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Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_1 | Pages 193 - 193
1 Jan 2013
McDonald K Gallagher B McLorinan G
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Introduction

Fractures of the distal radius are one of the most common extremity fractures encountered in A&E departments and general adult fracture clinics. Over the last 10 years the rate of operation for distal radial fractures has been steadily increasing. Staff within our unit felt that formal teaching, particularly of new medical staff, with regards to fracture reduction and appropriate cast application could result in a reduction in operation rates.

Methods

Retrospective data was extracted from FORD (Fracture Outcome and Research Database). Data included: the number of fractures in a 6 month period, number of fractures undergoing ORIF in that period, fracture configuration, patient demographics, and mechanism of injury. All patients undergoing ORIF had their radiographs assessed by 2 separate reviewers. Information regarding adequate fracture reduction, adequate cast application (using Gap Index calculation), and appropriate plaster cast moulding was recorded. Formal teaching was then given to the next group of medical staff rotating through the unit, and the same data was collected prospectively for that 6 month period. Exclusion criteria included bilateral injuries, and polytrauma patients.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XVII | Pages 47 - 47
1 May 2012
McDonald K O'Donnell M Verzin E Nolan P
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Objectives

Neurogenic intermittent claudication secondary to lumbar spinal stenosis is a posture dependant complaint typically affecting patients aged 50 years or older. Various treatment options exist for the management of this potentially debilitating condition. Non-surgical treatments: activity modification, exercise, NSAIDs, epidural injections. Surgical treatment options include decompression surgery and interspinous process device surgery. Interspinous process decompression is a relatively new, minimally invasive, stand-alone alternative to conservative and standard surgical decompressive treatments. The aim of this review is to evaluate the use of the X-Stop interspinous implant in all patients with spinal stenosis who were managed using the device in Northern Ireland up to June 2009.

Method

We performed a retrospective review of all patients who had the X-Stop device inserted for spinal stenosis by all consultant spinal surgeons in Northern Ireland. Patient demographics, clinical symptomatology, investigative modality, post-operative quality of life, cost effectiveness, complications and long-term outcomes were assessed. Information was collected from patients using a questionnaire which was posted to them, containing the SF-36 generic questionnaire and some additional questions.


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_III | Pages 450 - 450
1 Oct 2006
McDonald K Adam C Pearcy M
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Introduction The NIH estimates that 30–50% of women and 20–30% of men will develop a vertebral fracture in their lifetime. 700,000 vertebral fractures occur each year in the United States alone, 85% of which are associated with osteoporosis. Osteoporosis leads to reduced stiffness of vertebral cancellous bone and eventual loss of cortical wall thickness. This study aims to investigate the effects of cortical wall thickness and cancellous bone elastic modulus on vertebral strength and fracture patterns using synthetic vertebrae made from bone analogue materials.

Methods Synthetic vertebrae were created using rapid prototyping for the cortical shell and expanding polyurethane foam filler for the cancellous core. Dimensions were based on human L1 vertebra as specified in Panjabi et al. (1992). Silicone mouldings were used as intervertebral disk phantoms. The synthetic vertebrae were subjected to uniaxial compression at constant strain rate (5mm/min) using a Hounsfield testing machine. Force and displacement were logged until ultimate specimen failure, as well as video to record gross fracture patterns.

Results Post-failure examination indicated that successful filling of the synthetic shell by the expanding foam was achieved. Pilot results demonstrate the repeatability of the technique, with < 4% variation between specimens compared to mean initial fracture load and < 2.5% variation from mean ultimate load. Initial fracture occurred at approximately 67% of ultimate failure load. Initial fracture occurred consistently at the vertebral endplates which is similar to reported in vitro behaviour with cadaveric specimens. Investigation of the effects of cancellous foam elastic modulus is currently underway.

Discussion A synthetic L1 vertebra has been successfully developed, providing a highly repeatable analogue for investigation of the biomechanics of osteoporotic vertebral compression fractures. While the magnitude of the force obtained from the synthetic vertebrae differs from real human vertebrae due to differing material properties, comparative biomechanics between the synthetic and real vertebrae appear consistent, and fracture patterns are similar to those observed in cadaveric studies.