Posterior-Medial Meniscal Root Repair Through Lateral Tibial Tunnel Combined With Medial Opening Osteotomy and Homologous Graft

When there is a rupture in the meniscal roots or close to them, the menisci suddenly and considerably reduce their capacity to absorb the axial mechanical load that passes through the knee, quickly leading to the development of a process of chondral degeneration. The varus deformity of the lower lim...

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Veröffentlicht in:	Arthroscopy techniques (Amsterdam) 2022-07, Vol.11 (7), p.e1321-e1333
Hauptverfasser:	Goes, Rodrigo Araújo, Cruz, Raphael Serra, Pavão, Douglas Mello, Vivacqua, Thiago Alberto, Campos, André Luiz Siqueira, Maia, Phelippe Augusto Valente, Salim, Rodrigo, Rocha de Faria, José Leonardo
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creator	Goes, Rodrigo Araújo Cruz, Raphael Serra Pavão, Douglas Mello Vivacqua, Thiago Alberto Campos, André Luiz Siqueira Maia, Phelippe Augusto Valente Salim, Rodrigo Rocha de Faria, José Leonardo
description	When there is a rupture in the meniscal roots or close to them, the menisci suddenly and considerably reduce their capacity to absorb the axial mechanical load that passes through the knee, quickly leading to the development of a process of chondral degeneration. The varus deformity of the lower limb (when the mechanical axis crosses the medial compartment of the knee) favors this type of injury owing to the overload in the medial compartment. When the patient has both varus deformity and medial meniscal posterior root injury, there is a clear indication for surgical realignment of the affected lower limb. There is still not a consensus regarding combining meniscal root repair with corrective osteotomy, although there is a tendency to perform both procedures aiming at long-term joint preservation. We present a safe alternative technique for simultaneous medial meniscal posterior root repair using a lateral tibial transosseous tunnel associated with a valgus-producing high tibial osteotomy with homologous bone grafting, allowing a full return to daily activities and sports. Video 1 Preoperative radiographs are presented for a 62-year-old female patient with sudden posteromedial pain after slouching down the stairs. The radiographs, without showing advanced signs of osteoarthritis, indicate asymmetrical varus of the right knee, with a correction angle of 7.5° planned on panoramic radiographs. Magnetic resonance imaging shows signs of a lesion of the posteromedial root of the medial meniscus. The material needed to perform suturing of the posteromedial root and placement of a single transtibial tunnel with a FlipCutter drill is shown. Initially, an anteromedial longitudinal incision is performed approximately 6 cm distal to the joint interline; subcutaneous dissection is performed and the hamstring tendons are identified and repaired; and release of the superficial medial collateral ligament is performed, with its distal insertion kept intact. Two parallel guidewires are introduced 4 cm distal from the joint line, directed to the fibular head. We begin the medial cortical osteotomy with an oscillating saw at a low rotation speed. We complete the remainder of the osteotomy with osteotomes, always remembering to preserve the lateral cortex. Using a spreader, we open the osteotomy at the degree predetermined during preoperative planning. We introduce a ContourLock plate with a predetermined wedge and start its fixation with the most posterior proximal screw. Aft
doi_str_mv	10.1016/j.eats.2022.03.017
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The varus deformity of the lower limb (when the mechanical axis crosses the medial compartment of the knee) favors this type of injury owing to the overload in the medial compartment. When the patient has both varus deformity and medial meniscal posterior root injury, there is a clear indication for surgical realignment of the affected lower limb. There is still not a consensus regarding combining meniscal root repair with corrective osteotomy, although there is a tendency to perform both procedures aiming at long-term joint preservation. We present a safe alternative technique for simultaneous medial meniscal posterior root repair using a lateral tibial transosseous tunnel associated with a valgus-producing high tibial osteotomy with homologous bone grafting, allowing a full return to daily activities and sports. Video 1 Preoperative radiographs are presented for a 62-year-old female patient with sudden posteromedial pain after slouching down the stairs. The radiographs, without showing advanced signs of osteoarthritis, indicate asymmetrical varus of the right knee, with a correction angle of 7.5° planned on panoramic radiographs. Magnetic resonance imaging shows signs of a lesion of the posteromedial root of the medial meniscus. The material needed to perform suturing of the posteromedial root and placement of a single transtibial tunnel with a FlipCutter drill is shown. Initially, an anteromedial longitudinal incision is performed approximately 6 cm distal to the joint interline; subcutaneous dissection is performed and the hamstring tendons are identified and repaired; and release of the superficial medial collateral ligament is performed, with its distal insertion kept intact. Two parallel guidewires are introduced 4 cm distal from the joint line, directed to the fibular head. We begin the medial cortical osteotomy with an oscillating saw at a low rotation speed. We complete the remainder of the osteotomy with osteotomes, always remembering to preserve the lateral cortex. Using a spreader, we open the osteotomy at the degree predetermined during preoperative planning. We introduce a ContourLock plate with a predetermined wedge and start its fixation with the most posterior proximal screw. After placement of the distal screw, the intermediate proximal screw and distal screws are positioned, leaving the proximal and anterior holes in the plate without screws. The images show the multi-use guide configured to perform placement of the posteromedial root tunnel, the allograft to be used, and the plate already positioned on the patient, as well as the lateral approach, already performed for positioning the multi-use guide. We identify the injured posteromedial root and position the guide via the lateral approach, with its end introduced into the joint through the anterolateral portal and positioned in the footprint of the posterior root of the medial meniscus. Using a 6-mm FlipCutter drill, we create the transtibial tunnel, preparing a 10-mm-deep bone bed for the root. A thread of Ethibond is left through the tibial tunnel for transport. We prepare the Knee Scorpion device, passing a meniscal suture thread with 2 symmetrical ends over its trigger. The clamp is positioned on the posteromedial root of the medial meniscus, perforating the meniscus, and we return it to the outside of the joint. We increase the loop formed by the suture thread. The loop is folded over itself twice, forming a double loop. We pass the free ends of the thread through the interior of the loop, and we pull both ends, reducing the double loop. We repeat these steps one more time, leaving 2 stitches at the root of the posteromedial meniscus. We pass the ends of the threads through the loop of the Ethibond thread, and we pull the Ethibond thread into the tibial tunnel, transporting the suture threads to the tibial tunnel and using a lateral approach. We fix the threads with an ABS button with multiple knots and then introduce the last proximal and anterior screw with a short length so as not to merge with the previous tunnel. We visualize the root before and after repair. The allograft is carefully introduced into the osteotomy. After the surgical procedure, the final radiologic appearance is observed. The postoperative aspect of the wound with 2 weeks of evolution is shown. Regarding the evolution of the patient, loading was started after 6 weeks postoperatively, with knee flexion increasing progressively. After the 10th week, the patient was already performing bipedal closed kinetic chain exercises, and after the 12th week, uni-podal exercises. After the 16th week, the patient started using a treadmill and elliptical machine and running in the sand, with an excellent postoperative recovery.</description><identifier>ISSN: 2212-6287</identifier><identifier>EISSN: 2212-6287</identifier><identifier>DOI: 10.1016/j.eats.2022.03.017</identifier><identifier>PMID: 35936854</identifier><language>eng</language><publisher>Elsevier</publisher><subject>Technical Note</subject><ispartof>Arthroscopy techniques (Amsterdam), 2022-07, Vol.11 (7), p.e1321-e1333</ispartof><rights>2022 The Authors 2022</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c2947-846bcdad5305aa3ff3f3ae90353bb088346b67b39b29e942d43497c5e5f3e66e3</citedby><cites>FETCH-LOGICAL-c2947-846bcdad5305aa3ff3f3ae90353bb088346b67b39b29e942d43497c5e5f3e66e3</cites><orcidid>0000-0002-3023-9181 ; 0000-0003-2412-6823 ; 0000-0002-3532-0472 ; 0000-0002-9400-4023 ; 0000-0002-1209-4425 ; 0000-0003-2635-1469</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC9353535/pdf/$$EPDF$$P50$$Gpubmedcentral$$Hfree_for_read</linktopdf><linktohtml>$$Uhttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC9353535/$$EHTML$$P50$$Gpubmedcentral$$Hfree_for_read</linktohtml><link.rule.ids>230,314,727,780,784,864,885,27923,27924,53790,53792</link.rule.ids></links><search><creatorcontrib>Goes, Rodrigo Araújo</creatorcontrib><creatorcontrib>Cruz, Raphael Serra</creatorcontrib><creatorcontrib>Pavão, Douglas Mello</creatorcontrib><creatorcontrib>Vivacqua, Thiago Alberto</creatorcontrib><creatorcontrib>Campos, André Luiz Siqueira</creatorcontrib><creatorcontrib>Maia, Phelippe Augusto Valente</creatorcontrib><creatorcontrib>Salim, Rodrigo</creatorcontrib><creatorcontrib>Rocha de Faria, José Leonardo</creatorcontrib><title>Posterior-Medial Meniscal Root Repair Through Lateral Tibial Tunnel Combined With Medial Opening Osteotomy and Homologous Graft</title><title>Arthroscopy techniques (Amsterdam)</title><description>When there is a rupture in the meniscal roots or close to them, the menisci suddenly and considerably reduce their capacity to absorb the axial mechanical load that passes through the knee, quickly leading to the development of a process of chondral degeneration. The varus deformity of the lower limb (when the mechanical axis crosses the medial compartment of the knee) favors this type of injury owing to the overload in the medial compartment. When the patient has both varus deformity and medial meniscal posterior root injury, there is a clear indication for surgical realignment of the affected lower limb. There is still not a consensus regarding combining meniscal root repair with corrective osteotomy, although there is a tendency to perform both procedures aiming at long-term joint preservation. We present a safe alternative technique for simultaneous medial meniscal posterior root repair using a lateral tibial transosseous tunnel associated with a valgus-producing high tibial osteotomy with homologous bone grafting, allowing a full return to daily activities and sports. Video 1 Preoperative radiographs are presented for a 62-year-old female patient with sudden posteromedial pain after slouching down the stairs. The radiographs, without showing advanced signs of osteoarthritis, indicate asymmetrical varus of the right knee, with a correction angle of 7.5° planned on panoramic radiographs. Magnetic resonance imaging shows signs of a lesion of the posteromedial root of the medial meniscus. The material needed to perform suturing of the posteromedial root and placement of a single transtibial tunnel with a FlipCutter drill is shown. Initially, an anteromedial longitudinal incision is performed approximately 6 cm distal to the joint interline; subcutaneous dissection is performed and the hamstring tendons are identified and repaired; and release of the superficial medial collateral ligament is performed, with its distal insertion kept intact. Two parallel guidewires are introduced 4 cm distal from the joint line, directed to the fibular head. We begin the medial cortical osteotomy with an oscillating saw at a low rotation speed. We complete the remainder of the osteotomy with osteotomes, always remembering to preserve the lateral cortex. Using a spreader, we open the osteotomy at the degree predetermined during preoperative planning. We introduce a ContourLock plate with a predetermined wedge and start its fixation with the most posterior proximal screw. After placement of the distal screw, the intermediate proximal screw and distal screws are positioned, leaving the proximal and anterior holes in the plate without screws. The images show the multi-use guide configured to perform placement of the posteromedial root tunnel, the allograft to be used, and the plate already positioned on the patient, as well as the lateral approach, already performed for positioning the multi-use guide. We identify the injured posteromedial root and position the guide via the lateral approach, with its end introduced into the joint through the anterolateral portal and positioned in the footprint of the posterior root of the medial meniscus. Using a 6-mm FlipCutter drill, we create the transtibial tunnel, preparing a 10-mm-deep bone bed for the root. A thread of Ethibond is left through the tibial tunnel for transport. We prepare the Knee Scorpion device, passing a meniscal suture thread with 2 symmetrical ends over its trigger. The clamp is positioned on the posteromedial root of the medial meniscus, perforating the meniscus, and we return it to the outside of the joint. We increase the loop formed by the suture thread. The loop is folded over itself twice, forming a double loop. We pass the free ends of the thread through the interior of the loop, and we pull both ends, reducing the double loop. We repeat these steps one more time, leaving 2 stitches at the root of the posteromedial meniscus. We pass the ends of the threads through the loop of the Ethibond thread, and we pull the Ethibond thread into the tibial tunnel, transporting the suture threads to the tibial tunnel and using a lateral approach. We fix the threads with an ABS button with multiple knots and then introduce the last proximal and anterior screw with a short length so as not to merge with the previous tunnel. We visualize the root before and after repair. The allograft is carefully introduced into the osteotomy. After the surgical procedure, the final radiologic appearance is observed. The postoperative aspect of the wound with 2 weeks of evolution is shown. Regarding the evolution of the patient, loading was started after 6 weeks postoperatively, with knee flexion increasing progressively. After the 10th week, the patient was already performing bipedal closed kinetic chain exercises, and after the 12th week, uni-podal exercises. 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The varus deformity of the lower limb (when the mechanical axis crosses the medial compartment of the knee) favors this type of injury owing to the overload in the medial compartment. When the patient has both varus deformity and medial meniscal posterior root injury, there is a clear indication for surgical realignment of the affected lower limb. There is still not a consensus regarding combining meniscal root repair with corrective osteotomy, although there is a tendency to perform both procedures aiming at long-term joint preservation. We present a safe alternative technique for simultaneous medial meniscal posterior root repair using a lateral tibial transosseous tunnel associated with a valgus-producing high tibial osteotomy with homologous bone grafting, allowing a full return to daily activities and sports. Video 1 Preoperative radiographs are presented for a 62-year-old female patient with sudden posteromedial pain after slouching down the stairs. The radiographs, without showing advanced signs of osteoarthritis, indicate asymmetrical varus of the right knee, with a correction angle of 7.5° planned on panoramic radiographs. Magnetic resonance imaging shows signs of a lesion of the posteromedial root of the medial meniscus. The material needed to perform suturing of the posteromedial root and placement of a single transtibial tunnel with a FlipCutter drill is shown. Initially, an anteromedial longitudinal incision is performed approximately 6 cm distal to the joint interline; subcutaneous dissection is performed and the hamstring tendons are identified and repaired; and release of the superficial medial collateral ligament is performed, with its distal insertion kept intact. Two parallel guidewires are introduced 4 cm distal from the joint line, directed to the fibular head. We begin the medial cortical osteotomy with an oscillating saw at a low rotation speed. We complete the remainder of the osteotomy with osteotomes, always remembering to preserve the lateral cortex. Using a spreader, we open the osteotomy at the degree predetermined during preoperative planning. We introduce a ContourLock plate with a predetermined wedge and start its fixation with the most posterior proximal screw. After placement of the distal screw, the intermediate proximal screw and distal screws are positioned, leaving the proximal and anterior holes in the plate without screws. The images show the multi-use guide configured to perform placement of the posteromedial root tunnel, the allograft to be used, and the plate already positioned on the patient, as well as the lateral approach, already performed for positioning the multi-use guide. We identify the injured posteromedial root and position the guide via the lateral approach, with its end introduced into the joint through the anterolateral portal and positioned in the footprint of the posterior root of the medial meniscus. Using a 6-mm FlipCutter drill, we create the transtibial tunnel, preparing a 10-mm-deep bone bed for the root. A thread of Ethibond is left through the tibial tunnel for transport. We prepare the Knee Scorpion device, passing a meniscal suture thread with 2 symmetrical ends over its trigger. The clamp is positioned on the posteromedial root of the medial meniscus, perforating the meniscus, and we return it to the outside of the joint. We increase the loop formed by the suture thread. The loop is folded over itself twice, forming a double loop. We pass the free ends of the thread through the interior of the loop, and we pull both ends, reducing the double loop. We repeat these steps one more time, leaving 2 stitches at the root of the posteromedial meniscus. We pass the ends of the threads through the loop of the Ethibond thread, and we pull the Ethibond thread into the tibial tunnel, transporting the suture threads to the tibial tunnel and using a lateral approach. We fix the threads with an ABS button with multiple knots and then introduce the last proximal and anterior screw with a short length so as not to merge with the previous tunnel. We visualize the root before and after repair. The allograft is carefully introduced into the osteotomy. After the surgical procedure, the final radiologic appearance is observed. The postoperative aspect of the wound with 2 weeks of evolution is shown. Regarding the evolution of the patient, loading was started after 6 weeks postoperatively, with knee flexion increasing progressively. After the 10th week, the patient was already performing bipedal closed kinetic chain exercises, and after the 12th week, uni-podal exercises. After the 16th week, the patient started using a treadmill and elliptical machine and running in the sand, with an excellent postoperative recovery.</abstract><pub>Elsevier</pub><pmid>35936854</pmid><doi>10.1016/j.eats.2022.03.017</doi><orcidid>https://orcid.org/0000-0002-3023-9181</orcidid><orcidid>https://orcid.org/0000-0003-2412-6823</orcidid><orcidid>https://orcid.org/0000-0002-3532-0472</orcidid><orcidid>https://orcid.org/0000-0002-9400-4023</orcidid><orcidid>https://orcid.org/0000-0002-1209-4425</orcidid><orcidid>https://orcid.org/0000-0003-2635-1469</orcidid><oa>free_for_read</oa></addata></record>
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title	Posterior-Medial Meniscal Root Repair Through Lateral Tibial Tunnel Combined With Medial Opening Osteotomy and Homologous Graft
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