Факторы риска рецидивов грыж межпозвонковых дисков пояснично-крестцового отдела позвоночника и методы их профилактики

Обзор литературы, посвященный современному взгляду на факторы риска рецидивов грыж межпозвонковых дисков после микродискэктомий на пояснично-крестцовом отделе позвоночника и методах их профилактики. Приведены взгляды различных авторов на понятие «рецидив», методы обследования и лечения данной группы пациентов. Описаны механические способы закрытия дефектов фиброзного кольца после удаления грыжи, методы генной и клеточной терапии. Рассмотрен метод неабляционного облучения эрбиевым волоконным лазером, его физические основы, история развития и перспективы в деле профилактики сегментарной нестабильности и, как следствие, рецидива грыжи в послеоперационном периоде.

микродискэктомия, дефект фиброзного кольца, фиброзно-гиалиновый хрящ, неабляционное облучение

1. Басков A.B., Шехтер А.Б., Соболь Э.Н. [и др.] Влияние лазерного излучения на процессы регенерации хрящевой ткани межпозвонковых дисков. Предварительное сообщение // Лазерная медицина. 2002. № 6 (2). С. 18-23.

2. Басков В.А., Древаль О.Н., Басков А.В. [и др.] Опыт использования пункционной лазерной реконструкции межпозвонковых дисков при лечении больных с дегенеративными заболеваниями позвоночника // Нейрохирургия. 2009. № 1. С. 80.

3. Басков В.А. Применение лазерных технологий в лечении дегенеративных заболеваний межпозвонковых дисков: автореф. дис.. канд. мед. наук. М., 2010. 24 с.

4. Лазерная инженерия хрящей / под ред. В.Н. Баграташвили [и др.] М.: Физматлит, 2006. 488 с.

5. Омельченко А.И., Соболь Э.Н., Баграташвили В.Н. [и др.] Изменение механических свойств хрящевой ткани при неразрушающем лазерном воздействии // Перспективные материалы. 1999. № 3. С. 56-63.

6. Соболь Э.Н., Басков A.B., Свиридов А.П. [и др.] Технология и оборудование для лазерной реконструкции межпозвонковых дисков // Альманах клинической медицины. 2008. Т. 17, № 2. С. 242-245.

7. Шехтер А.Б., Басков B.A., Захаркина О.Л. [и др.] Моделирование дегенеративных изменений межпозвонковых дисков (остеохондроза) у кроликов: макроскопическое и гистологическое изучение // Биомедицина. 2009. № 2. С. 41-69.

8. Шехтер, А.Б., Соболь Э.Н., Мусалатов Х.О. [и др.] Изменение структуры и регенерация суставного хряща при неабляционном воздействии лазерного излучения с длинами волн 2,09 и 1,56 мкм // Лазерная медицина. 2001. Т. 5, № 4. С. 27-31.

9. Ahlgren B.D., Lui W., Herkowitz H.N. [et al.] Effect of annular repair on the healing strength of the intervertebral disc: A sheep model // Spine. 2000. Vol. 25. P. 2165-2170.

10. Aizawa T., Ozawa H., Kusakabe T. [et al.] Reoperation for recurrent lumbar disc herniation: a study over a 20-year period in a Japanese population // J. Orthop. Sci. 2012. Vol. 17, No. 2. P. 107-113.

11. Akmal M., Kesani A., Anand B. [et al.] Effect of nicotine on spinal disc cells: a cellular mechanism for disc degeneration // Spine. 2004. Vol. 29. P. 568-575.

12. An H.S., Silveri C.P., Simpson J.M. [et al.] Comparison of smoking habits between patients with surgically confirmed herniated lumbar and cervical disc disease and controls // J. Spinal Disord. 1994. Vol. 7. P. 369-373.

13. Arestov S.O., Gushcha A.O., Kashcheev A.A. Specific features of technique and long-term results of portal endoscopic procedures in lumbosacral disk herniations // Zh. Vopr. Neirokhir. Im. N.N. Burdenko. 2011. Vol. 75, No. 1. P. 27-33.

14. Asch H.L., Lewis P.J., Moreland D.B. [et al.] Prospective multiple outcomes study of outpatient lumbar microdiscectomy: should 75 to 80 % success rates be the norm? // J. Neurosurg. 2002. Vol. 96, No. 1 (Suppl). P. 34-44.

15. Babar S., Saifuddin A. MRI of the post-discectomy lumbar spine // Clin. Radiol. 2002 Vol. 57, No. 11. P. 969-981.

16. Bailey A., Araghi A., Blumenthal S. [et al.] Anular Repair Clinical Study Group. Prospective, multicenter, randomized, controlled study of anular repair in lumbar discectomy: two-year follow-up // Spine. 2013. Vol. 38. P. 1161-1169.

17. Baliga S., Treon K., Craig N.J. A low back pain: current surgical approaches // Asian Spine Journal. 2015. Vol. 9, No. 4. P. 645-657.

18. Barth M., Weiss C., Thomé C. Two-year outcome after lumbar microdiscectomy versus microscopic sequestrectomy: part 1: evaluation of clinical outcome // Spine. 2008. Vol. 33, No. 3. P. 265-272.

19. Bouma G.J., Barth M., Ledic D. [et al.] The high-risk discectomy patient: prevention of reherniation in patients with large anular defects using an anular closure device // Eur. Spine J. 2013. Vol. 22, No. 5. P. 1030-1036.

20. Bowles R.D., Williams R.M., Zipfel W.R. [et al.]. Self-assembly of aligned tissue-engineered annulus fibrosus and intervertebral disc composite via collagen gel contraction // Tissue Eng. Part A. 2010. Vol. 16. P. 1339-1348.

21. Breivik H., Collett B., Ventafridda V. [et al.] Survey of chronic pain in Europe: prevalence, impact on daily life, and treatment // Eur. J. Pain. 2006. Vol. 10. P. 287-333.

22. Bron J.L., Helder M.N., Meisel H.J. [et al.] Repair, regenerative and supportive therapies of the annulus fibrosus: achievements and challenges // Eur. Spine J. 2009. Vol. 18, No. 3. P. 301-313.

23. Carragee E.J., Han M.Y., Suen P.W [et al.] Clinical outcomes after lumbar discectomy for sciatica: the effects of fragment type and anular competence // J. Bone Joint Surg. Am. 2003. Vol. 85. P. 102-108.

24. Carragee E.J., Han M.Y., Yang B. [et al.] Activity restrictions after posterior lumbar discectomy. A prospective study of outcomes in 152 cases with no postoperative restrictions // Spine. 1999. Vol. 24. P. 2346-2351.

25. Carragee E.J., Spinnickie A.O., Alamin T.F. [et al.] A prospective controlled study of limited versus subtotal posterior discectomy: short-term outcomes in patients with herniated lumbar intervertebral discs and large posterior anular defect // Spine. 2006. Vol. 31. P. 653-657.

26. Cinotti G., Roysam G.S., Eisenstein S.M. [et al.] Ipsilateral recurrent lumbar disc herniation. A prospective, controlled study // J. Bone Joint Surg. Br. 1998. Vol. 80. P. 825-832.

27. Dunsker S.B.: Comment on Cobanoglu S. et al.: Complication of epidural fat graft in lumbar spine disc surgery: Case report // Surg. Neurol. 1995. Vol. 44. P. 481-482.

28. Eloqayli H., Al-omari M. Percutaneous discectomy: minimally invasive method for treatment of recurrent lumbar disc herniation // Clin. Neurol. Neurosurg. 2012. Vol. 114. P. 871-875.

29. Grunhagen T., Wilde G., Soukane D.M. [et al.] Nutrient supply and intervertebral disc metabolism // J. Bone Joint Surg. Am. 2006. Vol. 88. P. 30-35.

30. Guterl C.C., See E.Y., Blanquer S.B. [et al.] Challenges and strategies in the repair of ruptured annulus fibrosus // European cells & materials. 2013. Vol. 25. P. 1-21.

31. Haughton V., Schreibman K., De Smet A. Contrast between scar and recurrent herniated disk on contrast-enhanced MR images // AJNR Am. J. Neuroradiol. 2002. Vol. 23, No. 10. P. 1652-1656.

32. Herkowitz H.N., Garfin S.R., Eismont F.J. [et al.], eds. Rothman simeone the spine. 6th edition // Philadelphia: Elsevier Saunders. 2011. P. 905-907.

33. Holm S., Nachemson A. Nutrition of the intervertebral disc: acute effects of cigarette smoking. An experimental animal study // Ups. J. Med. Sci. 1988. Vol. 93. P. 91-99.

34. Hsu J.S., Liu G.C., Chen S.H. [et al.] Ionic versus nonionic paramagnetic contrast media in differentiating between postoperative scar and recurrent disk // AJNR. 2004. Vol. 25, No. 6. P. 1110-1115.

35. Ignatieva N., Zakharkina O., Andreeva I. [et al.] Effects of laser irradiation on collagen organization in chemically induced degenerative annulus fibrosus of lumbar intervertebral disc // Lasers Surg. Med. 2008. Vol. 40, No. 6. P. 422-432.

36. Jansson K.A., Németh G., Granath F. [et al.] Health-related quality of life in patients before and after surgery for a herniated lumbar disc // J. Bone Joint Surg. Br. 2005 Vol. 87, No. 7. P. 959-964.

37. Jones N., Sviridov A., Sobol E. [et al.] A prospective randomized study of laser reshaping of cartilage in vivo // Lasers Med. Sci. 2001. Vol. 16, No. 4. P. 284-290.

38. Kelsey J.L., Githens P.B., O’Conner T. [et al.] Acute prolapsed lumbar intervertebral disc. An epidemiologic study with special reference to driving automobiles and cigarette smoking // Spine. 1984. Vol. 9, No. 6. P. 608-613.

39. Kreiner D.S., Hwang S.W., Easa J.E. [et al.] An evidence-based clinical guideline for the diagnosis and treatment of lumbar disc herniation with radiculopathy // Spine J. 2014. Vol. 14. P. 180-191.

40. Lee C.R., Sakai D., Nakai T. [et al.] A phenotypic comparison of intervertebral disc and articular cartilage cells in the rat // Eur. Spine J. 2007. Vol. 16. P. 2174-2185.

41. Lee J.K., Amorosa L., Cho S.K. [et al.] Recurrent lumbar disk herniation // J. Am. Acad. Orthop. Surg. 2010. Vol. 18, No. 6. P. 327-337.

42. Lequin M.B., Barth M., Thomé C. [et al.] Primary limited lumbar discectomy with an annulus closure device: one-year clinical and radiographic results from a prospective, multi-center study // Korean J. Spine. 2012. Vol. 9, No. 4. P. 340-347.

43. McGirt M.J., Ambrossi G.L., Datoo G. [et al.] Recurrent disc herniation and long-term back pain after primary lumbar discectomy: review of outcomes reported for limited versus aggressive disc removal // Neurosurgery. 2009. Vol. 64, No. 2. P. 338-344.

44. McKenzie R., May S. The lumbar spine: mechanical diagnosis and therapy // Wellington: Spinal Publications. 2003. P. 23.

45. Miwa S., Yokogawa A., Kobayashi T. [et al.] Risk factors of recurrent lumbar disk herniation: a single center study and review of the literature // J. Spinal Disord. Tech. 2015. Vol. 28, No. 5. P. 265-269.

46. Nerurkar N.L., Elliott D.M., Mauck R.L. Mechanics of oriented electrospun nanofibrous scaffolds for annulus fibrosus tissue engineering // J. Orthop. Res. 2007. Vol. 25. P. 1018-1028.

47. Patel N. Surgical disorders of the thoracic and lumbar spine: a guide for neurologists // J. Neurol. Neurosurg. Psychiatry. 2002. Vol. 73. P. 42-48.

48. Ran J., Hu Y., Zheng Z. [et al.] Comparison of discectomy versus sequestrectomy in lumbar disc herniation: a meta-analysis of comparative studies // PLoS ONE. 2015. Vol. 10, No. 3.

49. Sato M., Kikuchi M., Ishihara M. [et al.] Tissue engineering of the intervertebral disc with cultured annulus fibrosus cells using atelocollagen honeycomb-shaped scaffold with a membrane seal (ACHMS scaffold) // Med. Biol. Eng. Comput. 2003. Vol. 41. P. 365-371.

50. Shamji M.F., Bains I., Yong E. [et al.] Treatment of herniated lumbar disk by sequestrectomy or conventional diskectomy // World Neurosurg. 2014. Vol. 82, No. 5. P. 879-883.

51. Shimia M., Babaei-Ghazani A., Sadat B.E. [et al.] Risk factors of recurrent lumbar disk herniation // Asian J. Neurosurg. 2013. Vol. 8, No. 2. P. 93-96.

52. Sobol E., Shekhter A., Guller A. [et al.] Laser regeneration of spine discs cartilage: mechanism, in vivo study and clinical application // Light-Activated Tissue Regeneration and Therapy: Proceedings of Conference. Springer. 2008. P. 259-266.

53. Sobol Е., Zakharkina О., Baskov A. [et al.] Laser engineering of spine discs // Laser Physics. 2009. No. 4. P. 1-11.

54. Sviridov A., Sobol E., Jones N.S., Lowe J. Effect of holmium laser radiation 011 stress, temperature and structure alterations in cartilage // Lasers in Medical Science. 1998. Vol. 13. P. 73-77.

55. Urban J.P., Smith S., Fairbank J.C. Nutrition of the intervertebral disc // Spine (Phila Pa 1976). 2004. Vol. 29. P. 2700-2709.

56. Vik A., Zwart J.A., Hulleberg G. [et al.] Eight year outcome after surgery for lumbar disc herniation: a comparison of reoperated and not reoperated patients // Acta Neurochir. (Wien). 2001. Vol. 143, No. 6. P. 607-611.

57. Wang Y.H., Kuo T.F., Wang J.L. The implantation of non-cell-based materials to prevent the recurrent disc herniation: An in vivo porcine model using quantitative discomanometry examination // Eur. Spine J. 2007. Vol. 16. P. 1021-1027.

58. Wera G.D., Dean C.L., Ahn U.M. [et al.] Reherniation and failure after lumbar discectomy: a comparison of fragment excision alone versus subtotal discectomy // J. Spinal Disord. Tech. 2008. Vol. 21, No. 5. P. 316-319.

59. Wilke H.J., Ressel L., Heuer F. [et al.] Can prevention of a reherniation be investigated? Establishment of a herniation model and experiments with an anular closure device // Spine. 2013. Vol. 38, No. 10. P. 587-593.

60. Woolf A.D., Pfleger B. Burden of major musculoskeletal conditions // Bull. World Health Organ. 2003. Vol. 81. P. 646-656.

61. Yoo M.W., Hyun S.J., Kim K.J. [et al.] Does obesity make an influence on surgical outcomes following lumbar microdiscectomy? // Korean J. Spine. 2014. Vol. 11, No. 2. P. 68-73.

62. Yurube T., Takada T., Suzuki T. [et al.] Rat tail static compression model mimics extracellular matrix metabolic imbalances of matrix metalloproteinases, aggrecanases, and tissue inhibitors of metalloproteinases in intervertebral disc degeneration // Arthritis Res. Ther. 2012. Vol. 14. P. 51.

63. Zhang Y., Anderson D.G., Phillips F.M. [et al.] Comparative effects of bone morphogenetic proteins and Sox9 overexpression on matrix accumulation by bovine anulus fibrosus cells: implications for anular repair // Spine. 2007. Vol. 32. P. 2515-2520.