Department of Radiology, 200 Lothrop St, Pittsburgh, PA 15213, USA.
Skeletal Radiol. 2010 Jan;39(1):19-26. doi: 10.1007/s00256-009-0744-4.
To describe the magnetic resonance appearance of posterosuperior labral peel back and determine the reliability of MR in the abducted and externally rotated (ABER) position for the prospective diagnosis of arthroscopically proven cases of posterosuperior labral peel back.
After approval by the institutional review board (IRB) of the University of Pittsburgh Medical Center, USA, databases of patients who underwent arthroscopy over a 2-year period for one of three clinical diagnoses [suspected type 2 superior labrum anterior to posterior (SLAP) tears, posterior instability, or multidirectional instability] were reviewed after anonymization by an honest broker. Sixty-three cases were selected by the following inclusion criteria: operative report documenting labral peel back in the ABER position, age <40 years, and preceding MR arthrogram evaluations with images in the ABER position (n=34). Inclusion criteria for the control group differed from those for the case group insofar as the operative note documented the absence of posterosuperior labral peel back (n=29). Cases and controls were randomized in one list and evaluated independently by two fellowship-trained musculoskeletal radiologists unaware of the surgical results and using a three-point grading system (0 = posterosuperior labrum normally positioned lateral/craniad to glenoid articular plane in ABER; 1 = posterosuperior labral tissue flush with the glenoid articular plane in ABER; 2 = posterosuperior labral tissue identified medial/caudal to glenoid articular plane in ABER). Only one image in ABER showing abnormal posterosuperior labral position was required for a grade of 1 or 2 to be assigned. Sensitivity, specificity, and positive and negative predictive value were calculated as well as the level of agreement between readers (kappa).
Both readers assigned a grade of 2 to 25 of 34 patients with surgically proven labral peel back. Of the patients with surgically proven SLAP tears with peel back in ABER, reader A assigned a grade of 1 to seven patients and a grade of 0 to two patients, while reader B assigned a grade of 1 to eight patients and a grade of 0 to one patient. In the control group of 29 patients, reader A assigned 28 patients a grade of 0, one patient a grade 1, and no patients a grade 2. Reader B assigned 27 patients a grade of 0, two a grade 1, and no patients a grade 2. After the data had been dichotomized, with grade 1 and 0 cases both being regarded as negative, the MR criteria showed a sensitivity of 73%, specificity of 100%, positive predictive value of 100%, and negative predictive value of 78%. The kappa coefficient of inter-rater agreement was excellent at 0.9, with disagreement in only four of 63 cases. In five of the 34 cases with peel back, a labral tear, defined by imbibition of contrast agent within a gap between labrum and underlying glenoid bone, could not be identified in standard planes in the neutral position.
The use of the glenoid articular plane as a reference line to evaluate labral peel back in the abducted and externally rotated position is a fairly accurate and highly precise method for detection of posterosuperior labral peel back. Raising the possibility of labral peel back may help alert the arthroscopist to the presence of superior labral instability while the arm is abducted and externally rotated.
描述后上盂唇撕脱的磁共振成像(MRI)表现,并确定在肩关节外展和外旋(ABER)位 MRI 对经关节镜证实的后上盂唇撕脱病例的前瞻性诊断的可靠性。
在美国匹兹堡大学医学中心机构审查委员会(IRB)批准后,通过诚实中间人对数据库进行匿名化处理,对在两年内因三种临床诊断之一接受关节镜检查的患者的数据库进行回顾性研究[疑似 2 型前上盂唇前后撕裂(SLAP)、后不稳定或多向不稳定]。通过以下纳入标准选择 63 例病例:手术报告记录在 ABER 位置存在盂唇撕脱、年龄<40 岁以及先前有 ABER 位置 MRI 关节造影检查图像(n=34)。对照组的纳入标准与病例组不同,手术记录中未记录到后上盂唇撕脱(n=29)。病例和对照组被随机分为一组,由两位接受过肌肉骨骼放射学专业培训的放射科医生独立评估,他们不知道手术结果,并使用三点分级系统(0=ABER 中外侧/颅侧盂唇正常定位;1=盂唇组织与盂肱关节面平齐;2=盂唇组织在 ABER 中被识别为位于盂肱关节面内侧/尾侧)进行评估。仅需一个 ABER 图像显示盂唇位置异常即可评为 1 或 2 级。计算了敏感性、特异性、阳性预测值和阴性预测值以及读者之间的一致性(kappa)。
两位读者均将 34 例经手术证实有盂唇撕脱的患者评为 2 级。在有手术证实的 SLAP 撕裂伴盂唇撕脱的患者中,读者 A 将 7 例患者评为 1 级,2 例患者评为 0 级,而读者 B 将 8 例患者评为 1 级,1 例患者评为 0 级。在 29 例对照组患者中,读者 A 将 28 例患者评为 0 级,1 例患者评为 1 级,无患者评为 2 级。读者 B 将 27 例患者评为 0 级,2 例患者评为 1 级,无患者评为 2 级。在数据被二分类后,将 1 级和 0 级病例均视为阴性,MR 标准的敏感性为 73%,特异性为 100%,阳性预测值为 100%,阴性预测值为 78%。两位读者之间的kappa 一致性系数为 0.9,在 63 例病例中有 4 例存在分歧。在 34 例存在盂唇撕脱的病例中,有 5 例在中立位标准平面中无法识别到盂唇和下方盂骨之间有造影剂渗透的盂唇撕裂。
使用盂肱关节面作为参考线来评估 ABER 位置的盂唇撕脱是一种相当准确和高度精确的检测后上盂唇撕脱的方法。提示存在盂唇撕脱可能有助于关节镜医生在肩关节外展和外旋时发现上盂唇不稳定。
