His main research concerns Anatomy, Surgery, Spinal cord, Internal medicine and Pathology. Hideshige Moriya interconnects Calcitonin gene-related peptide and Sensory nerve in the investigation of issues within Anatomy. His studies in Surgery integrate themes in fields like Laminectomy, Laminoplasty and Magnetic resonance imaging.
His work carried out in the field of Spinal cord brings together such families of science as Mutation, Ligament, Central nervous system disease and Neuron. His Internal medicine research includes elements of Endocrinology and Diathesis. His Pathology research is multidisciplinary, incorporating elements of Central nervous system, Arthritis, Synovial membrane and In situ hybridization.
Anatomy, Surgery, Internal medicine, Spinal cord and Pathology are his primary areas of study. He focuses mostly in the field of Anatomy, narrowing it down to matters related to Calcitonin gene-related peptide and, in some cases, Calcitonin. His Surgery research is multidisciplinary, relying on both Magnetic resonance imaging and Myelopathy.
His Internal medicine research focuses on Endocrinology and how it connects with Brain-derived neurotrophic factor. Hideshige Moriya has researched Spinal cord in several fields, including Neurotrophic factors, Anesthesia, Central nervous system and Neuron. His Pathology study combines topics from a wide range of disciplines, such as In situ hybridization, Ligament, Cartilage and Transplantation.
The scientist’s investigation covers issues in Surgery, Anatomy, Orthopedic surgery, Pathology and Internal medicine. His study in Surgery is interdisciplinary in nature, drawing from both Nuclear medicine, Magnetic resonance imaging and Myelopathy. Hideshige Moriya is studying Dorsal root ganglion, which is a component of Anatomy.
His work deals with themes such as Central nervous system disease, Gene expression and Stem cell, which intersect with Pathology. The concepts of his Internal medicine study are interwoven with issues in Endocrinology, Tibia and Cardiology. In his research on the topic of Spinal cord, Rho kinase inhibitor is strongly related with Central nervous system.
Surgery, Pathology, Spinal cord, Anatomy and Spinal cord injury are his primary areas of study. His Surgery research focuses on Orthopedic surgery in particular. The study incorporates disciplines such as Central nervous system disease, Magnetic resonance imaging, Stem cell and Cartilage in addition to Pathology.
His research in Spinal cord intersects with topics in Motor nerve, Programmed cell death and Cauda equina syndrome. The various areas that Hideshige Moriya examines in his Anatomy study include Sensory system, Sensory nerve and Nociception. His Spinal cord injury study combines topics in areas such as Central nervous system, Neuroprotection, Immunology, Neuron and Transplantation.
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Mutation in Npps in a mouse model of ossification of the posterior longitudinal ligament of the spine
Akihiko Okawa;Isao Nakamura;Isao Nakamura;Sumio Goto;Hideshige Moriya.
Nature Genetics (1998)
TNF-alpha and TNF-alpha receptor type 1 upregulation in glia and neurons after peripheral nerve injury: studies in murine DRG and spinal cord.
Seiji Ohtori;Kazuhisa Takahashi;Hideshige Moriya;Robert R Myers.
Mechanisms for the enhancement of fracture healing in rats treated with intermittent low-dose human parathyroid hormone (1-34).
Arata Nakajima;Naoshi Shimoji;Koji Shiomi;Sumito Shimizu.
Journal of Bone and Mineral Research (2002)
Tumor necrosis factor-immunoreactive cells and PGP 9.5-immunoreactive nerve fibers in vertebral endplates of patients with discogenic low back Pain and Modic Type 1 or Type 2 changes on MRI.
Seiji Ohtori;Gen Inoue;Toshinori Ito;Takana Koshi.
Effect of decompression enlargement laminoplasty for posterior shifting of the spinal cord.
Tomonori Sodeyama;Sumio Goto;Makondo Mochizuki;Junichi Takahashi.
Functional anatomy of the posterolateral structures of the knee
Y. Watanabe;H. Moriya;K. Takahashi;M. Yamagata.
Sensory innervation of the dorsal portion of the lumbar intervertebral disc in rats
Seiji Ohtori;Yuzuru Takahashi;Kazuhisa Takahashi;Masatsune Yamagata.
Transplanted hematopoietic stem cells from bone marrow differentiate into neural lineage cells and promote functional recovery after spinal cord injury in mice
Shuhei Koshizuka;Seiji Okada;Akihiko Okawa;Masao Koda.
Journal of Neuropathology and Experimental Neurology (2004)
Prediction of collapse with magnetic resonance imaging of avascular necrosis of the femoral head.
Koh Shimizu;H. Moriya;T. Akita;M. Sakamoto.
Journal of Bone and Joint Surgery, American Volume (1994)
An analysis of factors causing poor surgical outcome in patients with cervical myelopathy due to ossification of the posterior longitudinal ligament: anterior decompression with spinal fusion versus laminoplasty.
Yutaka Masaki;Masashi Yamazaki;Akihiko Okawa;Masaaki Aramomi.
Journal of Spinal Disorders & Techniques (2007)
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