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Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_6 | Pages 43 - 43
1 May 2021
Hutchinson R Ferguson D
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Introduction

Retention and removal of children's orthopaedic metalwork is a contentious issue that has implications for current resource allocation, health economics, complication risks and can impact on future treatments. Understanding how to guide families make informed choices requires an overview of all the relevant evidence to date, and knowledge of where the evidence is lacking. Our aim was to systematically review the literature and provide a meta-analysis where possible, recommending either retention or removal.

Materials and Methods

A search of the literature yielded 2420 articles, of which 22 papers were selected for the study analysis. Inclusion criteria: Any paper (evidence level I-IV) assessing the risks or benefits of retaining or removing orthopaedic metalwork in children. Exclusion criteria: Spinal implants; implant number < 40; < 75% recorded follow up; papers including implants in their analysis that always require removal; patients aged >18 years.


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_1 | Pages 91 - 91
1 Jan 2013
Ferguson D Jones S Parker J Aderinto J
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Aim

To review the outcome of deep prosthetic infection in patients following hip hemiarthroplasty surgery.

Method

A retrospective case-note analysis was performed of deep infection coded hip hemiarthroplasty patients between 2004–2009. Patients were selected when there was proven microbiology from deep wound swabs or tissue specimens.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XLI | Pages 104 - 104
1 Sep 2012
Roe J Hui C Ferguson D Kok A Salmon L Pinczewski L
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Anterior cruciate ligament (ACL) injuries are being seen with increasing frequency in children. Treatment of the ACL deficient knee in skeletally immature patients is controversial.

To determine the outcome of anatomic transphyseal ACL reconstruction in tanner stage 1 and 2 patients with open growth plates at a minimum of 2 years after surgery.

Between 2007–2008, 16 prepubescent skeletally immature patients underwent anatomic transphyseal ACL reconstruction using soft tissue grafts. All patients were tanner stage 1 and 2 and all had open growth plates. Outcomes were assessed at a minimum of 2 years after surgery and included: limb alignment, limb length, instrumented testing with KT-1000 and International Knee Documentation Committee (IKDC) score.

Mean age at the time of surgery was 12 years (8–14). Graft choices included: living-related donor hamstring tendon allograft (n=14), hamstring tendon autograft (n=1) and fresh frozen allograft (n=1). Mean IKDC subjective score was 96 (84–100). Sixty-two percent of patients had <3mm side-to-side difference on instrumented KT-1000 testing and 88% had a negative pivot shift. At 2 years after surgery, all patients had returned to strenuous activities and normal or nearly normal overall IKDC score was documented in 94% of patients. There were no cases of limb malalignment or growth arrest.

We present a large series of anatomic transphyseal ACL reconstruction in tanner stage 1 and 2 patients with open growth plates at a minimum of 2 years following surgery. Excellent clinical outcomes were obtained with high levels of return to desired activities. Importantly, no growth disturbances were seen in this series of patients.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XLI | Pages 4 - 4
1 Sep 2012
Oussedik S Scholes C Leo S Ferguson D Roe J Parker D
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Computer navigation has been shown to improve the accuracy of total knee replacement (TKR) when compared to intra or extra osseous referencing. Currently the surgical transepicondylar axis (TEA) is used to help determine femoral component rotation. This relies on the surgeon identifying medial and lateral epicondyles intra-operatively. This process has been shown to have a high variability and operator dependency. The functional flexion axis (FFA) of the femur is a kinematically derived reference axis which has previously been shown in a cadaveric model to correspond well with the transepicondylar axis. This study was therefore designed to evaluate its accuracy in vivo.

50 patients undergoing total knee replacement under the care of the three senior authors were prospectively recruited. A preoperative CT scan was obtained and the TEA evaluated by 2 independent clinicians. TKR was undertaken in the standard fashion using Stryker navigation. The FFA was derived at 3 time points during the procedure: pre-incision, post osseous registration and following component implantation. The deviations of the FFA and surgical TEA (surTEA) to the CT-derived TEA (ctTEA) was calculated and comparisons drawn between the 2 methods with respect to validity, as well as within and between-patient reproducibility.

While the FFA results were highly correlated between pre and post-arthrotomy (r = 0.89), the post-incision FFA (−1.60+/−3.7) was significantly internally rotated (p<0.01) relative to the pre-incision FFA (−2.50+/−3.4). In addition the surgical TEA (−0.40+/−3.6) was significantly internally rotated (p = 0.02) relative to the post-incision FFA (1.80+/−3.7) for the combined data from all 2 surgeons. However, when examined individually, 1 of the 2 surgeons showed no significant difference between the FFA and TEA. In addition, the two methods demonstrated comparable between-patient variability in the knee axis, although surgeon-dependent patterns remained.

The FFA has been shown to be of equivalent accuracy to the surgical TEA but surprisingly does not avoid its operator-dependency. Further evaluation of the FFA method with possible adjustments to the algorithm is warranted.