine II
  5. 2022, Graduate Education (Master's Program) , Second Semester, General Clinical Medicine and Dentistry

Research Activities

Academic Papers

  1. Surgical outcomes of cervical myelopathy in patients with athetoid cerebral palsy, EUROPEAN JOURNAL OF ORTHOPAEDIC SURGERY AND TRAUMATOLOGY, 32(7), 1283-1289, 202210
  2. ★, Comparison of the electrophysiological characteristics of tight filum terminale and tethered cord syndrome, ACTA NEUROCHIRURGICA, 164(8), 2235-2242, 202208
  3. Quantifying Bone Marrow Edema Adjacent to the Lumbar Vertebral Endplate on Magnetic Resonance Imaging: A Cross-Sectional Study of Patients with Degenerative Lumbar Disease, ASIAN SPINE JOURNAL, 16(2), 254-260, 202204
  4. Prognostic factors for spontaneous spinal epidural hematoma: a multicenter case-control study, ACTA NEUROCHIRURGICA, 164(6), 1493-1499, 202206
  5. ★, Evaluation of intervertebral disc degeneration using T2 signal ratio on magnetic resonance imaging, EUROPEAN JOURNAL OF RADIOLOGY, 152, 202207
  6. Development of a rat model with lumbar vertebral endplate lesion, EUROPEAN SPINE JOURNAL, 31(4), 874-881, 202204
  7. Vertebral osteomyelitis caused by Mycobacteroides abscessus subsp. abscessus resulting in spinal cord injury due to vertebral body fractures, JOURNAL OF INFECTION AND CHEMOTHERAPY, 28(2), 290-294, 202202
  8. Radiographic Factors for Adjacent Vertebral Fractures and Cement Loosening Following Balloon Kyphoplasty in Patients with Osteoporotic Vertebral Fractures, SPINE SURGERY AND RELATED RESEARCH, 6(2), 159-166, 202210
  9. Spinous Process Fractures in Osteoporotic Vertebral Fractures: A Cross-Sectional Study, SPINE SURGERY AND RELATED RESEARCH, 6(2), 139-144, 202106
  10. Quantitative evaluation of abnormal finger movements in myelopathy hand during the grip and release test using gyro sensors, PLOS ONE, 16(10), 202110
  11. Quantitative Assessment of Bone Marrow Edema in Adolescent Athletes with Lumbar Spondylolysis Using Contrast Ratio on Magnetic Resonance Imaging, ASIAN SPINE JOURNAL, 15(5), 682-687, 202110
  12. Long-term outcome of targeted therapy for low back pain in elderly degenerative lumbar scoliosis, EUROPEAN SPINE JOURNAL, 30(7), 2020-2032, 202107
  13. Randomized trial of granulocyte colony-stimulating factor for spinal cord injury, BRAIN, 144, 789-799, 202104
  14. Transplantation of autologous bone marrow-derived mesenchymal stem cells under arthroscopic surgery with microfracture versus microfracture alone for articular cartilage lesions in the knee: A multicenter prospective randomized control clinical trial, REGENERATIVE THERAPY, 11, 106-113, 20191201
  15. In Vitro Safety and Quality of Magnetically Labeled Human Mesenchymal Stem Cells Preparation for Cartilage Repair, TISSUE ENGINEERING PART C-METHODS, 25(6), 324-333, 20190601
  16. The correlation between sagittal spinopelvic alignment and degree of lumbar degenerative spondylolisthesis, JOURNAL OF ORTHOPAEDIC SCIENCE, 24(6), 969-973, 201911
  17. Transforaminal percutaneous endoscopic discectomy for lumbar disc herniation in athletes under the local anesthesia, JOURNAL OF ORTHOPAEDIC SCIENCE, 24(6), 1015-1019, 201911
  18. Transplantation of autologous bone marrow-derived mesenchymal stem cells under arthroscopic surgery with microfracture versus microfracture alone for articular cartilage lesions in the knee: A multicenter prospective randomized control clinical trial, Regenerative Therapy, 11, 106-113, 201906
  19. Role of Mesenchymal Stem Cells Densities When Injected as Suspension in Joints with Osteochondral Defects, CARTILAGE, 10(1), 61-69, 201901
  20. Electrophysiological Assessment and Classification of Motor Pathway Function in Patients With Spinal Dural Arteriovenous Fistula, JOURNAL OF CLINICAL NEUROPHYSIOLOGY, 36(1), 45-51, 201901
  21. Transforaminal percutaneous endoscopic discectomy for lumbar disc herniation in athletes under the local anesthesia, J Orthop Sci, 24(6), 1015-1019, 2019
  22. The correlation between sagittal spinopelvic alignment and degree of lumbar degenerative spondylolisthesis, J Orthop Sci, 24(6), 969-973, 2019
  23. The endoplasmic reticulum stress transducer old astrocyte specifically induced substance positively regulates glial scar formation in spinal cord injury, NEUROREPORT, 29(17), 1443-1448, 20181205
  24. Pathology and Treatment of Traumatic Cervical Spine Syndrome: Whiplash Injury, ADVANCES IN ORTHOPEDICS, 20180228
  25. ★, The Safety and Efficacy of Magnetic Targeting using Autologous Mesenchymal Stem Cells for Cartilage Repair, Knee Surgery Sports Traumatology Arthroscopy, 26(12), 3626-3635, 201812
  26. Magnetic Resonance Imaging Evaluation of Cartilage Repair and Iron Particle-Kinetics after Magnetic Delivery of Stem Cells, TISSUE ENGINEERING PART C-METHODS, 24(12), 679-687, 201812
  27. Magnetic cell delivery for the regeneration of musculoskeletal and neural tissues, REGENERATIVE THERAPY, 9, 116-119, 201812
  28. Endoscopic repair of the urinary bladder with magnetically labeled mesenchymal stem cells: Preliminary report, REGENERATION THERAPY, 10, 46-53, 201812
  29. Novel Hybrid Hydroxyapatite Spacers Ensure Sufficient Bone Bonding in Cervical Laminoplasty, ASIAN SPINE JOURNAL, 12(6), 1078-1084, 201812
  30. Local administration of WP9QY (W9) peptide promotes bone formation in a rat femur delayed-union model, JOURNAL OF BONE AND MINERAL METABOLISM, 36(4), 383-391, 201807
  31. Study protocol for the G-SPIRIT trial: a randomised, placebo-controlled, double-blinded phase III trial of granulocyte colony-stimulating factor-mediated neuroprotection for acute spinal cord injury, BMJ OPEN, 8(5), 201805
  32. Endoplasmic reticulum stress transducer old astrocyte specifically induced substance contributes to astrogliosis after spinal cord injury, NEURAL REGENERATION RESEARCH, 13(3), 536-540, 201803
  33. ★, Monitoring immune response after allogeneic transplantation of mesenchymal stem cells for osteochondral repair, JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 12(1), e275-e286, 201801
  34. Evidence that impaired motor conduction in the bilateral ulnar and tibial nerves underlies cervical spondylotic amyotrophy in patients with unilateral deltoid muscle atrophy, SPINE SURGERY AND RELATED RESEARCH, 2(1), 2018
  35. Discrimination of a nerve fiber that is the origin of a cauda equina tumor using acetylcholinesterase staining, NEUROPATHOLOGY, 37(5), 415-419, 201710
  36. Therapeutic Potential of Multilineage-Differentiating Stress Enduring Cells for Osteochondral Repair in the Rat Model, STEM CELLS INTERNATIONAL, 201710
  37. ★, Quality Evaluation of Human Bone Marrow Mesenchymal Stem Cells for Cartilage Repair, STEM CELLS INTERNATIONAL, 201708
  38. Angiogenic conditioning of peripheral blood mononuclear cells promotes fracture healing, BONE & JOINT RESEARCH, 6(8), 489-498, 201708
  39. Chondrocyte Cell-Sheet Transplantation for Treating Monoiodoacetate-Induced Arthritis in Rats, TISSUE ENGINEERING PART C-METHODS, 23(6), 346-356, 201706
  40. The relationship between central motor conduction time and spinal cord compression in patients with cervical spondylotic myelopathy, SPINAL CORD, 55(4), 419-426, 201704
  41. ★, The Use of Endothelial Progenitor Cells for the Regeneration of Musculoskeletal and Neural Tissues, STEM CELLS INTERNATIONAL, 201703
  42. Magnetic Targeted Delivery of Induced Pluripotent Stem Cells Promotes Articular Cartilage Repair, STEM CELLS INTERNATIONAL, 2017
  43. Mesenchymal Stem Cell-Derived Exosomes Promote Fracture Healing in a Mouse Model, STEM CELLS TRANSLATIONAL MEDICINE, 5(12), 1620-1630, 201612
  44. Cell Magnetic Targeting System for Repair of Severe Chronic Osteochondral Defect in a Rabbit Model, CELL TRANSPLANTATION, 25(6), 1073-1083, 201606
  45. Mesenchymal-stem-cell-derived exosomes accelerate skeletal muscle regeneration, FEBS LETTERS, 589(11), 1257-1265, 20150508
  46. Repair Mechanism of Osteochondral Defect Promoted by Bioengineered Chondrocyte Sheet, TISSUE ENGINEERING PART A, 21(5-6), 1131-1141, 20150301
  47. Electrophysiological assessments of the motor pathway in diabetic patients with compressive cervical myelopathy, JOURNAL OF NEUROSURGERY-SPINE, 23(6), 707-714, 201512
  48. Promotion of skeletal muscle repair in a rat skeletal muscle injury model by local injection of human adipose tissue-derived regenerative cells, JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 9(10), 1150-1160, 201510
  49. In Vivo Kinetics of Mesenchymal Stem Cells Transplanted into the Knee Joint in a Rat Model Using a Novel Magnetic Method of Localization, CTS-CLINICAL AND TRANSLATIONAL SCIENCE, 8(5), 467-474, 201510
  50. Clinical results of microsurgical bilateral decompression via unilateral approach for lumbar canal stenosis with multiple-level involvement, EUROPEAN JOURNAL OF ORTHOPAEDIC SURGERY & TRAUMATOLOGY, 25(Suppl 1), S191-S198, 201507
  51. The effect of administration of double stranded MicroRNA-210 on acceleration of Achilles tendon healing in a rat model, JOURNAL OF ORTHOPAEDIC SCIENCE, 20(3), 538-546, 201505
  52. Administration of MicroRNA-210 Promotes Spinal Cord Regeneration in Mice, SPINE, 39(14), 1099-1107, 20140615
  53. Resection of spinous processes can cause spinal cord injury in patient with ossification of the posterior longitudinal ligament in the thoracic spine, SPINAL CORD, 52, S19-S21, 201411
  54. Intra-articular injection of synthetic microRNA-210 accelerates avascular meniscal healing in rat medial meniscal injured model, ARTHRITIS RESEARCH & THERAPY, 16(6), 201411
  55. Electrophysiological evidence of functional improvement in the corticospinal tract after laminoplasty in the patients with cervical compressive myelopathy, JOURNAL OF NEUROSURGERY SPINE, 21(2), 210-216, 201408
  56. Direct effect of radiation on the peripheral nerve in a rat model, JOURNAL OF PLASTIC SURGERY AND HAND SURGERY, 48(4), 276-280, 201408
  57. Circulating microRNAs as biomarkers for evaluating the severity of acute spinal cord injury, SPINAL CORD, 52(8), 596-600, 201408
  58. Enhancement of muscle repair using human mesenchymal stem cells with a magnetic targeting system in a subchronic muscle injury model, JOURNAL OF ORTHOPAEDIC SCIENCE, 19(3), 478-488, 201405
  59. Surgical treatment of high-grade dysplastic spondylolisthesis using intraoperative electrophysiological monitoring: report of two cases and review of the literature, EUROPEAN JOURNAL OF ORTHOPAEDIC SURGERY & TRAUMATOLOGY, 23(Suppl 1), S121-127, 20130701
  60. ★, Ex-vivo expanded human blood-derived CD133(+) cells promote repair of injured spinal cord, JOURNAL OF THE NEUROLOGICAL SCIENCES, 328(1-2), 41-50, 20130515
  61. Medium-term Clinical Results of Microsurgical Lumbar Flavectomy That Preserves Facet Joints in Cases of Lumbar Degenerative Spondylolisthesis Comparison of Bilateral Laminotomy With Bilateral Decompression by a Unilateral Approach, JOURNAL OF SPINAL DISORDERS & TECHNIQUES, 26(7), 351-358, 201310
  62. Magnetic Targeting of Human Peripheral Blood CD133(+) Cells for Skeletal Muscle Regeneration, TISSUE ENGINEERING PART C-METHODS, 19(8), 631-641, 201308
  63. Treatment of cartilage defects by subchondral drilling combined with covering with atelocollagen membrane induces osteogenesis in a rat model, JOURNAL OF ORTHOPAEDIC SCIENCE, 18(4), 627-635, 201307
  64. Long-term clinical results of microsurgical transdural discectomy with laminoplasty: follow-up results over 10 years, JOURNAL OF NEUROSURGERY-SPINE, 18(6), 653-660, 201306
  65. In vivo bioluminescence imaging of magnetically targeted bone marrow-derived mesenchymal stem cells in skeletal muscle injury model, JOURNAL OF ORTHOPAEDIC RESEARCH, 31(5), 754-759, 201305
  66. Use of prone position magnetic resonance imaging for detecting the terminal filum in patients with occult tethered cord syndrome Clinical article, JOURNAL OF NEUROSURGERY-SPINE, 18(1), 76-84, 201301
  67. Human platelet-rich plasma promotes axon growth in brain-spinal cord coculture, NEUROREPORT, 23(12), 712-716, 20120822
  68. Magnetic Field-Based Delivery of Human CD133(+) Cells Promotes Functional Recovery After Rat Spinal Cord Injury, SPINE, 37(13), E768-E777, 20120601
  69. ★, Contribution of bone marrow-derived endothelial progenitor cells to neovascularization and astrogliosis following spinal cord injury, JOURNAL OF NEUROSCIENCE RESEARCH, 90(12), 2281-2292, 201212
  70. The Effect of Intra-articular Injection of MicroRNA-210 on Ligament Healing in a Rat Model, AMERICAN JOURNAL OF SPORTS MEDICINE, 40(11), 2470-2478, 201211
  71. The therapeutic potential of ex vivo expanded CD133(+) cells derived from human peripheral blood for peripheral nerve injuries, JOURNAL OF NEUROSURGERY, 117(4), 787-794, 201210
  72. Heme oxygenase-1 modulates degeneration of the intervertebral disc after puncture in Bach 1 deficient mice, EUROPEAN SPINE JOURNAL, 21(9), 1748-1757, 201209
  73. In vivo bioluminescence imaging of transplanted bone marrow mesenchymal stromal cells using a magnetic delivery system in a rat fracture model, JOURNAL OF BONE AND JOINT SURGERY-BRITISH VOLUME, 94B(7), 998-1006, 201207
  74. ★, Endothelial Progenitor Cells Promote Astrogliosis following Spinal Cord Injury through Jagged1-Dependent Notch Signaling, JOURNAL OF NEUROTRAUMA, 29(9), 1758-1769, 201206
  75. Investigation of Segmental Motor Paralysis After Cervical Laminoplasty Using Intraoperative Spinal Cord Monitoring With Transcranial Electric Motor-evoked Potentials, JOURNAL OF SPINAL DISORDERS & TECHNIQUES, 25(2), 92-98, 201204
  76. CD34(+) Cells Represent Highly Functional Endothelial Progenitor Cells in Murine Bone Marrow, PLOS ONE, 6(5), 20110531
  77. MicroRNA-223 expression in neutrophils in the early phase of secondary damage after spinal cord injury, NEUROSCIENCE LETTERS, 492(2), 114-118, 20110401
  78. Assessment of Central Motor Conduction Time in the Diagnosis of Compressive Thoracic Myelopathy, SPINE, 35(26), E1593-E1598, 20101215
  79. The effects of combining chondroitinase ABC and NEP1-40 on the corticospinal axon growth in organotypic co-cultures, NEUROSCIENCE LETTERS, 476(1), 14-17, 20100526
  80. CD133(+) cells from human umbilical cord blood reduce cortical damage and promote axonal growth in neonatal rat organ co-cultures exposed to hypoxia, INTERNATIONAL JOURNAL OF DEVELOPMENTAL NEUROSCIENCE, 28(7), 581-587, 201011
  81. Quantitative assessment of myelopathy patients using motor evoked potentials produced by transcranial magnetic stimulation, EUROPEAN SPINE JOURNAL, 19(5), 685-690, 201005
  82. Responses of microRNAs 124a and 223 following spinal cord injury in mice, SPINAL CORD, 48(3), 192-196, 201003
  83. ★, Lnk Deletion Reinforces the Function of Bone Marrow Progenitors in Promoting Neovascularization and Astrogliosis Following Spinal Cord Injury, STEM CELLS, 28(2), 365-375, 201002
  84. Concurrent vasculogenesis and neurogenesis from adult neural stem cells, CIRCULATION RESEARCH, 105(9), 860-868, 200910
  85. Clinical results of cervical myelopathy in patients over 80 years old: evaluation of spinal function with motor evoked potentials., JOURNAL OF NEUROSURGERY-SPINE, 11(4), 421-426, 200906
  86. Regeneration of peripheral nerve after transplantation of CD133(+) cells derived from human peripheral blood, JOURNAL OF NEUROSURGERY, 110(4), 758-767, 200904
  87. Acceleration of skeletal muscle regeneration in a rat skeletal muscle injury model by local injection of human peripheral blood-derived CD133-positive cells, STEM CELLS, 27(4), 949-960, 200904
  88. Chondroitinase ABC promotes corticospinal axon growth in organotypic cocultures, SPINAL CORD, 47(2), 161-165, 200902
  89. Administration of human peripheral blood-derived CD133+ cells accelerates functional recovery in a rat spinal cord injury model, SPINE, 34(3), 249-254, 200902
  90. Expansive laminoplasty for cervical myelopathy with interconnected porous calcium hydroxyapatite ceramic spacers: Comparison with autogenous bone spacers., JOURNAL OF SPINAL DISORDERS & TECHNIQUES, 21(8), 547-552, 200812
  91. Modulation of the secondary injury process after spinal cord injury in Bach1-deficient mice by heme oxygenase-1, JOURNAL OF NEUROSURGERY-SPINE, 9(6), 611-620, 200812
  92. CD133+ cells from human peripheral blood promote corticospinal axon regeneration, NEUROREPORT, 19(8), 799-803, 200805
  93. Magnetically labeled neural progenitor cells, which are localized by magnetic force, promote axon growth in organotypic cocultures, SPINE, 32(21), 2300-2305, 200710
  94. Bone marrow stromal cells promoting corticospinal axon growth through the release of humoral factors in organotypic cocultures in neonatal rats, JOURNAL OF NEUROSURGERY-SPINE, 6(5), 412-419, 200705
  95. ★, BDNF, NT-3, and NGF released from transplanted neural progenitor cells promote corticospinal axon growth in organotypic cocultures, SPINE, 32(12), 1272-1278, 200705
  96. Significant correlation between corticospinal tract conduction block and prolongation of central motor conduction time in compressive cervical myelopathy, JOURNAL OF THE NEUROLOGICAL SCINECES, 256(1-2), 71-74, 200705
  97. Postoperative segmental C5 palsy after cervical laminoplasty may occur without intraoperative nerve injury: a prospective study with transcranial electric motor-evoked potentials, SPINE, 31(26), 3013-3017, 200612
  98. Surgical outcome of posterior decompression for cervical spondylosis with unilateral upper extremity amyotrophy, SPINE, 31(20), E728-732, 200609
  99. Magnetic targeting of bone marrow stromal cells into spinal cord: through cerebrospinal fluid, NEUROREPORT, 17(12), 1269-1272, 200608
  100. Corticospinal tract conduction block results in the prolongation of central motor conduction time in compressive cervical myelopathy, CLINICAL NEUROPHYSIOLOGY, 117(3), 623-627, 200603
  101. Characterization of labeled neural progenitor cells for magnetic targeting, NEUROREPORT, 16(15), 1641-1645, 200510
  102. Neural progenitor cells promote corticospinal axon growth in organotypic co-cultures, NEUROREPORT, 15(17), 2579-2583, 200412
  103. Intradural extramedullary mass formation in spinal cord sarcoidosis: case report and literature review, SPINE, 28(20), E420-423, 200310

Publications such as books

  1. 2014/03/18, Neuroprotection and Regeneration of the Spinal Cord, Vascular regeneration therapies for spinal cord injury, 2014, 03, Scholarly Book, Joint work, 9784431545026, 419

Invited Lecture, Oral Presentation, Poster Presentation

  1. Realization of cartilage regeneration by magnetic targeting of bone marrow mesenchymal stem cells, Naosuke Kamei,Mitsuo Ochi, Nobuo Adachi, JOSKAS/JOSSM meeting 2021, 2021/06/17, Without Invitation, Japanese, published
  2. The Clinical Trial of Magnetic Mesenchymal Stem Cell Targeting for Cartilage Repair, Naosuke Kamei, Mitsuo Ochi, Nobuo Adachi, Asia-Pacific Stem cell & Cartilage Repair Symposium, 2016/11/12, With Invitation, English, Chonnam National University, Gwangju, Korea
  3. MicroRNAs for the Diagnosis and Treatment of Spinal Cord Injury, Naosuke Kamei, The 19th Seminar of the Studu Group for Nerve and Spine, 2016/03, With Invitation, English

Awards

  1. 2011/01/15, New Investigator Recognition Award (2011 Annual Meeting of the Orthopaedic Research Society), Endothelial progenitor cells promote regeneration of injured spinal cord through Notch signaling

Patented

  1. Patent, 6942340, 2021/09/10
  2. Patent, 6445237, 2018/12/07

External Funds

Acceptance Results of Competitive Funds

  1. Program for Creating STart-ups from Advanced Research and Technology(START), 2020/04/01, 2021/05/31
  2. Research Project for Practical Applications of Regenerative Medicine, 2020/04/01, 2021/03/31
  3. Program for Creating STart-ups from Advanced Research and Technology(START), 2019/04/01, 2020/11/30
  4. Research Project for Practical Applications of Regenerative Medicine , 2019/04/01, 2020/03/31
  5. Program for Creating STart-ups from Advanced Research and Technology(START), 2018/09/01, 2019/03/31
  6. Research Project for Practical Applications of Regenerative Medicine , 2018/04/01, 2019/03/31
  7. Program of start-up incubation from core research (SCORE), 2017/10/02, 2018/03/31
  8. 2018
  9. KAKENHI, 2017, 2019
  10. KAKENHI, 2016, 2018
  11. Research Project for Practical Applications of Regenerative Medicine, 2014, 2016
  12. KAKENHI, 2014, 2016
  13. KAKENHI, 2014, 2015
  14. KAKENHI, 2013, 2015
  15. KAKENHI, 2013, 2015
  16. 2013, 2014
  17. Highway Program for Realization of Regenerative Medicine, 2012, 2017
  18. KAKENHI, 2012, 2014
  19. KAKENHI, cartilage regeneration using decellularized tissue, peripheral blood mononuclear cell, and microRNA, 2012, 2013
  20. KAKENHI, Neural and vascular specific microRNA as a novel approach for the treatment of injured spinal cord, 2011, 2012
  21. KAKENHI, Novel strategy for muscloskeletal diseases using secreted microRNA, 2011, 2013
  22. KAKENHI, Novel regenerative therapy for skeletal muscle injury using human adipose tissue-derived regenerative cells, 2011, 2013
  23. KAKENHI, Therapeutic effects for spinal cord injury with magnetic targeting of cell transplantation., 2011, 2013
  24. KAKENHI, Therapeutic strategy for osteoarthritis by evaluation and regulation of microRNA, 2010, 2011
  25. KAKENHI, Spinal cord regeneration promoted by the construction of neurovascular niche, 2009, 2010
  26. KAKENHI, Magnetic stem/progenitor cell targeting for tissue regeneration through the angiogenesis, 2009, 2012
  27. 2008, 2009
  28. 2008, 2009
  29. 2006, 2007

Social Activities

History as Peer Reviews of Academic Papers

  1. 2022, Brain Sciences, Others, Reviewer, 1
  2. 2022, Spine Surgery and Related Research, Others, Reviewer, 2
  3. 2022, Biomaterials, Others, Biomaterials, 1
  4. 2022, Neuroscience Letters, Others, Reviewer, 1
  5. 2022, Regenerative Therapy, Others, Reviewer, 1
  6. 2022, World Neurosurgery, Others, Reviewer, 2
  7. 2022, Journal of Orthopaedic Science, Others, Reviewer, 4
  8. 2021, Biomaterials, Others, Reviewer, 1
  9. 2021, Materials Science and Engineering: C, Others, Reviewer, 1
  10. 2021, Journal of Orthopaedic Science, Others, Reviewer, 5
  11. 2021, Spine Surgery and Related Research, Others, Reviewer, 3
  12. 2020, Applied Materials Today, Others, Reviewer
  13. 2020, Tissue and Cell, Others, Reviewer
  14. 2020, Journal of Translational Medicine, Others, Reviewer
  15. 2020, Regenerative Therapy, Others, Reviewer
  16. 2020, Journal of Orthopaedic Science, Others, Reviewer
  17. 2020, Neuroscience Letters, Others, Reviewer
  18. 2019, Biomaterials, Others, Reviewer
  19. 2019, Case Reports in Orthopedics, Others, Reviewer
  20. 2019, Regenerative Therapy, Others, Reviewer
  21. 2019, Journal of Biochemistry and Physiology, Others, Reviewer
  22. 2018, Biomaterials, Others, Reviewer
  23. 2018, European Journal of Pharmacology, Others, Reviewer
  24. 2018, Neural Regeneration Research, Others, Reviewer
  25. 2018, Journal of Orthopaedic Science, Others, Reviewer
  26. 2018, Regeneration Therapy, Others, Reviewer
  27. 2018, Journal of Translational Medicine, Others, Reviewer
  28. 2017, Journal of Orthopaedic Science, Others, Reviewer
  29. 2016, Journal of Neurotrauma, Others, Reviewer
  30. 2016, Neural Plasticity, Others, Reviewer
  31. 2016, Stem Cells international, Others, Reviewer
  32. 2014, Tissue Engineering, Others, Reviewer
  33. 2013, Cytotherapy, Others, Reviewer
  34. 2012, Stem Cells Translational Medicine, Others, Reviewer
  35. 2009, Bone, Others, Reviewer
  36. 2009, International Journal of Developmental Neuroscience, Others, Reviewer
  37. 2009, Anatomical Science International, Others, Reviewer
  38. 2008, Experimental Neurology, Others, Reviewer
  39. 2008, Journal of sport rehabilitation, Others, Reviewer
  40. 2007, Blood, Others, Reviewer