Aim: To investigate and compare the effects of two types of LCS total knee arthroplasty on joint proprioception and range of motion.

Methods: 47 patients were randomised to receive either a LCS AP glide or Rotating platform prosthesis. Clinical scores (Oxford knee score, American knee society score, EuroQol), range of motion and proprioception were assessed prior to and at 3,6, and 12 months after the operation. Proprioception was assessed in terms of absolute error angle (mean difference between the target angle and the response angle). Knee angles were measured in degrees using an electromagnetic tracking device, Polhemus 3Space Fastrak that detected positions of sensors placed on the test limb. Student’s t-test was used to compare the mean of two groups (with a level of significance of p < 0.05).

Results: Both groups were comparable in terms of pre-operative range of motion, oxford knee score, American knee society score, EuroQol score and proprioception. There was statistically significant improvement in the Oxford knee score, AKSS and EuroQol score in both groups (p< 0.001), but there was no difference between the groups with respect to these parameters. There was improvement in the proprioception (reduction in absolute error angle) in both groups though this was not significant statistically (p> 0.05).

Conclusions: We did not find significant difference between AP glide and RP LCS knee arthroplasty in terms of improvement in proprioception and range of motion.

Sublaminar wiring with posterior instrumentation is one of the methods used when long fusions involving 10 to 12 thoracolumbar levels are required. Classically wires are used at every consecutive level to make the construct as rigid as possible although complications like dural tears, CSF leak, and neurological deficiet have been reported during their passage.

We compared the mechanical stability of five specimens of each of the three construct designs by static and fatigue testing to torsional strain on Electro-servo-hydraulic testing machine. In construct A, a contoured Hartshill rectangle was used from T2 to L2, with sub-laminar wires passed at every level. In construct B, every alternate level was wired. In construct C, every alternate level was wired except at the proximal end two consecutive levels were wired. Industrially fabricated spine models were used to prepare these constructs. The intervertebral motion within the construct was measured using FASTRAK magnetic field sensor device.

On static testing, no statistically significant difference was found in the rotational displacement of the three construct designs. On fatigue testing, all samples of construct B consistently failed with breakage of the wire at the most proximal level on the left side. But on adding additional wires to the next level (Construct C), all five samples withstood fatigue testing at 300 Newton load to 3 million cycles.

Wiring alternate levels instead of every level, does not compromise the stability of the construct provided the most proximal two levels are consecutively wired. This practise would minimise the risk of dural tears and cord damage during wire passage and reduce surgical time, not to mention the economical benefit.