Pathophisyologic Aspects of Discoradicular Conflict in Lumbar Osteochondrosis



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Патофизиологические аспекты дискорадикулярного конфликта при поясничном остеохондрозе
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References

  1. Попелянский Я.Ю. Ортопедическая неврология (вертеброневрология): Руководство для врачей. М.: «МЕДпресс-информ»; 2008: 217.
  2. Rydevik B., Brown M., Lundborg G. Pathoanatomy and pathophysiology of nerve root compression. Spine. 1984; 9: 7-15.
  3. Gamble H.J. Comparative electron microscopic observations on the connective tissues of peripheral nerve and a spinal nerve root in the rat. J. Anat.1964; 98: 17-25.
  4. Steer J.M. Some observations on the fine structure of rat dorsal spinal nerve roots. J. Anat. 1971; 109: 467-85.
  5. Mixter W, Barr J. Rupture of the intervertebral disc with involvement of the spinal canal. N. Engl. J. Med. 1934; 211: 210-5.
  6. Weinstein J., Burchiel K. Dandy’s disc. Neurosurgery. 2009; 65 (1): 201-5.
  7. Dandy W. Loose cartilage from intervertebral disc simulating tumor of the spinal cord. Arch. Surg. 1929; 19: 660-72.
  8. Swartz K.R., Trost G.R. Recurrent lumbar disc herniation. Neurosurg. Focus. 2003; 15 (3): E10.
  9. Крутько А.В., Байков Е.С. Анализ критериев прогнозирования результатов хирургического лечения грыж межпозвонковых дисков: обзор современной литературы. Гений ортопедии. 2012; 1: 140-5.
  10. Carragee E.J. Clinical outcomes after lumbar discectomy forsciatica: the effects of fragment type and anular competence. J. Bone Joint Surg. Am. 2003; 85 (1):102-8.
  11. Kast E. Success of simple sequestrectomy in lumbar spine surgery depends on the competence of the fibrous ring: a prospective controlled study of 168 patients. Spine. 2008; 33 (14): 1567-71.
  12. Dandy W. Concealed ruptured intervertebral disks. A plea for the elimination of contrast mediums in diagnosis. JAMA.1941; 117: 821-3.
  13. Fernstrom U.A. A discographical study of ruptured lumbar intervertebral disc. Acta Chir. Scand. Suppl. 1960; Suppl. 258: 1-60.
  14. Миронов С.П., Ветрилэ С.Т., Крупаткин А.И., Швец В.В. Микроциркуляция нервных корешков и твердой мозговой оболочки до и после дискэктомии при поясничных болях. Вестник травматологии и ортопедии им. Н.Н. Приорова. 2006; 3: 57-60.
  15. Bobechko W. Auto-immune response to nucleus pulposus in the rabbit. J. Bone Joint Surg. Br. 1965; 47: 574-80.
  16. McCarron R. The inflammatory effect of nucleus pulposus. A possible element in the pathogenesis of lowback pain. Spine.1987; 12: 760-4.
  17. Takahashi Sato K., Satoh K., Sekiguchi M., Kikuchi S., Konno S., Murakawa M., Rydevik B., Olmarker K. Local application of nucleus pulposus induces expression OF P2X3 in rat dorsal root ganglion cells. Fukushima J. Med. Sci. 2012; 58 (1): 17-21.
  18. Kang J. Herniated lumbar intervertebral discs spontaneously produce matrix metalloproteinases, nitric, oxide, IL-6, prostaglandin E2. Spine. 1996; 21: 271-7.
  19. Saal J. High levels of inflammatory phospholipase A2 activity in lumbar disc herniations. Spine.1990; 15: 674-8.
  20. Nakamae T., Ochi M., Olmarker K. Pharmacological inhibition of tumor necrosis factor may reduce pain behavior changes induced by experimental disc puncture in the rat: an experimental study in rats. Spine (Phila Pa 1976). 2011; 36 (4): E232-6.
  21. Geiss A., Larsson K., Junevik K., Rydevik B., Olmarker K. Autologous nucleus pulposus primes T cells to develop into interleukin-4-producing effector cells: an experimental study on the autoimmune properties of nucleus pulposus. J. Orthop. Res. 2009; 27 (1): 97-103.
  22. Ahn S. mRNA expression of cytokines and chemokines in herniated lumbar intervertebral discs. Spine. 2002; 27: 911-7.
  23. Burke J., Watson R. Intervertebral disc wich cause low back pain secrete high level of proinflammatory mediators. J. Bone Joint Surg. Br. 2002; 84 (2): 196-201.
  24. Cavanaugh J. Neural mechanism of lumbar pain. Spine. 1995; 16: 1804-9.
  25. Kwan M. Strain, stress and stretch of peripheral nerve. Acta Orthop. Scand. 1992; 63: 267-72.
  26. Kulish S., Ulstrom C. The tissue origin of low-back pain and sciatica: a report of pain response to tissue stimulation during operations on the lumbar spine using local anesthesia. Orthop. Clin. North Am. 1991; 22: 181-7.
  27. Olmarker K., Rydevik B., Nordborg C. Autologous nucleus pulposus induces neurophysiologic and histologic changes in porcine cauda equina nerve roots. Spine. 1993; 18 (11): 1425-32.
  28. Cornefjord M., Olmarker K., Rydevik R., Nordborg C. Mechanical and biochemical injury of spinal nerve roots: a morphological and neurophysiological study. Eur. Spine J. 1996; 5: 187-92.
  29. Olmarker K., Storkson R., Berge O.G. Pathogenesis of sciatic pain. A study of spontaneous behavior in rats exposed to experimental disc herniation. Spine. 2002; 27: 1312-7.
  30. Takahashi N., Yabuki S., Aoki Y., Kikuchi S. Pathomechanisms of nerve root injury caused by disc herniation. An experimental study of mechanical compression and chemical irritation. Spine. 2003; 28: 435-41.
  31. Parke W.W., Gammell K., Rothman R.H. Arterial vascularization of cauda equina. J. Bone Joint. Surg. Am. 1981; 63 (1): 53-62.
  32. Рамих Э.А. Очерк анатомо-функциональных особенностей позвоночника. Хирургия позвоночника. 2007; 2: 77-95.
  33. Naito M., Owen J.H., Bridwell K.H., Oakley D.M. Blood flow direction in the lumbar nerve root. Spine. 1990; 15 (9): 966-8.
  34. Parke WW., Watanabe R. The intrinsic vasculature of the lumbosacral spinal nerve roots. Spine. 1985; 10 (6): 508-15.
  35. Gilbert K.K., Brismee J.M., Collins D.L., James C.R., Shah R.V., Sawyer S.F., Sizer P.S. Jr. 2006 Young Investigator Award Winner: lumbosacral nerve root displacement and strain: part 1. A novel measurement technique during straight leg raise in unembalmed cadavers. Spine. 2007; 32 (14): 1513-20.
  36. Gilbert K.K., Brismйe J.M., Collins D.L., James C.R., Shah R.V., Sawyer S.F., Sizer P.S. Jr. 2006 Young Investigator Award Winner: lumbosacral nerve root displacement and strain: part 2. A comparison of 2 straight leg raise conditions in unembalmed cadavers. Spine. 2007; 32 (14): 1521-5.
  37. Kobayashi S., Kokubo Y., Uchida K., Yayama T., Takeno K., Negoro K., Nakajima H., Baba H., Yoshizawa H. Effect of lumbar nerve root compression on primary sensory neurons and their central branches: Changes in the nociceptive neuropeptides substance P and somatostatin. Spine. 2005; 30 (3): 276-82.
  38. Kobayashi S., Uchida K., Yayama T. Takeno K., Miyazaki T., Shimada S., Kubota M., Nomura E., Meir A., Baba H. Motor neuron involvement in experimental lumbar nerve root compression. A light and electron microscopic study. Spine. 2007; 32 (6): 627-34.
  39. Cooper R.G., Freemont A.J., Hoyland J.A., Jenkins J.P., West C.G., Illingworth K.J., Jayson M.I. Herniated intervertebral disc-associated periradicular fibrosis and vascular abnormalities occur without inflammatory cell infiltration. Spine. 1995; 20 (5): 591-8.
  40. Kobayashi S. Microvascular system of the lumbar dorsal root ganglia in rats. Part I: a 3D analysis with scanning electron microscopy of vascular corrosion casts. J. Neurosurg. Spine. 2010;12 (2): 197-202.

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