Jens Ole Søjbjerg

A review of the Constant score: Modifications and guidelines for its use

The requirement to assess surgical results and the means of quantifying them have always provoked intense debate. Since Codman’s introduction of ‘‘the end result idea,’’ the main aim in assessment has not changed, but our requirements are now more sophisticated and include observation of natural history, follow-up, and disability quantification. The Constant score was devised by Christopher Constant with the assistance of the late Alan Murley during the years 1981-1986. The score was first presented in a university thesis in 1986 and the methodology published in 1987. This functional assessment score was conceived as a system of assessing the overall value, or functional state, of a normal, a diseased, or a treated shoulder. If universally accepted, it would further progress in clinical research in shoulder surgery and enhance the value of multicenter trials. In this score, 35 points are allocated for subjective assessments of pain and activities of daily living and 65 points are available for objective measures of range of movement and shoulder strength. A young healthy patient can therefore have a maximum score of 100 points.

Lateral collateral ligament of the elbow joint: Anatomy and kinematics*

The structure and kinematics of the lateral collateral ligament of the elbow joint were investigated in 10 cadaveric specimens. The lateral collateral ligament was observed to be a distinct part of the lateral collateral ligament complex. It contains posterior fibers that pass through the annular ligament and insert on the ulna. Three-dimensional kinematic measurements in different forearm rotations showed that joint puncture induced a 1 degree joint laxity significant in forced varus from 30 degrees to 80 degrees of flexion and in forced external rotation from 30 degrees to 120 degrees of flexion. Division of the posterolateral capsule caused no further laxity. Cutting the lateral collateral ligament induced a maximum laxity of 11.8 degrees at 110 degrees of flexion in forced varus and a maximum laxity of 20.6 degrees at 110 degrees of flexion in forced external rotation. The corresponding maximal posterior radial head translation was observed at 80 degrees to 100 degrees of flexion and was 5.7 mm in forced varus and 8.1 mm in forced external rotation. This study suggests the lateral collateral ligament to be an important stabilizer of the humeroulnar joint and the radial head in forced varus and external rotation. The humeroulnar stability is independent of forearm rotation.

Total shoulder replacement in rheumatoid arthritis: Proximal migration and loosening

A prospective study of 62 Neer mark II total shoulder arthroplasties performed during the period from 1981 to 1990 on 51 patients with rheumatoid arthritis was undertaken to evaluate factors associated with component loosening and proximal humeral migration. Thirty-two (51%) showed proximal migration of the humerus before surgery was performed. The mean follow-up time was 92 months (range 52 to 139 months). The results revealed proximal migration in 55% of the patients (34 shoulders), and 40% (25 shoulders) showed progressive radiographic loosening of the glenoid component. Five of 12 press-fit humeral components demonstrated progressive radiographic loosening, whereas no signs of loosening were found in 50 cemented humeral components. In spite of progressive component loosening and progressive migration, this study demonstrated good pain relief in 89% of the patients (55 shoulders) and also a significant improvement in range of movement and function. The presence of proximal humeral migration did not significantly influence the average results-neither pain relief, range of movement, abduction force, nor function. Also, component loosening did not significantly influence the average pain relief, range of movement, abduction force, or function. The risk of clinical asymptomatic loosening is a relatively late complication that is eventually followed by pronounced bone destruction related to the loose component. Long-term radiographic control of total shoulders with rheumatoid arthritis is recommended. Hemiarthroplasty with a cemented humeral prosthesis may be a better treatment in the end stage of rheumatoid arthritis of the shoulder.

Kinematics of the lateral ligamentous constraints of the elbow joint

Thirty osteoligamentous elbow joint specimens were included in a study of the lateral collateral ligament complex (LCLC). The morphologic characteristics of the LCLC were examined, and then three-dimensional kinematic measurements were undertaken after selective ligament dissections were performed. Isolated sectioning of the annular ligament (AL) or the lateral ulnar collateral ligament (LUCL) induced only minor laxity to the elbow joint with a maximum of 2.2 degrees and 4.4 degrees during forced varus and external rotation (supination), respectively. Transsection of the lateral collateral ligament (LCL) caused a maximal laxity of 15.4 degrees and 22.8 degrees during forced varus and external rotation (supination), respectively. Combined ligament dissections showed that total transection of the LCLC at the ulnar or the humeral insertion was important for joint laxity. Total transection of the LCLC at the humeral or the ulnar insertion induced a maximal laxity of 24.5 degrees and 37 degrees during forced varus and external rotation (supination), respectively. This study suggests the AL and the LUCL are of minor importance as constraints when cut separately, whereas the LCL is a significant preventer of elbow joint laxity. The LCLC was observed to be a complex structure of ligamentous fibers rather than discreet bands. The LCLC forms a ligamentous constraint between the lateral humeral epicondyle and the ulna, stabilizing the elbow joint and forming a base for radial head stability and rotation.

Functional and magnetic resonance imaging evaluation after single-tendon rotator cuff reconstruction

The aim of this study was to investigate tendon integrity after surgical repair of single-tendon rotator cuff lesions. In 31 patients, 31 single-tendon repairs were evaluated. Thirty-one patients were available for clinical assessment and magnetic resonance imaging (MRI) at follow-up. A standard series of MR images was obtained for each. The results of functional assessment were scored according to the system of Constant. According to MRI evaluation, 21 (68%) patients had an intact or thinned rotator cuff and 10 (32%) had recurrence of a full-thickness cuff defect at follow-up. Patients with an intact or thinned rotator cuff had a median Constant score of 75.5 points; patients with a full-thickness cuff defect had a median score of 62 points. There was no correlation between tendon integrity on postoperative MR images and functional outcome. Patients with intact or thinned cuffs did not have significantly better functional results than patients with retorn cuffs. Because of the presence of metal artifacts and the difficulty in distinguishing postoperative scar tissue from partial tears or thinning, MRI is of minor diagnostic value in assessing the shoulder after cuff repair. However, full-thickness tears are readily diagnosed after operation with MRI.

The stiff elbow: How I do it

Contracture of the elbow is a common complication of fractures, dislocations, burns, etc., around the elbow. The stiff or contracted elbow is defined as an elbow with a reduction in extension greater than 30 degrees, and/or a flexion less than 120 degrees. Although supination and pronation are often reduced as well, this will not be considered further as contracture of the elbow is not related to forearm rotation. Stiffness of the elbow impairs hand function, because this is highly dependent on elbow extension and flexion and forearm rotation. A 50% reduction of elbow motion can reduce the upper extremity function by almost 80%.Surgery of the posttraumatic stiff elbow is a challenging and demanding procedure. During recent years a more aggressive approach to the treatment of chronic contractures around the elbow joint in combination with more specific surgical techniques and an advanced postoperative rehabilitation have improved the final outcome.The purpose of my article is to define a reasonable and spe...

Frozen shoulder: Arthroscopy and manipulation under general anesthesia and early passive motion

During a 15-month period, 24 patients with arthroscopically verified frozen shoulders were treated with manipulation while under general anesthesia and early passive motion. The minimum follow-up was 12 months, and the average duration from onset of the disease until treatment was 8 months. All patients had moderate to severe pain, and the average range of motion was less than 40% of the opposite shoulder. During the follow-up period, 75% of the patients obtained normal or almost full range of motion, and 79% had slight pain or no pain at all. Eighteen (75%) patients returned to work 9 weeks (mean) after treatment. There was no relationship between the end result and the initial pathologic condition. We believe that manipulation combined with arthroscopy is an effective way of shortening the course of an apparently self-limiting disease and should be considered when conservative treatment has failed.

Elbow joint kinematics after excision of the radial head

The contribution of the radial head to elbow joint kinematics was studied in 7 osteoligamentous elbow preparations. During unloaded flexion and extension, radial head excision induced a maximum varus displacement of 1.6 degrees with 20 degrees of joint flexion and a maximum external rotation of 3.2 degrees at 110 degrees of flexion. With application of a 0.75-Nm load, radial head excision induced a maximum laxity of 3.3 degrees at 20 degrees of flexion in forced varus and a maximum laxity of 8.9 degrees at 10 degrees of flexion in forced external rotation. No laxity was observed in forced valgus or internal rotation. The results were independent of the rotation of the forearm. This study indicates that the radial head acts as stabilizer to the elbow joint in forced varus and in forced external rotation. The results suggest that fractures of the radial head cannot be treated by simple excision without altering the basic kinematics of the elbow joint.

Shoulder arthroplasty in complex acute and chronic proximal humeral fractures.

From 1983 to 1988, 42 shoulder arthroplasties were performed on comminuted acute or chronic proximal humeral fractures. Patients were categorized according to the post-fracture operative delay; there were 15 four-part fractures, with median post-fracture delay of 13 days (range: 7 to 21), and 27 chronic fractures, including 11 four-part fractures, 9 three-part fractures, and 7 two-part fractures, with median post-fracture delay of 14 months (range: 4 to 72). Follow up was approximately 2 years in both groups (range: 1 to 5). All patients were evaluated according to a modified Neer score-system and classified into four groups. Pain relief was satisfactory in the acute group, but was unpredictable in the chronic group. The results in the acute group were significantly superior (P less than .05). In the acute group, 3 (20%) patients had an excellent result and 6 patients (40%) had a good result, compared to a good result obtained by 6 patients (22%) in the chronic group. Two patients (13%) in the acute group and 11 patients (40%) in the chronic group had a poor result. There were no statistical differences between two-part, three-part, or four-part fractures in the chronic group. Five cases of persistent instability were seen in shoulders formerly treated with osteosynthesis (one acute and four chronic cases). Two of these cases developed an infection. Good results can be expected after prosthetic replacement in acute proximal humeral fractures. Failed primary treatment reduces the possibility of a good result with revision arthroplasty.

Bone strength and material properties of the glenoid

The quality of the glenoid bone is important to a successful total shoulder replacement. Finite element models have been used to model the response of the glenoid bone to an implanted prosthesis. Because very little is known about the bone strength and the material properties at the glenoid, these models were all based on assumptions that the material properties of the glenoid were similar to those of the tibial plateau. The osteopenetrometer was used to assess the topographic strength distribution at the glenoid. Strength at the proximal subchondral level of the glenoid averaged 66.9 MPa. Higher peak values were measured posteriorly, superiorly, and anteriorly to the area of maximum concavity of the glenoid joint surface known as the bare area. One millimeter underneath the subchondral plate, average strength decreased by 25%, and at the 2 mm level strength decreased by 70%. The contribution of the cortical bone to the total glenoid strength was assessed by compression tests of pristine and cancellous-free glenoid specimens. Strength decreased by an average of 31% after the cancellous bone was removed. The material properties of the glenoid cancellous bone were determined by axial compression tests of bone specimens harvested from the central part of the glenoid subchondral area. The elastic modulus varied from approximately 100 MPa at the glenoid bare area to 400 MPa at the superior part of the glenoid. With the elastic constants used a predictor of the mechanical anisotropy, the average anisotropy ratio was 5.2, indicating strong anisotropy. The apparent density was an average 0.35 gr. cm-3, and the Poisson ratio averaged 0.263. According to our findings the anisotropy of the glenoid cancellous bone, details concerning the strength distribution, and the load-bearing function of the cortical shell should be considered in future finite element models of the glenoid.