Song Guan-Yang, Liu Xin, Zhang Hui, Wang Qian-Qian, Zhang Jin, Li Yue, Feng Hua
Sports Medicine Service, Beijing Jishuitan Hospital, Beijing, China.
Clinical Research & Evidence-based Medicine Center, Beijing Institute of Traumatology & Orthopaedics, Beijing Jishuitan Hospital, Beijing, China.
Am J Sports Med. 2016 Aug;44(8):2039-46. doi: 10.1177/0363546516640516. Epub 2016 Apr 22.
A special type of meniscal lesion involving the peripheral attachment of the posterior horn of the medial meniscus (PHMM), termed ramp lesion, is commonly associated with anterior cruciate ligament (ACL) injury. However, no study has investigated its anatomic risk factors. Recently, increased meniscal slope has been identified as an independent anatomic risk factor for noncontact ACL injury.
Increased medial meniscal slope (MMS) as measured on magnetic resonance imaging (MRI) will correlate with greater risk of concomitant ramp lesion in noncontact ACL injury.
Case-control study; Level of evidence, 3.
From January 2011 to December 2013, a total of 1012 consecutive patients were diagnosed as having noncontact ACL injuries and underwent primary ACL reconstructions. Among them, 160 patients were arthroscopically verified to have concomitant ramp lesions. Study exclusion criteria included partial ACL rupture, multiligamentous injury, associated medial/lateral meniscal lesions other than ramp lesion, skeletal immaturity, general joint laxity, severe malalignment of the lower extremity, history of knee surgery, lack of available preoperative MRI, and history of trauma to the proximal tibia. This left 53 patients in the study group (ACL + ramp group), who were matched in a 1:1 fashion to 53 control participants (isolated ACL group) who were arthroscopically verified to have isolated complete ACL injury during the same study period. Patients were matched by age, sex, and time from injury to surgery (TFI). Patients from the matched control group were selected by applying the same exclusion criteria as mentioned above. The MMS and medial posterior tibial slope (MPTS) were measured on the preoperative MRI in a blinded fashion. Predictors of ramp lesion, including MMS, MPTS, body mass index, pivot-shift test grade, and KT-1000 arthrometer side-to-side difference, were assessed by multivariable conditional logistic regression analysis.
The mean MMS in the study group was 3.5°, which was significantly larger than that in the control group (2.0°; P < .001). In addition, increased MMS was significantly (odds ratio [OR], 5.180; 95% CI, 1.814-32.957; P < .001) associated with concomitant ramp lesion in noncontact ACL injury, especially for those with a TFI of ≥6 months (OR, 13.819; 95% CI, 2.251-49.585; P < .001). However, no significant association was identified between MPTS and concomitant ramp lesion.
Increased MMS was identified to be an independent anatomic risk factor of concomitant ramp lesions in noncontact ACL injuries, particularly for those with a TFI ≥6 months. This may provide additional information for counseling patients who have increased MMS on the greater risk of secondary PHMM lesions if their ACL-deficient knee joints are not well stabilized initially.
一种特殊类型的半月板损伤,涉及内侧半月板后角(PHMM)的外周附着,称为斜坡损伤,通常与前交叉韧带(ACL)损伤相关。然而,尚无研究调查其解剖学危险因素。最近,半月板坡度增加已被确定为非接触性ACL损伤的独立解剖学危险因素。
在磁共振成像(MRI)上测量的内侧半月板坡度(MMS)增加将与非接触性ACL损伤中伴随斜坡损伤的更高风险相关。
病例对照研究;证据等级,3级。
2011年1月至2013年12月,共有1012例连续患者被诊断为非接触性ACL损伤并接受了初次ACL重建。其中,160例患者经关节镜证实伴有斜坡损伤。研究排除标准包括部分ACL断裂、多韧带损伤、除斜坡损伤外的相关内侧/外侧半月板损伤、骨骼未成熟、全身关节松弛、下肢严重对线不良、膝关节手术史、缺乏可用的术前MRI以及胫骨近端外伤史。这使得研究组中有53例患者(ACL + 斜坡组),他们与53例对照参与者(孤立ACL组)以1:1的方式匹配,这些对照参与者在同一研究期间经关节镜证实为孤立的完全ACL损伤。患者按年龄、性别和受伤至手术时间(TFI)进行匹配。匹配对照组的患者通过应用上述相同的排除标准进行选择。术前MRI以盲法测量MMS和胫骨后内侧坡度(MPTS)。通过多变量条件逻辑回归分析评估斜坡损伤的预测因素,包括MMS、MPTS、体重指数、轴移试验分级和KT - 1000关节测量仪的侧方差异。
研究组的平均MMS为3.5°,显著大于对照组(2.0°;P < .001)。此外,MMS增加与非接触性ACL损伤中伴随斜坡损伤显著相关(优势比[OR],5.180;95%置信区间,1.814 - 32.957;P < .001),特别是对于TFI≥6个月的患者(OR,13.819;95%置信区间,2.251 - 49.585;P < .001))。然而未发现MPTS与伴随斜坡损伤之间存在显著关联。
MMS增加被确定为非接触性ACL损伤中伴随斜坡损伤的独立解剖学危险因素,特别是对于TFI≥6个月的患者。这可能为咨询MMS增加的患者提供额外信息,即如果他们ACL缺失的膝关节最初未得到良好稳定,则继发PHMM损伤的风险更高。
