Use of platelet-rich plasma for bioplastic processes stimulation after arthroscopic reconstruction of anterior cruciate ligament (review)

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Abstract

Based on the analysis of the scientific publications, the authors analyzed the possibilities and effectiveness of platelet- rich plasma (PRP) application as a stimulator of engraftment and biological transformation of tendinous autografts and allografts after arthroscopic reconstruction of knee anterior cruciate ligament. The topic of impossibility of spontaneous recovery of torn anterior cruciate ligament of knee, and describe the staging of biological incorporation of tendinous transplant in a bone wall was discussed. The authors presented methods and techniques of accelerating engraftment of free tendinous graft into bone channels described in the literature and the difference of terms of remodeling the autografts and allografts. The effect of different techniques of sterilization and preservation of tendinous allografts on the change of their biological properties was disclosed.

About the authors

A. V. Rybin

Vreden Russian Research Institute of Traumatology and Orthopedics

Author for correspondence.
Email: bynya@list.ru
Россия

I. A. Kuznetsov

Vreden Russian Research Institute of Traumatology and Orthopedics; Mechnikov Northwestern State Medical University

Email: noemail@neicon.ru
Россия

G. I. Netylko

Vreden Russian Research Institute of Traumatology and Orthopedics

Email: noemail@neicon.ru
Россия

V. P. Rumakin

Vreden Russian Research Institute of Traumatology and Orthopedics

Email: noemail@neicon.ru
Россия

Y. A. Rykov

Vreden Russian Research Institute of Traumatology and Orthopedics

Email: noemail@neicon.ru
Россия

References

  1. Рыков Ю.А. Сравнительная оценка морфологической эволюции сухожильных и костных аллотрансплантатов, заготовленных разными способами. Травматология и ортопедия России. 2010; (1):172-174.
  2. Савельев В.И., Кузнецов И.А., Солодов И.А., Калинин А.В. Заготовка и опыт клинического применения сухожильных аллотранплантатов, стерилизованных газообразной окисью этилена. В кн.: Новые технологии в медицине. Ч. 2. Курган; 2000. С. 39-40.
  3. Савельев В.И., Корнилов Н.В., Иванкин Д.Е., Линник С.А. Аллотрансплантация формалинизированной костной ткани в травматологии и ортопедии. СПб.: МОРСАР АВ; 2001. 207 с.
  4. Серебряк Т.В. Артроскопическая реконструкция передней крестообразной связки с использованием различных сухожильных трансплантатов: дис.. канд. мед. наук. СПб.; 2012. 265 с.
  5. Amiel D., Kleiner J.B., Roux R.D. et al. The phenomenon of «ligamentization»: anterior cruciate ligament reconstruction with autogenous patellar tendon. J Orthop Res. 1986; 4:162-172.
  6. Amiel D., Nagineni C.N., Choi S.H., Lee J. Intrinsic properties of ACL and MCL cells and their responses to growth factors. Med Sci Sports Exerc. 1995; 27:844-851.
  7. Amis M., Dawkins G.P.C. Functional anatomy of the anterior cruciate ligament. Fibre bundle actions related to ligament replacements and injuries. J Bone Joint Surg. 1991; 73(1):260-267.
  8. Andersen R.B., Gormsen J. Fibrin dissolution in synovial fluid. Acta Rheumatol Scand. 1970; 16(4):319-333.
  9. Anderson K., Seneviratne A., Izawa K. et al. Augmentation of tendon healing in an intraarticular bone tunnel with use of a bone growth factor. Am J Sports Med. 2001; 29:689-698.
  10. Anitua E., Andia I., Ardanza B. et al. Autologous platelets as a source of proteins for healing and tissueregeneration. Thromb Haemost. 2004; 91:4-15.
  11. Anitua E., Sanchez M., Orive G., Andia I. Shedding light in the controversial terminology for platelet rich products. J Biomed Mater Res. 2009; 90:1262-1263.
  12. Arnoczky S.P., Anderson L., Fanelli G. The role of platelet- rich plasma in connective tissue repair. Orthopedics Today. 2009; 26:29.
  13. Benhardt H.A., Cosgriff-Hernandez E.M. The role of mechanical loading in ligament tissue engineering. Tissue Engineering Part B. 2009; 15(4):467-475.
  14. Benjamin M.T, Evans E., Copp D. The histology of tendon attachments to bone in man. J Anat. 1986; 149:89-100.
  15. Brand J., Weiler A., Caborn D.N. et al. Graft fixation in cruciate ligament reconstruction. Am J Sports Med. 2000; 28:761-774.
  16. Bray R.C., Leonard C.A., Salo P.T. Vascular physiology and longterm healing of partial ligament tears. J Orthop Res. 2002; 20:984-989.
  17. Caborn D.M., Selby J.B. Allograft anterior tibialis tendon with bioabsorbable interference screw fixation in anterior cruciate ligament reconstruction. Arthroscopy. 2002; 18:102-105.
  18. Carson E.W. Fact, myth, or common sense: anterior cruciate ligament reconstruction graft selection. Orthopedics. 1999; 22(6):145-151.
  19. Chih-Hwa C. Graft healing in anterior cruciate ligament reconstruction. Sports Med, Arthroscopy, Rehabilitation, Therapy & Technology. 2009; 1:21.
  20. Cugat R., Cusco X., Seijas R., Alvarez P., Steinbacher G., Ares O., Wang-Saegusa A., Garcia-Balletbo M. Biologic enhancement of cartilage repair: the role of platelet-rich plasma and other commercially available growth factors. Arthroscopy. 2015;31(4):777-783.
  21. Ekdahl M., Wang J.H., Ronga M., Fu F.H. Graft healing in anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc. 2008; 16:935-947.
  22. Frank C., Amiel D., Akeson W.H. Healing of the medial collateral ligament of the knee. A morphological and biochemical assessment in rabbits. Acta Orthop Scand. 1983; 54:917-923.
  23. Harner C.D., Olson E., Irrgang J.J. et al. Allograft versus autograft anterior cruciate ligament reconstruction: 3- to 5-year outcome. Clin Orthop. 1996; 324:134-144.
  24. Huangfu X., Zhao J. Tendon-bone healing enhancement using injectable tricalcium phosphate in a dog anterior cruciate ligament reconstruction model. Arthroscopy. 2007; 23:455-462.
  25. Hussein M., Van Eck C.F., Cretnik A. et al. Prospective Randomized Clinical Evaluation of Conventional SingleBundle, Anatomic Single-Bundle, and Anatomic DoubleBundle Anterior Cruciate Ligament Reconstruction: 281 Cases With 3- to 5 Year Follow-up. Am J Sports Med. 2012; 40:512-520.
  26. Jackson D.W., Grood E.S., Goldstein J.D.et al. A comparison of patellar tendon autograft and allograft used for anterior cruciate ligament reconstruction in the goat model. Am J Sports Med. 1993; 21(2):176-185.
  27. Johnson D.H., Houle J.B., Almazan A. Comparison of intraoperative AP translation of two different modes of fixation of the grafts used in ACL reconstruction. Arthroscopy. 1998; 14:425.
  28. Ju Y.J., Muneta T., Yoshimura H. et al. Synovial mesenchymal stem cells accelerate early remodeling of tendon-bone healing. Cell Tissue Res. 2008; 332:469-478.
  29. Kimberly A.T., Mark D.M. What’s New in Sports Medicine. AmJ Sports Med. 2008; 36:211-222.
  30. Lee B.I., Kwon S.W., Kim J.B. et al. Comparison of clinical results according to amount of preserved remnant in arthroscopic anterior cruciate ligament reconstruction using quadrupled hamstring graft. Arthroscopy. 2008; 24(5):560-568.
  31. Lee J., Green M.H., Amiel D. Synergistic effect of growth factors on cell outgrowth from explants of rabbit anterior cruciate and medial collateral ligaments. Journal of Orthopaedic Research. 1995; 13(3):435-441.
  32. Lopez-Vidriero E., Krista A.G., David A.S. et al. The Use of Platelet-Rich Plasma in Arthroscopy and Sports Medicine: Optimizing the Healing Environment. Arthroscopy. 2010; 26(2):269-278.
  33. Magnussen R.A., Flanigan D.C., Pedroza A.D. et al. Platelet rich plasma use in allograft ACL reconstructions: Two-year clinical results of a MOON cohort study. Knee. 2013; 20 (4):277-280.
  34. Marrale J. A., Morrissey M.C., Haddad F.S. Literature review of autograft and allograft cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc. 2007; 15:690-704.
  35. Matsumoto T., Ingham S.M., Mifune Y. et al. Isolation and characterization of human anterior cruciate ligament- derived vascular stem cells. Stem Cells and Dev. 2012; 21(6):859-872.
  36. Mirzatolooei F., Alamdari M.T., Khalkhali H.R. The impact of platelet-rich plasma on the prevention of tunnel widening in anterior cruciate ligament reconstruction using quadrupled autologous hamstring tendon: A randomised clinical trial. Bone Joint J. 2013; 95-B(1):65-69.
  37. Murray M.M., Martin S.D., Martin T.L., Spector M. Histological changes in the human anterior cruciate ligament after rupture. J Bone Joint Surg Am. 2000; 82:1387-1397.
  38. Murray M.M., Spector M. The migration of cells from the ruptured human anterior cruciate ligament into collagen- glycosaminoglycan regeneration templates in vitro. Biomaterials. 2001; 22(17):2393-2402.
  39. Murray M.M. The potential for primary repair of the ACL. Sports Med Arthrosc. 2011; 19(1):44-49.
  40. Nebelung W., Becker R., Urbach D. et al. Histological findings of tendon-bone healing following anterior cruciate ligament reconstruction with hamstring grafts. Arch Orthop Trauma Surg. 2003; 123:158-163.
  41. Nin J.R., Gasque G.M., Azcarate A.V. et al. Has platelet- rich plasma any role in anterior cruciate ligament allograft healing? Arthroscopy. 2009; 25(11):1206-1213.
  42. Pascher A., Steinert A.F., Palmer G.D. et al. Enhanced repair of the anterior cruciate ligament by in situ gene transfer: evaluation in an in vitro model. Molecular Therapy. 2004; 10(2):327-336.
  43. Radice F, Yanez R., Gutierrez V. et al. Comparison of magnetic resonance imaging findings in anterior cruciate ligament grafts with and without autologous platelet- derived growth factors. Arthroscopy. 2010; 26(1):50-57.
  44. Sanchez M., Azofra J., Aizpurua B. et al. Use of autologous plasma rich in growth factors inarthroscopic surgery. Cuad Artrosc. 2003; 10:12-19.
  45. Sanchez M., Anitua E., Azofra J. Ligamentization of Tendon Grafts Treated With an Endogenous Preparation Rich in Growth Factors: Gross Morphology and Histology. Arthroscopy. 2010; 26(4):470-480.
  46. Sasaki K., Kuroda R., Ishida K. Enhancement of tendon- bone osteointegration of anterior cruciate ligament graft using granulocyte colony-stimulating factor. Am J Sports Med. 2008; 36(8):1519-1527.
  47. Scheffler S.U., Schmidt T., Gangey I. et al. Fresh-frozen free-tendon allografts versus autografts in anterior cruciate ligament reconstruction: delayed remodeling and inferior mechanical function during long-term healing in sheep. Arthroscopy. 2008; 24(4):448-458.
  48. Schmidt C.C., Georgescu H.I., Kwoh C.K. et al. Effect of growth factors on the proliferation of fibroblasts from the medial collateral and anterior cruciate ligaments. J Orthop Res. 1995; 13(2):184-190.
  49. Seijas R., Ares O., Catala J. et al. Magnetic resonance imaging evaluation of patellar tendon graft remodelling after anterior cruciate ligament reconstruction with or without platelet-rich plasma. J Orthop Surg (Hong Kong). 2013; 2(1):10-14.
  50. Shino K., Kawasaki T., Hirose H. et al. Replacement of the anterior cruciate ligament by an allogeneic tendon graft. An experimental study in the dog. J Bone Joint Surg Br. 1984; 66(5):672-681.
  51. Silva A., Sampaio R. Anatomic ACL reconstruction: does the platelet-rich plasma accelerate tendon healing? Knee Surg Sports Traumatol Arthrosc. 2009; 17:676-682.
  52. Vadala A., Iorio R., De Carl A. et al. Platelet-rich plasma: does it help reduce tunnel widening after ACL reconstruction? Knee Surg Sports Traumatol Arthrosc. 2013; 21(4):824-829.
  53. Walsh W.R., Stephens P., Vizesi F. et al. Effects of low- intensity pulsed ultrasound on tendon-bone healing in anintra-articular sheep knee model. Arthroscopy. 2007; 23:197-204.
  54. Weibrich G., Hansen T., Kleis W. et al. Effect of platelet concentration in platelet-rich plasma on periimplant bone regeneration. Bone. 2004; 34:665-671.
  55. Weiler A., Peters G., Maurer J. et al. Biomechanical properties and vascularity of an anteriorcruciate ligament graft can be predicted by contrast-enhanced magnetic resonance imaging. A two-year study in sheep. Am J Sports Med. 2001; 29:751-761.
  56. Weiler A., Sckeffler S., Apreleva M. Healing of ligaments and tendon to bone. In: Walsh W (ed) Repair and regeneration of ligaments, tendons, and joint capsule. 1st edn. Humana Press, New Jersey. 2006;201-231.
  57. Wiig M.E., Amiel D., Ivarsson M. et al. Type I procollagen gene expression in normal and early healing of the medial collateral and anterior cruciate ligaments in rabbits: an in situ hybridization study. J Orthop Res. 1991; 9(3):374-382.
  58. Yeh W.L., Lin S.S., Yuan L.J. et al. Effects ofhyperbaric oxygen treatment on tendon graft and tendon- boneintegration in bone tunnel: biochemical and histological analysis in rabbits. J Orthop Res. 2007; 25:636-645.
  59. Yilgor C., Yilgor H.P., Huri G. Tissue engineering strategies in ligament regeneration. Stem Cells Int. 2012;2012:374676. doi: 10.1155/2012/374676.
  60. Zhang C.L., Fan H.B., Xu H. et al. Histological comparison of fate of ligamentous insertion after reconstruction of anterior cruciate ligament: autograft vs. allograft. Chin J Traumatol. 2006; 9(2):72-76.

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