Clinical Review

Allografts for Ligament Reconstruction: Where Are We Now?

Am J Orthop. 2016 November;45(7):446-452

References

1. The American Orthopaedic Society for Sports Medicine. Allografts for ACL Reconstruction Survey Report. 2013. http://www.sportsmed.org/AOSSMIMIS/members/downloads/research/AllograftACLReconstructionSurveyReport.pdf. Accessed October 21, 2016.

3. Vaishnav S, Thomas Vangsness C Jr, Dellamaggiora R. New techniques in allograft tissue processing. Clin Sports Med. 2009;28(1):127-141.

4. Veen MR, Bloem RM, Petit PL. Sensitivity and negative predictive value of swab cultures in musculoskeletal allograft procurement. Clin Orthop Relat Res. 1994;(300):259-263.

5. McAllister DR, Joyce MJ, Mann BJ, Vangsness CT Jr. Allograft update: the current status of tissue regulation, procurement, processing, and sterilization. Am J Sports Med. 2007;35(12):2148-2158.

6. Mickiewicz P, Binkowski M, Bursig H, Wróbel Z. Preservation and sterilization methods of the meniscal allografts: literature review. Cell Tissue Bank. 2014;15(3):307-317.

7. Bui D, Lovric V, Oliver R, Bertollo N, Broe D, Walsh WR. Meniscal allograft sterilisation: effect on biomechanical and histological properties. Cell Tissue Bank. 2015;16(3):467-475.

8. Tomford WW, Starkweather RJ, Goldman MH. A study of the clinical incidence of infection in the use of banked allograft bone. J Bone Joint Surg Am. 1981;63(2):244-248.

9. Munting E, Faundez A, Manche E. Vertebral reconstruction with cortical allograft: long-term evaluation. Eur Spine J. 2001;10 Suppl 2:S153-S157.

10. Malinin TI, Buck BE, Temple HT, Martinez OV, Fox WP. Incidence of clostridial contamination in donors’ musculoskeletal tissue. J Bone Joint Surg Br. 2003;85(7):1051-1054.

11. Centers for Disease Control and Prevention (CDC). Update: allograft-associated bacterial infections--United States, 2002. MMWR Morb Mortal Wkly Rep. 2002;51(10):207-210.

12. Centers for Disease Control and Prevention (CDC). Invasive Streptococcus pyogenes after allograft implantation--Colorado, 2003. MMWR Morb Mortal Wkly Rep. 2003;52(48):1174-1176.

13. Hinsenkamp M, Muylle L, Eastlund T, Fehily D, Noël L, Strong DM. Adverse reactions and events related to musculoskeletal allografts: reviewed by the World Health Organisation project NOTIFY. Int Orthop. 2012;36(3):633-641.

14. Schratt HE, Regel G, Kiesewetter B, Tscherne H. HIV infection caused by cold preserved bone transplants. Unfallchirurg. 1996;99(9):679-684.

15. Tugwell BD, Patel PR, Williams IT, et al. Transmission of hepatitis C virus to several organ and tissue recipients from an antibody-negative donor. Ann Intern Med. 2005;143(9):648-654.

16. Sanzén L, Carlsson A. Transmission of human T-cell lymphotrophic virus type 1 by a deep-frozen bone allograft. Acta Orthop Scand. 1997;68(1):72-74.

17. US Department of Health and Human Services, Food and Drug Administration. Recommendations for donor screening, deferral, and product management to reduce the risk of transfusion-transmission of Zika virus. Guidance for industry. http://www.fda.gov/downloads/BiologicsBloodVaccines/GuidanceComplianceRegulatoryInformation/Guidances/Blood/UCM486360.pdf. Published February 2016. Accessed August 10, 2016.

18. Gottlob CA, Baker CL Jr, Pellissier JM, Colvin L. Cost effectiveness of anterior cruciate ligament reconstruction in young adults. Clin Orthop Relat Res. 1999;(367):272-282.

19. Fu F, Christel P, Miller MD, Johnson DL. Graft selection for anterior cruciate ligament reconstruction. Instr Course Lect. 2009;58:337-354.

20. Chechik O, Amar E, Khashan M, Lador R, Eyal G, Gold A. An international survey on anterior cruciate ligament reconstruction practices. Int Orthop. 2013;37(2):201-206.

21. Spindler KP, Kuhn JE, Freedman KB, Matthews CE, Dittus RS, Harrell FE Jr. Anterior cruciate ligament reconstruction autograft choice: bone-tendon-bone versus hamstring: does it really matter? A systematic review. Am J Sports Med. 2004;32(8):1986-1995.

22. Harner CD, Irrgang JJ, Paul J, Dearwater S, Fu FH. Loss of motion after anterior cruciate ligament reconstruction. Am J Sports Med. 1992;20(5):499-506.

23. Hu J, Qu J, Xu D, Zhou J, Lu H. Allograft versus autograft for anterior cruciate ligament reconstruction: an up-to-date meta-analysis of prospective studies. Int Orthop. 2013;37(2):311-320.

24. Jackson DW, Grood ES, Goldstein JD, 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.

25. Mroz TE, Joyce MJ, Steinmetz MP, Lieberman IH, Wang JC. Musculoskeletal allograft risks and recalls in the United States. J Am Acad Orthop Surg. 2008;16(10):559-565.

26. Malinin TI, Levitt RL, Bashore C, Temple HT, Mnaymneh W. A study of retrieved allografts used to replace anterior cruciate ligaments. Arthroscopy. 2002;18(2):163-170.

27. Foster TE, Wolfe BL, Ryan S, Silvestri L, Kaye EK. Does the graft source really matter in the outcome of patients undergoing anterior cruciate ligament reconstruction? An evaluation of autograft versus allograft reconstruction results: a systematic review. Am J Sports Med. 2010;38(1):189-199.

28. Lee GH, McCulloch P, Cole BJ, Bush-Joseph CA, Bach BR Jr. The incidence of acute patellar tendon harvest complications for anterior cruciate ligament reconstruction. Arthroscopy. 2008;24(2):162-166.

29. Marumoto JM, Mitsunaga MM, Richardson AB, Medoff RJ, Mayfield GW. Late patellar tendon ruptures after removal of the central third for anterior cruciate ligament reconstruction. A report of two cases. Am J Sports Med. 1996;24(5):698-701.

30 Milankov M, Kecojević V, Rasović P, Kovacević N, Gvozdenović N, Obradović M. Disruption of the knee extensor apparatus complicating anterior cruciate ligament reconstruction. Acta Chir Iugosl. 2013;60(2):13-21.

31. Atkinson TS, Atkinson PJ, Mendenhall HV, Haut RC. Patellar tendon and infrapatellar fat pad healing after harvest of an ACL graft. J Surg Res. 1998;79(1):25-30.

32. Tang G, Niitsu M, Ikeda K, Endo H, Itai Y. Fibrous scar in the infrapatellar fat pad after arthroscopy: MR imaging. Radiat Med. 2000;18(1):1-5.

34. Prodromos CC, Fu FH, Howell SM, Johnson DH, Lawhorn K. Controversies in soft-tissue anterior cruciate ligament reconstruction: grafts, bundles, tunnels, fixation, and harvest. J Am Acad Orthop Surg. 2008;16(7):376-384.

35. Sabat D, Kumar V. Nerve injury during hamstring graft harvest: a prospective comparative study of three different incisions. Knee Surg Sports Traumatol Arthrosc. 2013;21(9):2089-2095.

36. Kjaergaard J, Faunø LZ, Faunø P. Sensibility loss after ACL reconstruction with hamstring graft. Int J Sports Med. 2008;29(6):507-511.

37. Slone HS, Romine SE, Premkumar A, Xerogeanes JW. Quadriceps tendon autograft for anterior cruciate ligament reconstruction: a comprehensive review of current literature and systematic review of clinical results. Arthroscopy. 2015;31(3):541-554.

38. Nikolaou PK, Seaber AV, Glisson RR, Ribbeck BM, Bassett FH 3rd. Anterior cruciate ligament allograft transplantation. Long-term function, histology, revascularization, and operative technique. Am J Sports Med. 1986;14(5):348-360.

39. Arnoczky SP, Warren RF, Ashlock MA. Replacement of the anterior cruciate ligament using a patellar tendon allograft. An experimental study. J Bone Joint Surg Am. 1986;68(3):376-385.

40. Scheffler SU, Schmidt T, Gangéy I, Dustmann M, Unterhauser F, Weiler A. 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.

41. Muramatsu K, Hachiya Y, Izawa H. Serial evaluation of human anterior cruciate ligament grafts by contrast-enhanced magnetic resonance imaging: comparison of allografts and autografts. Arthroscopy. 2008;24(9):1038-1044.

42. Jackson DW, Grood ES, Arnoczky SP, Butler DL, Simon TM. Freeze dried anterior cruciate ligament allografts. Preliminary studies in a goat model. Am J Sports Med. 1987;15(4):295-303.

43. Chang SK, Egami DK, Shaieb MD, Kan DM, Richardson AB. Anterior cruciate ligament reconstruction: allograft versus autograft. Arthroscopy. 2003;19(5):453-462.

44. Poehling GG, Curl WW, Lee CA, et al. Analysis of outcomes of anterior cruciate ligament repair with 5-year follow-up: allograft versus autograft. Arthroscopy. 2005;21(7):774-785.

45. Kaeding CC, Pedroza AD, Reinke EK, Huston LJ; MOON Consortium, Spindler KP. Risk factors and predictors of subsequent ACL injury in either knee after ACL reconstruction: prospective analysis of 2488 primary ACL reconstructions from the MOON cohort. Am J Sports Med. 2015;43(7):1583-1590.

46. Kaeding CC, Aros B, Pedroza A, et al. Allograft versus autograft anterior cruciate ligament reconstruction: predictors of failure from a MOON prospective longitudinal cohort. Sports Health. 2011;3(1):73-81.

47. Lynch TS, Parker RD, Patel RM, et al. The impact of the Multicenter Orthopaedic Outcomes Network (MOON) research on anterior cruciate ligament reconstruction and orthopaedic practice. J Am Acad Orthop Surg. 2015;23(3):154-163.

48. Hettrich CM, Dunn WR, Reinke EK; MOON Group, Spindler KP. The rate of subsequent surgery and predictors after anterior cruciate ligament reconstruction: two- and 6-year follow-up results from a multicenter cohort. Am J Sports Med. 2013;41(7):1534-1540.

49. Steadman JR, Matheny LM, Hurst JM, Briggs KK. Patient-centered outcomes and revision rate in patients undergoing ACL reconstruction using bone-patellar tendon-bone autograft compared with bone-patellar tendon-bone allograft: a matched case-control study. Arthroscopy. 2015;31(12):2320-2326.

50. Lenehan EA, Payne WB, Askam BM, Grana WA, Farrow LD. Long-term outcomes of allograft reconstruction of the anterior cruciate ligament. Am J Orthop. 2015;44(5):217-222.

51. Noh JH, Yi SR, Song SJ, Kim SW, Kim W. Comparison between hamstring autograft and free tendon achilles allograft: minimum 2-year follow-up after anterior cruciate ligament reconstruction using EndoButton and Intrafix. Knee Surg Sports Traumatol Arthrosc. 2011;19(5):816-822.

52. Victor J, Bellemans J, Witvrouw E, Govaers K, Fabry G. Graft selection in anterior cruciate ligament reconstruction--prospective analysis of patellar tendon autografts compared with allografts. Int Orthop. 1997;21(2):93-97.

53. Kleipool AE, Zijl JA, Willems WJ. Arthroscopic anterior cruciate ligament reconstruction with bone-patellar tendon-bone allograft or autograft. A prospective study with an average follow up of 4 years. Knee Surg Sports Traumatol Arthrosc. 1998;6(4):224-230.

54. Peterson RK, Shelton WR, Bomboy AL. Allograft versus autograft patellar tendon anterior cruciate ligament reconstruction: a 5-year follow-up. Arthroscopy. 2001;17(1):9-13.

55. Edgar CM, Zimmer S, Kakar S, Jones H, Schepsis AA. Prospective comparison of auto and allograft hamstring tendon constructs for ACL reconstruction. Clin Orthop Relat Res. 2008;466(9):2238-2246.

56. Sun K, Tian S, Zhang J, Xia C, Zhang C, Yu T. Anterior cruciate ligament reconstruction with BPTB autograft, irradiated versus non-irradiated allograft: a prospective randomized clinical study. Knee Surg Sports Traumatol Arthrosc. 2009;17(5):464-474.

57. Leal-Blanquet J, Alentorn-Geli E, Tuneu J, Valentí JR, Maestro A. Anterior cruciate ligament reconstruction: a multicenter prospective cohort study evaluating 3 different grafts using same bone drilling method. Clin J Sport Med. 2011;21(4):294-300.

58. Sun K, Zhang J, Wang Y, et al. Arthroscopic reconstruction of the anterior cruciate ligament with hamstring tendon autograft and fresh-frozen allograft: a prospective, randomized controlled study. Am J Sports Med. 2011;39(7):1430-1438.

59. Lawhorn KW, Howell SM, Traina SM, Gottlieb JE, Meade TD, Freedberg HI. The effect of graft tissue on anterior cruciate ligament outcomes: a multicenter, prospective, randomized controlled trial comparing autograft hamstrings with fresh-frozen anterior tibialis allograft. Arthroscopy. 2012;28(8):1079-1086.

60. Guo L, Yang L, Duan XJ, et al. Anterior cruciate ligament reconstruction with bone-patellar tendon-bone graft: comparison of autograft, fresh-frozen allograft, and γ-irradiated allograft. Arthroscopy. 2012;28(2):211-217.

61. Lamblin CJ, Waterman BR, Lubowitz JH. Anterior cruciate ligament reconstruction with autografts compared with non-irradiated, non-chemically treated allografts. Arthroscopy. 2013;29(6):1113-1122.

62. Mayr HO, Willkomm D, Stoehr A, et al. Revision of anterior cruciate ligament reconstruction with patellar tendon allograft and autograft: 2- and 5-year results. Arch Orthop Trauma Surg. 2012;132(6):867-874.

63. Mariscalco MW, Magnussen RA, Mehta D, Hewett TE, Flanigan DC, Kaeding CC. Autograft versus nonirradiated allograft tissue for anterior cruciate ligament reconstruction: a systematic review. Am J Sports Med. 2014;42(2):492-499.

64. Mehta VM, Mandala C, Foster D, Petsche TS. Comparison of revision rates in bone-patella tendon-bone autograft and allograft anterior cruciate ligament reconstruction. Orthopedics. 2010;33(1):12.

66. Barrett GR, Luber K, Replogle WH, Manley JL. Allograft anterior cruciate ligament reconstruction in the young, active patient: tegner activity level and failure rate. Arthroscopy. 2010;26(12):1593-1601.

67. Reagan J, Kullar R, Burks R. MPFL reconstruction: technique and results. Clin Sports Med. 2014;33(3):501-516.

68. Christiansen SE, Jacobsen BW, Lund B, Lind M. Reconstruction of the medial patellofemoral ligament with gracilis tendon autograft in transverse patellar drill holes. Arthroscopy. 2008;24(1):82-87.

69. Schöttle PB, Fucentese SF, Romero J. Clinical and radiological outcome of medial patellofemoral ligament reconstruction with a semitendinosus autograft for patella instability. Knee Surg Sports Traumatol Arthrosc. 2005;13(7):516-521.

70. Deie M, Ochi M, Sumen Y, Adachi N, Kobayashi K, Yasumoto M. A long-term follow-up study after medial patellofemoral ligament reconstruction using the transferred semitendinosus tendon for patellar dislocation. Knee Surg Sports Traumatol Arthrosc. 2005;13(7):522-528.

71. Nomura E, Inoue M. Hybrid medial patellofemoral ligament reconstruction using the semitendinous tendon for recurrent patellar dislocation: minimum 3 years’ follow-up. Arthroscopy. 2006;22(7):787-793.

72. Nomura E, Inoue M. Surgical technique and rationale for medial patellofemoral ligament reconstruction for recurrent patellar dislocation. Arthroscopy. 2003;19(5):E47.

73. Hautamaa PV, Fithian DC, Kaufman KR, Daniel DM, Pohlmeyer AM. Medial soft tissue restraints in lateral patellar instability and repair. Clin Orthop Relat Res. 1998;(349):174-182.

74. Drez D Jr, Edwards TB, Williams CS. Results of medial patellofemoral ligament reconstruction in the treatment of patellar dislocation. Arthroscopy. 2001;17(3):298-306.

75. Fink C, Veselko M, Herbort M, Hoser C. MPFL reconstruction using a quadriceps tendon graft: part 2: operative technique and short term clinical results. Knee. 2014;21(6):1175-1179.

76. Calvo Rodríguez R, Figueroa Poblete D, Anastasiadis Le Roy Z, Etchegaray Bascur F, Vaisman Burucker A, Calvo Mena R. Reconstruction of the medial patellofemoral ligament: evaluation of the clinical results of autografts versus allografts. Rev Esp Cir Ortop Traumatol. 2015;59(5):348-353.

77. Becher C, Kley K, Lobenhoffer P, Ezechieli M, Smith T, Ostermeier S. Dynamic versus static reconstruction of the medial patellofemoral ligament for recurrent lateral patellar dislocation. Knee Surg Sports Traumatol Arthrosc. 2014;22(10):2452-2457.

78. Gomes JE. Comparison between a static and a dynamic technique for medial patellofemoral ligament reconstruction. Arthroscopy. 2008;24(4):430-435.

Bacterial Transmission

Clostridium species. Clostridium species are commonly found among intestinal flora. There is a general consensus that between 24 to 48 hours after death intestinal flora transmigrates into the surrounding tissue and blood. Therefore, a commonly accepted recommendation is that cadaveric tissue needs to be excised prior to 24 hours postmortem.¹⁰

In 2001, a 23-year-old man underwent reconstructive knee surgery with a femoral condyle allograft. A few days after surgery, he became septic and ultimately died from the infection. Clostridium sordellii was cultured from the tissue. Several days later, a 17-year-old boy underwent reconstructive knee surgery with a fresh femoral condyle and frozen meniscus from the same donor. Twenty-four hours after surgery, he developed a fever and was readmitted a week later for presumed infection and treated effectively with penicillin and ampicillin/sulbactam. Tissue from the same cadaveric donor had been transplanted into 7 other patients without reports of infection. In a 2002 Centers for Disease Control and Prevention (CDC) update report,¹¹ there were 26 total bacterial cases from allografts and 13 cases were attributed to Clostridium. Malinin and colleagues¹⁰ reviewed 795 consecutive cadaveric donors and found that 64 (8.1%) had positive cultures for Clostridia. Of all the positive cultures for Clostridia, 81.3% had positive blood cultures, 57.8% had positive bone marrow aspirate cultures, and 46.9% had positive tissue cultures. They concluded that multiple cultures are required for cadaveric tissue donors in order to reach a higher sensitivity for Clostridial contamination, and these should be done routinely to guide the sterilization process.

Strep species. In 2003, a 17-year-old boy underwent anterior cruciate ligament (ACL) reconstruction with a patellar tendon allograft.¹² About 1 week later, he was admitted for signs of infection and received intravenous antibiotics. He required surgical debridement, and intraoperative cultures grew Group A Streptococcus (GAS) that was also identified in the postmortem donor cultures. The tissues underwent processing in an antimicrobial solution and postprocessing cultures were negative for bacteria, but they were not sterilized. Tissues from this donor had been implanted in 5 other patients without report of infection. Following this event, recommendations have been made for prompt rejection of tissue with cultures positive for GAS, unless a sterilizing procedure is used.

Other bacteria. According to the 2002 CDC update, 11 of the 26 cases of bacterial infection reported to the agency were a combination of gram-negative bacilli, polymicrobial flora, or culture negative.¹¹

Viral Transmission

The most effective way to prevent transmission of a viral disease from allografts is thorough donor screening. Since the AATB implemented NAT in 2005 for HIV and HCV, there have been no reported cases of transmission.³ Even prior to this, regular blood screening along with social questionnaires completed by donors or donor families eliminated high-risk donors and significantly decreased the rate of transmission.

Human Immunodeficiency Virus. The first reported case of HIV transmission via implantation of allograft was in 1988. Further investigation revealed that there were 8 transmissions between 1984 and 1986, when routine screening of donors had not yet been implemented. The last reported case of HIV transmission occurred in 1996 with an untested donor.¹³Hepatitis C Virus. There are several reported cases of HCV transmission that occurred where the donors initially tested negative for HCV. In one case, 40 allografts from the same donor were transplanted over a period of nearly 2 years. This resulted in at least 8 patients being infected with HCV.¹⁴ Another case of HCV transmission was reported in 2005 after a patient developed acute HCV 6 weeks after transplantation of a patellar tendon allograft. Further investigation revealed that there had been 3 additional cases over a year from the same donor. Researchers determined that if the initial case had been reported, at least 3 transmissions could have been prevented.¹⁵Human T-cell Lymphotropic Virus (HTLV).The first reported transmission of HTLV was in 1991. This was reported in an asymptomatic patient who received a femoral head allograft from a donor who had been previously infected via a blood transfusion.¹⁶Zika virus. With recent outbreaks of the Zika virus, the FDA recently released recommendations regarding the screening and deferral of donors, mainly for blood transfusion. Orthopedists should take into consideration the potential for transmission through allografts. The FDA states that all potential donors should be screened for Zika virus using questionnaires and whole blood tests. Symptomatic donors are deferred at least 4 weeks following resolution of symptoms. While this is a recent recommendation from the FDA, orthopedists must be cognizant of the potential harms from this unfamiliar and evolving situation.¹⁷

Graft Specifics

Anterior Cruciate Ligament

ACL reconstruction is one of the most commonly performed surgeries by orthopedic surgeons, with an estimated 200,000 reconstructions per year.¹⁸Despite the popularity of this surgery, controversies remain regarding the optimal graft for reconstruction.^19,20 One would provide adequate strength, be readily available, not elicit an immunologic response from the host, rapidly incorporate, elicit low morbidity, and vascularize early. Current options include both autografts and allografts. Common autograft options include patellar bone-tendon-bone (PBTB), hamstrings tendon, quadriceps tendon, and iliotibial band. PBTB autograft remains a common choice among orthopedic surgeons, as it allows early incorporation of the graft into bone and eliminates immune rejection. However, donor site morbidity, including anterior knee pain, weakness of knee extension, joint stiffness, increased postoperative pain, and iatrogenic patella fractures, have been reported in the literature.²¹ Commonly used allograft options include donor bone-patellar tendon-bone, quadriceps tendon, Achilles tendon, anterior and posterior tibialis tendons, hamstring tendons, and iliotibial band. Allografts provide the advantage of avoiding donor site morbidity, being readily available, allowing for shorter operative times, and providing lower postoperative pain compared to autografts, although they carry the risk of disease transmission, rejection, and slower incorporation into bone.^22-27

References

2. US Department of Health and Human Services, Food and Drug Administration. Guidance for industry: Current good tissue practice (CGTP) and additional requirements for manufacturers of human cells, tissues, and cellular and tissue-based products (HCT/Ps). http://www.fda.gov/downloads/BiologicsBloodVaccines/GuidanceComplianceRegulatoryInformation/Guidances/Tissue/UCM285223.pdf. Published December 2011. Accessed August 17, 2015.

3. Vaishnav S, Thomas Vangsness C Jr, Dellamaggiora R. New techniques in allograft tissue processing. Clin Sports Med. 2009;28(1):127-141.

4. Veen MR, Bloem RM, Petit PL. Sensitivity and negative predictive value of swab cultures in musculoskeletal allograft procurement. Clin Orthop Relat Res. 1994;(300):259-263.

5. McAllister DR, Joyce MJ, Mann BJ, Vangsness CT Jr. Allograft update: the current status of tissue regulation, procurement, processing, and sterilization. Am J Sports Med. 2007;35(12):2148-2158.

6. Mickiewicz P, Binkowski M, Bursig H, Wróbel Z. Preservation and sterilization methods of the meniscal allografts: literature review. Cell Tissue Bank. 2014;15(3):307-317.

7. Bui D, Lovric V, Oliver R, Bertollo N, Broe D, Walsh WR. Meniscal allograft sterilisation: effect on biomechanical and histological properties. Cell Tissue Bank. 2015;16(3):467-475.

8. Tomford WW, Starkweather RJ, Goldman MH. A study of the clinical incidence of infection in the use of banked allograft bone. J Bone Joint Surg Am. 1981;63(2):244-248.

9. Munting E, Faundez A, Manche E. Vertebral reconstruction with cortical allograft: long-term evaluation. Eur Spine J. 2001;10 Suppl 2:S153-S157.

10. Malinin TI, Buck BE, Temple HT, Martinez OV, Fox WP. Incidence of clostridial contamination in donors’ musculoskeletal tissue. J Bone Joint Surg Br. 2003;85(7):1051-1054.

11. Centers for Disease Control and Prevention (CDC). Update: allograft-associated bacterial infections--United States, 2002. MMWR Morb Mortal Wkly Rep. 2002;51(10):207-210.

12. Centers for Disease Control and Prevention (CDC). Invasive Streptococcus pyogenes after allograft implantation--Colorado, 2003. MMWR Morb Mortal Wkly Rep. 2003;52(48):1174-1176.

13. Hinsenkamp M, Muylle L, Eastlund T, Fehily D, Noël L, Strong DM. Adverse reactions and events related to musculoskeletal allografts: reviewed by the World Health Organisation project NOTIFY. Int Orthop. 2012;36(3):633-641.

14. Schratt HE, Regel G, Kiesewetter B, Tscherne H. HIV infection caused by cold preserved bone transplants. Unfallchirurg. 1996;99(9):679-684.

15. Tugwell BD, Patel PR, Williams IT, et al. Transmission of hepatitis C virus to several organ and tissue recipients from an antibody-negative donor. Ann Intern Med. 2005;143(9):648-654.

16. Sanzén L, Carlsson A. Transmission of human T-cell lymphotrophic virus type 1 by a deep-frozen bone allograft. Acta Orthop Scand. 1997;68(1):72-74.

17. US Department of Health and Human Services, Food and Drug Administration. Recommendations for donor screening, deferral, and product management to reduce the risk of transfusion-transmission of Zika virus. Guidance for industry. http://www.fda.gov/downloads/BiologicsBloodVaccines/GuidanceComplianceRegulatoryInformation/Guidances/Blood/UCM486360.pdf. Published February 2016. Accessed August 10, 2016.

18. Gottlob CA, Baker CL Jr, Pellissier JM, Colvin L. Cost effectiveness of anterior cruciate ligament reconstruction in young adults. Clin Orthop Relat Res. 1999;(367):272-282.

19. Fu F, Christel P, Miller MD, Johnson DL. Graft selection for anterior cruciate ligament reconstruction. Instr Course Lect. 2009;58:337-354.

20. Chechik O, Amar E, Khashan M, Lador R, Eyal G, Gold A. An international survey on anterior cruciate ligament reconstruction practices. Int Orthop. 2013;37(2):201-206.

21. Spindler KP, Kuhn JE, Freedman KB, Matthews CE, Dittus RS, Harrell FE Jr. Anterior cruciate ligament reconstruction autograft choice: bone-tendon-bone versus hamstring: does it really matter? A systematic review. Am J Sports Med. 2004;32(8):1986-1995.

22. Harner CD, Irrgang JJ, Paul J, Dearwater S, Fu FH. Loss of motion after anterior cruciate ligament reconstruction. Am J Sports Med. 1992;20(5):499-506.

23. Hu J, Qu J, Xu D, Zhou J, Lu H. Allograft versus autograft for anterior cruciate ligament reconstruction: an up-to-date meta-analysis of prospective studies. Int Orthop. 2013;37(2):311-320.

24. Jackson DW, Grood ES, Goldstein JD, 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.

25. Mroz TE, Joyce MJ, Steinmetz MP, Lieberman IH, Wang JC. Musculoskeletal allograft risks and recalls in the United States. J Am Acad Orthop Surg. 2008;16(10):559-565.

26. Malinin TI, Levitt RL, Bashore C, Temple HT, Mnaymneh W. A study of retrieved allografts used to replace anterior cruciate ligaments. Arthroscopy. 2002;18(2):163-170.

27. Foster TE, Wolfe BL, Ryan S, Silvestri L, Kaye EK. Does the graft source really matter in the outcome of patients undergoing anterior cruciate ligament reconstruction? An evaluation of autograft versus allograft reconstruction results: a systematic review. Am J Sports Med. 2010;38(1):189-199.

28. Lee GH, McCulloch P, Cole BJ, Bush-Joseph CA, Bach BR Jr. The incidence of acute patellar tendon harvest complications for anterior cruciate ligament reconstruction. Arthroscopy. 2008;24(2):162-166.

29. Marumoto JM, Mitsunaga MM, Richardson AB, Medoff RJ, Mayfield GW. Late patellar tendon ruptures after removal of the central third for anterior cruciate ligament reconstruction. A report of two cases. Am J Sports Med. 1996;24(5):698-701.

30 Milankov M, Kecojević V, Rasović P, Kovacević N, Gvozdenović N, Obradović M. Disruption of the knee extensor apparatus complicating anterior cruciate ligament reconstruction. Acta Chir Iugosl. 2013;60(2):13-21.

31. Atkinson TS, Atkinson PJ, Mendenhall HV, Haut RC. Patellar tendon and infrapatellar fat pad healing after harvest of an ACL graft. J Surg Res. 1998;79(1):25-30.

32. Tang G, Niitsu M, Ikeda K, Endo H, Itai Y. Fibrous scar in the infrapatellar fat pad after arthroscopy: MR imaging. Radiat Med. 2000;18(1):1-5.

33. Unterhauser FN, Bosch U, Zeichen J, Weiler A. Alpha-smooth muscle actin containing contractile fibroblastic cells in human knee arthrofibrosis tissue. Winner of the AGA-DonJoy Award 2003. Arch Orthop Trauma Surg. 2004;124(9):585-591.

34. Prodromos CC, Fu FH, Howell SM, Johnson DH, Lawhorn K. Controversies in soft-tissue anterior cruciate ligament reconstruction: grafts, bundles, tunnels, fixation, and harvest. J Am Acad Orthop Surg. 2008;16(7):376-384.

35. Sabat D, Kumar V. Nerve injury during hamstring graft harvest: a prospective comparative study of three different incisions. Knee Surg Sports Traumatol Arthrosc. 2013;21(9):2089-2095.

36. Kjaergaard J, Faunø LZ, Faunø P. Sensibility loss after ACL reconstruction with hamstring graft. Int J Sports Med. 2008;29(6):507-511.

37. Slone HS, Romine SE, Premkumar A, Xerogeanes JW. Quadriceps tendon autograft for anterior cruciate ligament reconstruction: a comprehensive review of current literature and systematic review of clinical results. Arthroscopy. 2015;31(3):541-554.

38. Nikolaou PK, Seaber AV, Glisson RR, Ribbeck BM, Bassett FH 3rd. Anterior cruciate ligament allograft transplantation. Long-term function, histology, revascularization, and operative technique. Am J Sports Med. 1986;14(5):348-360.

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Allografts for Ligament Reconstruction: Where Are We Now?

References

Bacterial Transmission

Viral Transmission

Graft Specifics

Anterior Cruciate Ligament

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