Posterior Root Avulsion Fracture of the Medial Meniscus in an Adolescent Female Patient With Surgical Reattachment (original) (raw)
Related papers
Arthroscopy: The Journal of Arthroscopic & Related Surgery, 2006
We introduce a suture technique to repair a peripheral tear near the posterior tibial attachment of the posterior horn. A suture hook was inserted through the posteromedial portal, and the peripheral capsular rim was penetrated from superior to inferior by the sharp hook. Both relay limbs were brought out through the posteromedial portal. The outer limb of the superior peripheral capsular rim was identified with a hemostat. An 18-gauge spinal needle loaded with a No. 0 polydioxanone suture (PDS) was introduced into the joint from the anteromedial portal; it was passed through the joint space until it penetrated the inner torn meniscus. The PDS suture loaded within the needle was pushed into the joint and picked up through the posteromedial portal. The needle was pulled out of the torn meniscus and readvanced over it while the suture was kept loaded. The other limb of the suture from the tip of the spinal needle was retrieved through the posteromedial portal. The initial PDS suture limb was hooked to the shuttle-relay system; it then was passed through the inner torn meniscus and the peripheral capsular rim. The suture limb exiting from the peripheral capsular rim was used as a post and was joined to the other suture limb to form a sliding knot.
Posterior horn medial meniscal root tear: the prequel
Skeletal Radiology, 2014
Objective To determine whether subarticular marrow changes deep to the posterior horn medial meniscal root anchor might predict subsequent medial meniscal root tear. Materials and methods Fifteen patients with MR-diagnosed posterior horn medial meniscal root (PHMMR) tear and a knee MRI antecedent to the tear were identified at three imaging centers over a 7-year period. The pre-and post-tear MR images were evaluated for marrow signal changes deep to the root anchor, meniscal root signal intensity, medial compartment articular cartilage thinning, and meniscal body extrusion. Images of 29 age-and gender-matched individuals with two MRIs of the same knee were reviewed as a control group.
Arthroscopy: The Journal of Arthroscopic & Related Surgery, 2014
Purpose: To evaluate the effect of the meniscofemoral ligament (MFL) in maintaining lateral-compartment contact pressures after injury to the posterior root of the lateral meniscus, and to measure the ability to restore intra-articular loads to normal by repairing the posterior root to the tibia after transection of the posterior root and the MFL. Methods: Ten human cadaveric knee joints were axially loaded to 100 N. A digital pressure sensor measured the contact pressure in the lateral compartment. Five different conditions were tested: intact, after release of the posterior root of the lateral meniscus, after transection of the MFL along with release of the posterior root, refixation of the posterior root of the lateral meniscus to the tibia using an anatomic transosseous tunnel, and refixation of the root of the lateral meniscus using a tibial anterior cruciate ligament (ACL) tunnel. Results: After transection of the posterior lateral meniscus root, the contact pressure did not increase significantly. The additional transection of the MFL led to a significant increase in the contact pressure. Anatomic fixation of the meniscus posterior horn reduced the femorotibial pressure to nearly pre-sectioning values. The reattachment of the meniscus posterior horn through a tibial ACL tunnel was equivalent to an anatomic fixation. Conclusions: In the case of a root tear of the lateral meniscus, the MFL maintains meniscus function and stabilizes the pressure in the lateral compartment. A complete detachment of the posterior meniscus horn (MFL and root tear) leads to an increase in the intra-articular pressure. A root repair normalizes the pressure down to normal values. The tibial ACL tunnel is suitable to perform the repair and to lead out the suture. Clinical Relevance: In the case of a complete detachment of the meniscus posterior horn, fixation of the posterior root is necessary to restore the meniscus function and to guarantee an equal pressure distribution in the lateral compartment. It can be combined with an ACL reconstruction. T he knee joint menisci increase femorotibial congruency, and they contribute significantly to load transmission and joint stability. During load transmission, the forces acting on the meniscus are transformed into circumferential hoop stress. 1 This circular hoop stress is transmitted to the tibial plateau by the anterior and posterior roots of the menisci. 1 Therefore From the Klinik für Orthopädie und Unfallchirurgie,
Repair of the posterior root of the medial meniscus
Knee, 2010
Tears of the posterior root of the medial meniscus are becoming increasingly recognized. Early identification and treatment of these tears help halt the progression of cartilage degeneration and osteoarthritis of the knee. Repair of these tears is essential for recreating the hoop stress of the medial meniscus. In this note, we describe a successful arthroscopic technique to repair this lesion. A posteromedial portal is established by which two 2-0 PDS sutures are placed through the meniscus root and pulled down through a trans-tibial tunnel and fixed using an EndoButton distally along the anterolateral cortex of the tibia. This has been performed successfully in five patients with no complications.
Arthroscopy: The Journal of Arthroscopic & Related Surgery, 2006
We developed an effective arthroscopic pullout technique for repairing complete radial tears of the tibial attachment site of the medial meniscus posterior horn (MMPH). In our technique, the torn meniscus is reattached to the tibial plateau immediately medial or anteromedial to the posterior cruciate ligament (PCL) using two No. 2 Ethibond sutures (Ethicon, Somerville, NJ). After a complete radial tear of the tibial attachment site of the MMPH and its reparability were confirmed, using a Caspari suture loaded with a suture shuttle, one No. 2 Ethibond suture is placed through the meniscus, through the red-red zone, 3 to 5 mm medial to the torn edge of the MMPH, and the other is passed through the meniscocapsular junction 3 to 5 mm medial to the torn edge of the meniscus. Then, a tibial tunnel, 5-mm in diameter, is made from the anteromedial aspect of the proximal tibia to the previously prepared tibial plateau, immediately medial or anteromedial to the PCL, and the two No. 2 Ethibond sutures are pulled out through the tibial tunnel and then fixed to the proximal tibia using a 3.5-mm cortical screw and washer. Firm reattachment of the torn meniscus was confirmed arthroscopically. Key Words: Knee-Arthroscopic pullout repair-Complete radial tear-Tibial attachment site of medial meniscus posterior horn.
2008 KSSTA Radial tears in the root of the posterior horn
The purpose of this study is to define the clinical features and characteristics of radial tears in the root of the posterior horn of the medial meniscus and to report the outcome of arthroscopic treatment. Arthroscopic meniscus surgery was performed on 7,148 knees. Of those, 722 (10.1%) were radial tear in the root of the posterior horn of the medial meniscus. We reviewed the medical records from a random sample of 67 subjects studied (mean age 55.8 years, range 38-72, mean follow-up period 56.7 months, range, 8-123), which included surgical notes and detailed arthroscopic photographs of 70 knees. All patients were treated with arthroscopic partial meniscectomy. The age distribution, preoperative physical signs, results of magnetic resonance imaging , body mass index, and surgical findings of the study subjects were analyzed and the clinical results were graded with the Lysholm knee scoring scale and a questionnaire. Radiologic evaluation consisted of preoperative and at the latest follow-up radiographs. Eighty percent of the patients were older than 50 years, and 80.6% were either obese or morbidly obese. The mean Lysholm score improved from a preoperative value of 53 to a value of 67. The average preoperative Kellgren-Lawrence radiograph grade was 2 (range 0-3 points), a value that increased to 3 (range 2-4) at the latest follow-up, which showed a significant worsening. The preoperative MRI was reevaluated after the arthroscopic confirmation of a medial meniscal root tear. A tear could be demonstrated in only 72.9% of the patients, the rest of whom demonstrated degeneration and/or fluid accumulation at the posterior horn without a visible meniscal tear. Radial tears in the root of the medial meniscal posterior horn, which may not be visible in about one-third of the preoperative MRI scans, are common. That type of meniscal tear is strongly associated with obesity and older age and is morphologically different from the degenerative tears that often occur in the posterior horn. Partial meniscectomy provides symptomatic relief in most cases but does not arrest the progression of radiographically revealed osteoarthritis.
2021
Treatment of posterior meniscal roots tears evolved after biomechanical evidence of increased pressures on the tibiofemoral cartilage produced by this lesion and the subsequent accelerated development of arthritis or osteonecrosis observed clinically. However, little is known about the consequences of the detachment of the anterior roots. This in-vitro study analyzes the biomechanical changes in the tibiofemoral joint caused by avulsion of the anterior root of the lateral meniscus. The effectiveness of surgical root re-insertion to restore the pre-injured conditions is also evaluated. Using cadaveric knees at flexion angles from 0 to 90º, results show that the lesion significantly reduces the contact area and raises the pressure on the tibiofemoral cartilage of the injured compartment at all angles. Said modifications become larger at low flexion angles, which are the most frequent positions adopted by the knee in daily and sports activities, where they result similar to total menis...
The effect of medial meniscal horn injury on knee stability
Knee Surgery, Sports Traumatology, Arthroscopy, 2014
Conclusion The results indicated that the posterior horn was more important in controlling the IR stability than the anterior horn with knee flexion, and the anterior horn was more important in controlling the eR stability than the posterior horn at full knee extension in the anterior cruciate ligament-intact knee. These findings further the understanding of the mechanisms, the prevention of injuries and rehabilitation of meniscal horn injury in clinical practice.
The Journal of bone and joint surgery. American volume, 2014
An avulsion of the posterior root attachment of the lateral meniscus or a radial tear close to the root attachment can lead to degenerative knee arthritis. Although the biomechanical effects of comparable injuries involving the medial meniscus have been studied, we are aware of no such study involving the lateral meniscus. We hypothesized that in situ pull-out suture repair of lateral meniscus root avulsions and of complete radial tears 3 and 6 mm from the root attachment would increase the contact area and decrease mean and peak tibiofemoral contact pressures, at all knee flexion angles, relative to the corresponding avulsion or tear condition. Eight human cadaveric knees underwent biomechanical testing. Eight lateral meniscus conditions (intact, footprint tear, root avulsion, root avulsion repair, radial tears at 3 and 6 mm from the posterior root, and repairs of the 3 and 6-mm tears) were tested at five different flexion angles (0°, 30°, 45°, 60°, and 90°) under a compressive 100...
Root avulsion and para-root tear of the posterolateral meniscus
Current Orthopaedic Practice, 2018
Background: This study aimed to assess the outcomes of repairing posterolateral meniscal (PLM) root avulsion and para-root tear in association with anterior cruciate ligament (ACL) reconstruction and compare with those whose PLM tear was left untreated. Methods: Patients with PLM root avulsion or para-root tear accompanying ACL tear were evaluated for eligibility. Group A was composed of patients whose ACL tears were reconstructed without any lateral meniscal repair (33 patients) from 2006-2009. From 2009-2012, patients had ACL reconstruction and additional PLM repair (group B: 40 patients). Both groups were evaluated for knee stability (Lachman test), return to previous level of sports activity, subjective International Knee Documentation Committee form (S-IKDC) and Lysholm knee scores (LKS). Results: Functional results (IKDS and LKS) at 12 and 24-month follow-up were similar between the two groups (all P > 0.05). Eight patients (24%) in group A, and two patients (5%) in group B were unable to achieve the previous sports activity level (P = 0.036). Return to previous sports activity level was significantly better in group B. Short-term (34.5 mo) and mid-term (73.5 mo) functional results of group A patients were compared, and it was demonstrated that IKDC (84.5 ± 4) and LKS (87.7 ± 3) scores were decreased significantly (P < 0.0001). Conclusions: Functional outcomes of repairing PLM root avulsion and pararoot tear with those whose PLM tear was left untreated are similar in short-term follow-up; however, as the time passes, the sports activity level and mid-term subjective outcomes may worsen in patients whose PLM tear was left untreated.