The objective was to compare vastus lateralis muscle splitting verses muscle sparing surgical approach to proximal femur for fixation of intertrochanteric fracture. Of the 16 patients in this prospective randomised double blind study 8 were randomised to vastus lateralis muscle splitting and rest to muscle sparing group. Main outcome measurement was assessment of status of vastus lateralis muscle at 2 and 6 weeks using nerve conduction study. Preoperative demographics were identical for both the groups. There was no statistically significant difference between the groups with regards to velocity, latency, and amplitude. The postoperative haemoglobin drop, heamatocrit, position of the dynamic hip screw and mobility status were identical. Both clinical and neurophysiological outcome suggest that damage done to vastus lateralis either by splitting or elevating appears to be identical.
The purpose of this study was to determine whether there is a significant difference in femoral component alignment when the posterior and direct lateral approaches are compared.
1. AP radiograph A Tip of stem to outer medial cortex. B Tip of stem to outer lateral cortex. 2. Lateral radiograph C Tip of stem to anterior outer cortex D Tip of stem to posterior outer cortex. Component alignment was defined as A – B and C – D.
The purpose of this study was to determine whether there is a significant difference in femoral component alignment when the posterior and direct lateral approaches are compared.
AP radiograph Tip of stem to outer medial cortex. Tip of stem to outer lateral cortex. Lateral radiograph C Tip of stem to anterior outer cortex D Tip of stem to posterior outer cortex. Component alignment was defined as A – B and C – D.
The effect of screw geometry on the pullout strength of Anterior Cruciate Ligament [ACL] reconstruction is well documented. Most research has looked at the effect of screw length and diameter, however other factors such as the degree of taper may also be important. Tapered screws should in theory be associated with increased pullout strength. This has not been demonstrated either clinically or A parallel and tapered screw were manufactured which were identical in all other respects. Sixty superficial digital flexors from the hind legs of sheep were harvested. The tendons were paired and combined to form a quadruple tendon reconstruction of approximately 7mm diameter as measured with graft sizer. An ACL reconstruction was performed on the proximal tibia of 30 bovine knees, which had been harvested in right and left knee pairs, using the quadruple tendon. Fifteen reconstructions were fixed using tapered screws and fifteen with non-tapered screws. The insertion torque of both tapered and non tapered screws were recorded using an instrumented torque screwdriver. The reconstructions were mounted in an Instron materials testing machine with an x-ray bearing system to eliminate horizontal forces, to ensure that the forces were all directed along the line of the tibial tunnel. The maximum pullout strengths were recorded in each case. Five knee pairs were subjected to bone densitometry scanning to ensure that any difference in pull out strength was not due to changes in bone density between right and left knee pairs. Results indicated that there was no difference between right and left knee pairs [p = 0.58] and that tapered screws were associated with significantly higher pull-out strengths [p=0.007] and insertion torques [p = 0.001].
Routine metalwork removal, in asymptomatic patients, remains a controversial issue in our daily practice. Current literature emphasized the potential hazards of implant removal and the financial implications encountered from these procedures. However, there is little literature guidance and no published research on current practice. To estimate the current state of practice of orthopaedic surgeons in the United Kingdom regarding implant removal for limb trauma in asymptomatic patients, an analysis of the postal questionnaire replies of 36% (500 out of 1390) of randomly selected UK orthopaedic consultants was performed by two independent observers. 47.4% replies were received. A total of 205 (41%) were found to be suitable for analysis. The most significant results of our study I: 92% of orthopaedic surgeons stated that they do not routinely remove metalwork in asymptomatic skeletally mature patients. II: 60% of trauma surgeons stated that they do routinely remove metalwork in patients aged 16 years and under, while only 12% of trauma surgeons do routinely remove metalwork in the age group between 16–35 years. III: 87% of the practising surgeons indicated that they believe it is reasonable to leave metalwork in for 10 years or more. IV: Only 7% of practising trauma surgeons replied to this questionnaire have departmental or unit policy. No policy is needed for metalwork removal, as most of the orthopaedic surgeons were complying with literature guidance supporting the potential risks associated with implant removal, in spite of the limited number of departmental or units’ policies on implant removal and the paucity of the literature documenting the current practice. However, there is a discrepancy among trauma surgeons in relation to metalwork removal between patient age groups. This indicates guidelines would be helpful to guide the surgeon for the best practice. This is important from a medico-legal standpoint because surgeons are being criticised for not achieving satisfactory results in negligence cases.
We hypothesise that the stiffness of the acetabular component influences the stresses transmitted to bone. Thus stress shielding or stress overload of the underlying host bone may be influenced by the choice of fixation method. In addition, we believe that the so called “brake drum effect” plays a significant role in the development of rim stresses and subsequent failure of fixation. We have constructed a jig which allows the direct comparison, under controlled conditions, of contact stresses measured behind the acetabular component of polyethylene controls, uncemented metal backe cups and cemented all polyethylene cups, under physiological load. The design of the jig also allows measurement of stresses transmitted to the acetabular rim of the same three prostheses in order to confirm the presence and magnitude of the brake drum effect. The contact stresses are measured by miniature pressure transducers which are inserted through specially drilled holes in the shell of the jig so that the transducer is flush with the prosthesis under test. A total of 6 transducers are arranged in concentric circles radiating away from the prosthetic dome, so that contact stresses may be directly measured in various parts of the acetabular bed under conditions that reproduce as closely as possible the situation in a total hip prosthesis The results indicate that significantly less stress is transmitted to bone when metal back components are used as compared to cemented components and controls. The data confirms that the brake drum effect occurs in both cemented and uncemented prostheses, leading to at least the absence of compressive forces at the prosthetic rim and in some circumstances tensile forces.
We compared magnetic resonance imaging (MRI) scans and plain antero-posterior (AP) and lateral radiographs of 100 randomly selected patients in order to detect segmental abnormalities of the lumbar spine. We started by identifying those who appeared to have a segmental defect of the lumbar spine on MRI scan. We then checked all 100 plain radiographs to detect the true rate of segmental abnormality. We detected 17 patients with a segmental abnormality that correlates well with other studies. We believe that MRI scanning alone is not sufficient to detect reliably all segmentation defects in the lumbar spine, and that a plain lateral and an AP x-ray is also required. Of those who do have a segmentation disorder we have identified a sub-group who are at risk of surgery at the wrong level, if the correct pre-operative work-up is not performed. The difficulty will occur when a segmental abnormality is present (as determined by plain radiographs) and it is missed by MRI scan, and plain films are not taken, and the correct level is determined by counting upwards from the lumbosacral take-off angle using the image intensifier in theatre. We believe that all patients undergoing nerve root decompression should have an AP and lateral plain film and an MRI scan as well as pre-operative image intensification in theatre. Although the number of patients that would be affected by this is small, the consequences of operating on the wrong level are well recognised and can be avoided by being aware of the potential problem and by adhering to the above recommendations.