Ultrasound evaluation of gravity induced anterior drawer following anterior cruciate ligament lesion

Ultrasound is not so far a standard procedure to visualize the anterior drawer following anterior cruciate ligament (ACL) lesions. This is because the described techniques are either technically difficult or depend on the experience of the performer and are not standardized. The purpose of this pros...

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Bibliographic Details
Published in:Knee surgery, sports traumatology, arthroscopy : official journal of the ESSKA sports traumatology, arthroscopy : official journal of the ESSKA, 1999-05, Vol.7 (3), p.166-172
Main Authors: Gebhard, F, Authenrieth, M, Strecker, W, Kinzl, L, Hehl, G
Format: Article
Language:English
Subjects:
Adolescent
Adult
Ankle
anterior cruciate ligament
Anterior Cruciate Ligament - diagnostic imaging
Anterior Cruciate Ligament Injuries
arthroscopy
Femur
Gravitation
Gravity
Humans
Injuries
Joint Instability - diagnosis
Joint Instability - etiology
Knee
Knee Injuries - complications
Knee Injuries - diagnostic imaging
Knees
Leg
Legs
Ligaments
Magnetic Resonance Imaging
Measurement
Patella
Patients
Population studies
Prone Position
Prospective Studies
Radiography
Space life sciences
Statistics, Nonparametric
Surgery
Tears
Techniques
Tendons
Ultrasonic imaging
Ultrasonography - methods
Ultrasound
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Description
Summary:Ultrasound is not so far a standard procedure to visualize the anterior drawer following anterior cruciate ligament (ACL) lesions. This is because the described techniques are either technically difficult or depend on the experience of the performer and are not standardized. The purpose of this prospective analysis on ACL intact, ACL deficient and ACL reconstructed knees was to compare the diagnostic accuracy of prone ultrasonographic Lachman testing with KT-1000 measurements in the same study population. Our technique is based on a prone position of the patient. The thigh lies on the table surface such that the patella has no contact. The lower leg is placed on a roll in the ankle area and flexed to 30 degrees . The transducer (5 MHz) is positioned over the medial aspect of the popliteal fossa to visualize the femoral condyle as well as the tibial head. Under ultrasound control the lower leg is manually lifted as far the thigh stays in contact with the surface defining the start position. The lower leg is then released and drawn by gravity into the anterior drawer position, the final position. The distance between the posterior tangent from the medial femoral condyle to the medial tibial plateau was registered by three independent ultrasound measurements of the injured knee. The uninvolved opposite knee served as an internal control. The same procedure was done using a KT-1000 device (89 and 133 Newton and manual maximum force). The patients were split into two groups: acute injury (A), and (B) 6 months following ACL repair with a patellar tendon graft. All patients then underwent arthroscopy. In group A with acute ACL lesions the anterior drawer resulted in 14.1 mm (+/- 3.5) and was significantly (P < 0.001) different from the contralateral knee (7.7 mm +/- 2.9). The KT 1000 showed a comparable difference with 14.4 mm (+/- 3.9) for the injured knee and 8.3 mm (+/- 3.4) for the uninjured (P < 0.001). Sonometrically, group B patients showed no clear difference between the repaired (9.9 mm +/- 2.7) knee and its control (8.1 mm +/- 2.5). This was found for the KT-1000 results as well. The results derived from the ultrasound evaluation of the anterior drawer correlated well with those from the KT-1000 (r = 0.46). Based on a minimum intra-individual difference of 5 mm in the ultrasound measured anterior drawer, the sensitivity of the test in group A resulted in 0.96, and the specificity in 0.98. The described technique is reproducible, painless and easy to per
ISSN:0942-2056
1433-7347
DOI:10.1007/s001670050142