Chronic pelvic discontinuity (CPD) during revision hip arthroplasty is a challenging entity to address. The aim of this study was to evaluate the clinical and radiologic outcomes, and complications of the “acetabular distraction technique” for the management of CPD during revision hip arthroplasty. Patients with CPD, who underwent acetabular revision between 2014 and 2022 at two tertiary care centres, using an identical distraction technique, were evaluated. Demographic parameters, pre-operative acetabular bone loss, duration of follow-up, clinical and radiologic outcomes, and survivorship were evaluated. In all, 46 patients with a mean follow-up of 34.4 (SD=19.6, range: 24–120) months were available for evaluation. There were 25 (54.3%) male, and 21 (45.7%) female patients, with a mean age of 58.1 (SD=10.5, range: 40–81) years at the time of revision surgery. Based on the Paprosky classification of acetabular bone loss, 19 (41.3%), 12 (26.1%), and 15 (32.6%) patients had type 3b, 3a, and 2c defects. All patients were managed using the Trabecular Metal™ Acetabular Revision System; 16 patients required additional Trabecular Metal™ augments. The mean HHS improved from 50.1 (SD=7.6, range: 34.3 – 59.8) pre-operatively, to 86.6 (SD=4.2, range: 74.8 -91.8) at the last follow-up. Two patients (4.3 %) developed partial sciatic nerve palsy, two (4.3%) had posterior dislocation, and one (2.2%) required re-revision for aseptic loosening. Radiologically, 36 (78.3%) patients showed healing of the pelvic discontinuity. The Kaplan-Meier construct survivorship was 97.78% when using re-revision for aseptic acetabular loosening as an endpoint. The acetabular distraction technique has good clinical and radiologic outcomes in the management of CPD during revision hip arthroplasty.
The restoration of knee alignment is an important
goal during total knee arthroplasty (TKA). In the past surgeons aimed
to restore neutral limb alignment during surgery. However, previous
studies have demonstrated alignment to be dynamic, varying depending
on the position of the limb and the degree of weight-bearing, and
between patients. We used a validated computer navigation system
to measure the femorotibial mechanical angle (FTMA) in 264 knees in
77 male and 55 female healthy volunteers aged 18 to 35 years (mean
26.2). We found the mean supine alignment to be a varus angle of
1.2° (standard deviation ( Knee alignment is different in different individuals and is dynamic
in nature, changing with different postures. This may have implications
for the assessment of alignment in TKA, which is achieved in non-weight-bearing conditions
and which may not represent the situation observed during weight-bearing. Cite this article:
The posterior drawer is a commonly used test to diagnose an isolated PCL injury and combined PCL and PLC injury. Our aim was to analyse the effect of tibial internal and external rotation during the posterior drawer in isolated PCL and combined PCL and PLC deficient cadaver knee. Ten fresh frozen and overnight-thawed cadaver knees with an average age of 76 years and without any signs of previous knee injury were used. A custom made wooden rig with electromagnetic tracking system was used to measure the knee kinematics. Each knee was tested with posterior and anterior drawer forces of 80N and posterior drawer with simultaneous external or internal rotational torque of 5Nm. Each knee was tested in intact condition, after PCL resection and after PLC (lateral collateral ligament and popliteus tendon) resection. Intact condition of each knees served as its own control. One-tailed paired student's t test with Bonferroni correction was used. The posterior tibial displacement in a PCL deficient knee when a simultaneous external rotation torque was applied during posterior drawer at 90° flexion was not significantly different from the posterior tibial displacement with 80N posterior drawer in intact knee (p=0.22). In a PCL deficient knee posterior tibial displacement with simultaneous internal rotation torque and posterior drawer at 90° flexion was not significantly different from tibial displacement with isolated posterior drawer. In PCL and PLC deficient knee at extension with simultaneous internal rotational torque and posterior drawer force the posterior tibial displacement was not significantly different from an isolated PCL deficient condition (p=0.54). We conclude that posterior drawer in an isolated PCL deficient knee could result in negative test if tibia is held in external rotation. During a recurvatum test for PCL and PLC deficient knee, tibial internal rotation in extension results in reduced posterior laxity.
Decision to operate for lumbar nerve root compression is usually based on the clinical findings and MRI scan evidence of nerve root compression. Decision-making is difficult in the subset of patients with pain in the groin, buttock or thigh with L5 and S1 nerve root compression as evidenced by MRI scan. We retrospectively studied 125- diagnostic nerve root injections, of which there were 12 patients who had pain in the groin, thigh or buttock and their MRI scans were reported as nerve root (11 L5 &
1 S1) compression by the radiologist. All these 12 patients were subjected to injection of the affected nerve root with bupivacaine and methylprednisolone under the guidance of image intensifier. Of these 5 (42%) of them had temporary relief of the symptoms; and all of them underwent surgical decompression of the affected nerve root. They were followed for an average of 12 months with satisfactory results. This demonstrates the importance of nerve root injections as a diagnostic tool in patients with atypical symptoms with a positive MRI scan.