Functional and morphological changes of lumbar nerve roots induced by mechanical compression or the nucleus pulposus in contact with the root: analysis of fiber size-dependent vulnerability in rabbits
暂无分享,去创建一个
[1] K. Olmarker,et al. Presence and distribution of antigen-antibody complexes in the herniated nucleus pulposus. , 1999, Spine.
[2] K. Olmarker,et al. Tumor Necrosis Factor α and Nucleus‐Pulposus‐Induced Nerve Root Injury , 1998 .
[3] K. Olmarker,et al. Acute Effects of Nucleus Pulposus on Blood Flow and Endoneurial Fluid Pressure in Rat Dorsal Root Ganglia , 1998, Spine.
[4] R. Myers,et al. Pathogenesis of sciatic pain: role of herniated nucleus pulposus and deformation of spinal nerve root and dorsal root ganglion , 1998, Pain.
[5] A. Brawanski,et al. Is There a Clinical Correlate to the Histologic Evidence of Inflammation in Herniated Lumbar Disc Tissue? , 1998, Spine.
[6] S. Mellgren,et al. The Function of Sensory Nerve Fibers in Lumbar Radiculopathy: Use of Quantitative Sensory Testing in the Exploration of Different Populations of Nerve Fibers and Dermatomes , 1998, Spine.
[7] K. Olmarker,et al. Experimental Disc Herniation: Evaluation of the Natural Course , 1997, Spine.
[8] Y. Yamano,et al. Lumbar Spinal Canal Stenosis Examined Electrophysiologically in a Rat Model of Chronic Cauda Equina Compression , 1997, Spine.
[9] H. Matsui,et al. Clinical and Electrophysiologic Characteristics of Compressed Lumbar Nerve Roots , 1997, Spine.
[10] J. Mochida,et al. Histologic Analysis of the Lumbosacral Nerve Roots After Compression in Young and Aged Rabbits , 1997, Spine.
[11] K. Olmarker,et al. Incision of the Anulus Fibrosus Induces Nerve Root Morphologic, Vascular, and Functional Changes: An Experimental Study , 1996, Spine.
[12] J. Weinstein,et al. Pathomechanism of Pain‐Related Behavior Produced by Allografts of Intervertebral Disc in the Rat , 1996, Spine.
[13] K. Olmarker,et al. Effects of OP-1206 (prostaglandin E1) on nerve-conduction velocity in the dog cauda equina subjected to acute experimental compression. , 1996, Journal of spinal disorders.
[14] C. Nordborg,et al. Ultrastructural Changes in Spinal Nerve Roots Induced by Autologous Nucleus Pulposus , 1996, Spine.
[15] S. Yabuki,et al. A Model for Acute, Chronic, and Delayed Graded Compression of the Dog Cauda Equina: Neurophysiologic and Histologic Changes Induced by Acute, Graded Compression , 1995, Spine.
[16] James D. Kang,et al. Herniated Cervical Intervertebral Discs Spontaneously Produce Matrix Metalloproteinases, Nitric Oxide, Interleukin‐6, and Prostaglandin E2 , 1995, Spine.
[17] J. Saal. The Role of Inflammation in Lumbar Pain , 1995, Spine.
[18] J. Weinstein,et al. Neuropeptide Changes in Compressed Spinal Nerve Roots , 1995, Spine.
[19] K. Olmarker,et al. Inflammatogenic Properties of Nucleus Pulposus , 1995, Spine.
[20] Shigeru Kobayashi,et al. Chronic Nerve Root Compression: Pathophysiologic Mechanism of Nerve Root Dysfunction , 1995, Spine.
[21] J. Weinstein,et al. Behavioral and Histologic Changes in a Model of Radicular Pain After Spinal Nerve Root Irritation with Chromic Gut Ligatures in the Rat , 1994, Spine.
[22] C. Nordborg,et al. Effects of Methylprednisolone on Nucleus Pulposus‐Induced Nerve Root Injury , 1994, Spine.
[23] Mituo Hasue. Pain and the Nerve Root: An Interdisciplinary Approach , 1993, Spine.
[24] C. Nordborg,et al. Autologous nucleus pulposus induces neurophysiologic and histologic changes in porcine cauda equina nerve roots. , 1993, Spine.
[25] K. Olmarker,et al. Spinal nerve root compression. Nutrition and function of the porcine cauda equina compressed in vivo. , 1991, Acta orthopaedica Scandinavica. Supplementum.
[26] J. Massie,et al. Nerve-roots of the cauda equina. The effect of hypotension and acute graded compression on function. , 1990, The Journal of bone and joint surgery. American volume.
[27] K. Olmarker,et al. Compression-induced changes of the nutritional supply to the porcine cauda equina. , 1990, Journal of spinal disorders.
[28] H. S. Gasser,et al. Electrical Signs of Nervous Activity , 1937 .