Change in Anterior Cruciate Ligament Graft Choice and Outcomes Over Time

To analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate. A prospective 2002-2008 database was used to identify risk factors for anterior cruciate ligament (ACL) retear. Subjects who had primary ACL retear with no history of contralateral sur...

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Published inArthroscopy Vol. 33; no. 11; pp. 2007 - 2014
Main Authors Kaeding, Christopher C., Pedroza, Angela D., Reinke, Emily K., Huston, Laura J., Hewett, Timothy E., Flanigan, David C., Parker, Richard D., Andrish, Jack T., Jones, Morgan H., Wright, Rick W., Matava, Matthew J., Brophy, Robert H., Marx, Robert G., McCarty, Eric C., Wolcott, Michelle L., Vidal, Armando F., Amendola, Annunziato, Wolf, Brian R., Dunn, Warren R., Spindler, Kurt P.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.11.2017
Subjects
Adolescent
Adult
Anterior Cruciate Ligament - surgery
Anterior Cruciate Ligament Injuries - surgery
Anterior Cruciate Ligament Reconstruction - adverse effects
Anterior Cruciate Ligament Reconstruction - methods
Bone Transplantation - adverse effects
Bone Transplantation - methods
Case-Control Studies
Female
Follow-Up Studies
Hamstring Muscles - transplantation
Humans
Male
Patellar Ligament - transplantation
Prospective Studies
Risk Factors
Transplantation, Autologous - adverse effects
Transplantation, Autologous - methods
Transplantation, Homologous - adverse effects
Transplantation, Homologous - methods
Transplants
Treatment Failure
Young Adult
Online AccessGet full text

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Abstract To analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate. A prospective 2002-2008 database was used to identify risk factors for anterior cruciate ligament (ACL) retear. Subjects who had primary ACL retear with no history of contralateral surgery and 2-year follow-up were included. Subjects who underwent a multiligament reconstruction were excluded. Graft type, age, sex, smoking status, body mass index, Marx activity level at index surgery, medial and lateral meniscus status at time of ACL retear, sport played after ACL reconstruction, and clinical site were evaluated. Analysis was repeated using 2002-2003 (early) and 2007-2008 (late) 2-year databases. Analysis of variance with post hoc analysis was performed to detect significant differences in age and Marx score by graft type over time. Two-year follow-up for graft failure was obtained on 2,497 of 2,692 (93%) subjects. There were 112 of 2,497 (4.5%) ACL retears identified at 2-year follow-up. The only predictor that changed between early/late periods was allograft use. Allograft odds ratio decreased from 13.1 to 9.5 (P < .01). Allografts were used in older patients (31-40 years) and with lower Marx scores (10-8) from early to late periods. The mean age of subjects who received bone–patellar tendon–bone autografts did not significantly change over time (22.8-23.5). The mean age of subjects who received hamstring autografts fell (27.9-25.5). The mean age of subjects who received allografts rose significantly (31.3-39.8, P < .01). The mean Marx score of subjects who received bone–patellar tendon–bone and hamstring autografts did not significantly change over time. The mean Marx score of subjects who received allografts decreased significantly (P < .01). After early recognition, allograft use in young active patients was a risk factor for retear; graft choice by surgeons changed in the late period to use of allografts in older and less-active patients, which correlated with a significant decrease in retear risk. Level III, case control study.
AbstractList To analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate. A prospective 2002-2008 database was used to identify risk factors for anterior cruciate ligament (ACL) retear. Subjects who had primary ACL retear with no history of contralateral surgery and 2-year follow-up were included. Subjects who underwent a multiligament reconstruction were excluded. Graft type, age, sex, smoking status, body mass index, Marx activity level at index surgery, medial and lateral meniscus status at time of ACL retear, sport played after ACL reconstruction, and clinical site were evaluated. Analysis was repeated using 2002-2003 (early) and 2007-2008 (late) 2-year databases. Analysis of variance with post hoc analysis was performed to detect significant differences in age and Marx score by graft type over time. Two-year follow-up for graft failure was obtained on 2,497 of 2,692 (93%) subjects. There were 112 of 2,497 (4.5%) ACL retears identified at 2-year follow-up. The only predictor that changed between early/late periods was allograft use. Allograft odds ratio decreased from 13.1 to 9.5 (P < .01). Allografts were used in older patients (31-40 years) and with lower Marx scores (10-8) from early to late periods. The mean age of subjects who received bone-patellar tendon-bone autografts did not significantly change over time (22.8-23.5). The mean age of subjects who received hamstring autografts fell (27.9-25.5). The mean age of subjects who received allografts rose significantly (31.3-39.8, P < .01). The mean Marx score of subjects who received bone-patellar tendon-bone and hamstring autografts did not significantly change over time. The mean Marx score of subjects who received allografts decreased significantly (P < .01). After early recognition, allograft use in young active patients was a risk factor for retear; graft choice by surgeons changed in the late period to use of allografts in older and less-active patients, which correlated with a significant decrease in retear risk. Level III, case control study.
To analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate.PURPOSETo analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate.A prospective 2002-2008 database was used to identify risk factors for anterior cruciate ligament (ACL) retear. Subjects who had primary ACL retear with no history of contralateral surgery and 2-year follow-up were included. Subjects who underwent a multiligament reconstruction were excluded. Graft type, age, sex, smoking status, body mass index, Marx activity level at index surgery, medial and lateral meniscus status at time of ACL retear, sport played after ACL reconstruction, and clinical site were evaluated. Analysis was repeated using 2002-2003 (early) and 2007-2008 (late) 2-year databases. Analysis of variance with post hoc analysis was performed to detect significant differences in age and Marx score by graft type over time.METHODSA prospective 2002-2008 database was used to identify risk factors for anterior cruciate ligament (ACL) retear. Subjects who had primary ACL retear with no history of contralateral surgery and 2-year follow-up were included. Subjects who underwent a multiligament reconstruction were excluded. Graft type, age, sex, smoking status, body mass index, Marx activity level at index surgery, medial and lateral meniscus status at time of ACL retear, sport played after ACL reconstruction, and clinical site were evaluated. Analysis was repeated using 2002-2003 (early) and 2007-2008 (late) 2-year databases. Analysis of variance with post hoc analysis was performed to detect significant differences in age and Marx score by graft type over time.Two-year follow-up for graft failure was obtained on 2,497 of 2,692 (93%) subjects. There were 112 of 2,497 (4.5%) ACL retears identified at 2-year follow-up. The only predictor that changed between early/late periods was allograft use. Allograft odds ratio decreased from 13.1 to 9.5 (P < .01). Allografts were used in older patients (31-40 years) and with lower Marx scores (10-8) from early to late periods. The mean age of subjects who received bone-patellar tendon-bone autografts did not significantly change over time (22.8-23.5). The mean age of subjects who received hamstring autografts fell (27.9-25.5). The mean age of subjects who received allografts rose significantly (31.3-39.8, P < .01). The mean Marx score of subjects who received bone-patellar tendon-bone and hamstring autografts did not significantly change over time. The mean Marx score of subjects who received allografts decreased significantly (P < .01).RESULTSTwo-year follow-up for graft failure was obtained on 2,497 of 2,692 (93%) subjects. There were 112 of 2,497 (4.5%) ACL retears identified at 2-year follow-up. The only predictor that changed between early/late periods was allograft use. Allograft odds ratio decreased from 13.1 to 9.5 (P < .01). Allografts were used in older patients (31-40 years) and with lower Marx scores (10-8) from early to late periods. The mean age of subjects who received bone-patellar tendon-bone autografts did not significantly change over time (22.8-23.5). The mean age of subjects who received hamstring autografts fell (27.9-25.5). The mean age of subjects who received allografts rose significantly (31.3-39.8, P < .01). The mean Marx score of subjects who received bone-patellar tendon-bone and hamstring autografts did not significantly change over time. The mean Marx score of subjects who received allografts decreased significantly (P < .01).After early recognition, allograft use in young active patients was a risk factor for retear; graft choice by surgeons changed in the late period to use of allografts in older and less-active patients, which correlated with a significant decrease in retear risk.CONCLUSIONSAfter early recognition, allograft use in young active patients was a risk factor for retear; graft choice by surgeons changed in the late period to use of allografts in older and less-active patients, which correlated with a significant decrease in retear risk.Level III, case control study.LEVEL OF EVIDENCELevel III, case control study.
Author Flanigan, David C.
Kaeding, Christopher C.
Huston, Laura J.
Matava, Matthew J.
Vidal, Armando F.
Wright, Rick W.
Wolf, Brian R.
Dunn, Warren R.
Pedroza, Angela D.
Brophy, Robert H.
Wolcott, Michelle L.
Hewett, Timothy E.
Jones, Morgan H.
Parker, Richard D.
Amendola, Annunziato
Spindler, Kurt P.
Reinke, Emily K.
Marx, Robert G.
Andrish, Jack T.
McCarty, Eric C.
AuthorAffiliation Mayo Clinic, Rochester, MN
OSU Sports Medicine, Jameson Crane Sports Medicine Institute, 2835 Fred Taylor Drive, Columbus, OH 43202
Vanderbilt Orthopaedic Institute, Vanderbilt University Medical Center, Nashville, Tennessee, USA
Department of Orthopaedics, The Ohio State University, Columbus Ohio
Department of Orthopaedic Surgery, The Cleveland Clinic Foundation, Cleveland Ohio
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Andrish, Jack T
McCarty, Eric C
Matava, Matthew J
Vidal, Armando F
Parker, Richard D
Brophy, Robert H
Dunn, Warren R
Amendola, Annunziato
Marx, Robert G
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MOON Knee group contributing authors Richard D. Parker, MD, Orthopaedic and Rheumatologic Institute, Cleveland Clinic Foundation, 5555 Transportation Blvd., Garfield Heights, OH 44125, parkerr@ccf.orgRick W. Wright, MD, Department of Orthopaedics, Washington University in St. Louis, 4921 Parkview Place, Suite 6A, St. Louis, MO 63110, rwwright1@aol.comJack T. Andrish, MD, Orthopaedic and Rheumatologic Institute, Cleveland Clinic Foundation, 5555 Transportation Blvd., Garfield Heights, OH 44125, andrisj@ccf.orgRobert G. Marx, MD, MSc, Department of Orthopaedics, Hospital for Special Surgery, 535 East 70th Street, New York, NY 10021, marxr@hss.eduEric C. McCarty, MD, Department of Orthopaedics, University of Colorado Denver, 311 Mapleton Avenue, Boulder, CO 80304, eric.mccarty@ucdenver.eduDavid C. Flanigan, MD, Department of Orthopaedics, The Ohio State University, 2050 Kenny Rd, Suite 3100, Columbus, OH 43221, David.Flanigan@osumc.eduAnnunziato Amendola, MD, Department of Orthopaedic Surgery, Duke University, 3475 Erwin Rd., Durham, NC 27710, ned.amendola@duke.eduMatthew J. Matava, MD, Department of Orthopaedics, Washington University in St. Louis, 4921 Parkview Place, Suite 6A, St. Louis, MO 63110, matavam@wudosis.wustl.eduBrian R. Wolf, MD, MS, Department of Orthopaedics and Rehabilitation, University of Iowa, 200 Hawkins Dr., 01008 JPP, Iowa City, IA 52242, brian-wolf@uiowa.eduWarren R. Dunn, MD, MPH, Department of Orthopaedics and Rehabilitation, University of Wisconsin School of Medicine and Public Health, 1685 Highland Avenue, UWMFCB – 6211, Madison, WI 53705, dunn@ortho.wisc.eduRobert H. Brophy, MD, Department of Orthopaedics, Washington University in St. Louis, 4921 Parkview Place, Suite 6A, St. Louis, MO 63110, brophyr@wudosis.wustl.eduMichelle L. Wolcott, MD, Department of Orthopaedics, University of Colorado Denver, 311 Mapleton Avenue, Boulder, CO 80304, michelle.wolcott@ucdenver.eduMorgan H. Jones, MD, MPH, Orthopaedic and Rheumatologic Institute, Cleveland Clinic Foundation, 5555 Transportation Blvd., Garfield Heights, OH 44125, JONESM7@ccf.orgArmando F. Vidal, MD, Department of Orthopaedics, University of Colorado Denver, 311 Mapleton Avenue, Boulder, CO 80304, armando.vidal@ucdenver.edu
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PublicationTitleAlternate Arthroscopy
PublicationYear 2017
Publisher Elsevier Inc
Publisher_xml – name: Elsevier Inc
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Snippet To analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate. A prospective 2002-2008 database was used...
To analyze failure rate in 2-year increments to determine if graft choice changed over time and graft failure rate.PURPOSETo analyze failure rate in 2-year...
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Aggregation Database
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StartPage 2007
SubjectTerms Adolescent
Adult
Anterior Cruciate Ligament - surgery
Anterior Cruciate Ligament Injuries - surgery
Anterior Cruciate Ligament Reconstruction - adverse effects
Anterior Cruciate Ligament Reconstruction - methods
Bone Transplantation - adverse effects
Bone Transplantation - methods
Case-Control Studies
Female
Follow-Up Studies
Hamstring Muscles - transplantation
Humans
Male
Patellar Ligament - transplantation
Prospective Studies
Risk Factors
Transplantation, Autologous - adverse effects
Transplantation, Autologous - methods
Transplantation, Homologous - adverse effects
Transplantation, Homologous - methods
Transplants
Treatment Failure
Young Adult
Title Change in Anterior Cruciate Ligament Graft Choice and Outcomes Over Time
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0749806317306357
https://dx.doi.org/10.1016/j.arthro.2017.06.019
https://www.ncbi.nlm.nih.gov/pubmed/28847572
https://www.proquest.com/docview/1933606207
https://pubmed.ncbi.nlm.nih.gov/PMC5794339
Volume 33
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