Total knee arthroplasty (TKA) is a common orthopaedic procedure with over 1,500 done in 2016 in Ireland alone. 96% of all TKAs are due to pain in the knee associated with osteoarthritis. According to the UK National Joint Registry (NJR), there is a 0.47%, 1.81%, 2.63% and 4.34% probability risk of undergoing a revision TKA within one, three, five and ten years respectively post-index surgery. A variety of reasons for failure of TKA have been described in the literature including infection, aseptic loosening, pain, instability, implant wear, mal-alignment, osteolysis, dislocation, peri-prosthetic fracture and implant fracture. The NexGen Posterior Stabilised Fixed has NJR revision rates of 0.44%, 1.61% and 2.54% at years one, three and five respectively. A retrospective review was carried out of 350 NexGen TKAs that were performed directly by, or under the supervision of, a fellowship trained arthroplasty surgeon in a dedicated orthopaedic hospital between April 2013 and December 2015. 26
Epidemiological studies have shown that accumulated mechanical stress is a risk factor for the development of osteoarthritis (OA). This debilitating progressive clinical condition affects a broad spectrum of patients and will ultimately lead to definitive arthroplasty surgery as the endpoint treatment option in many cases. The aim of this study is to establish a graded murine model of OA by medial meniscotibial destabilisation of the knee joint and in phase two, to investigate the migration and engraftment of radioisotope labeled mesenchymal stem cells (MSCs) at varying points of disease progression. The first phase of the study was to establish the murine model, an Irish first. All procedures were performed aseptically under general anaesthesia via a midline medial parapatellar approach on a murine fracture table. Microsurgical dissection was performed through necropsy analysed layers to the joint space and the meniscotibial ligament identified and transected. Validated histopathological analysis was performed at two, four, eight and twelve weeks postoperatively. The results showed a gradation of OA changes from mild unicondylar changes at two weeks, moderate unicompartmental change at four, severe unicompartmental change at eight and severe bicompartmental change at twelve weeks post-operatively. In vivo Bazooka-Single Photon Emission Computed Tomography (SPECT) (Phase 2) imaging studies are currently ongoing following the model establishment.
The aim of this study was to identify and quantify any benefits of early active treatment of paediatric femoral shaft fractures for patients, their families, and the hospital. Our protocol (1999-2002) uses flexible intramedullary nails for children older than five, early hip spica (within one week of injury) for the under five year olds, and external fixation for polytrauma (Early Active Group[EAG], n = 25). Prior to this (1999-2002), treatment consisted of late application of a hip spica (3-4 weeks following injury) or inpatient traction (Traditional Group [TG], n = 41). Outcome measures were length of hospital stay, degree of malunion, knee and hip movements, and leg length discrepancy. The financial burden to the family including waged and non-waged time lost, transport, childminder, and other extra costs were estimated. Hospital costs including inpatient stay, theatre, and implant costs were analysed.Background
Patients and methods
Venham Situational Anxiety Score was performed before and immediately after removal of K-wires. University College London Hospital sedation score was recorded every 20 minutes.
There was no significant difference in anxiety scores between the groups either before or after wire removal. The change in scores was not significantly different between the 2 groups. However, 45% of children in the active group had reduced anxiety levels in the active group compared to 18% of children given placebo but this difference was not significant (p=0.102). No child was excessively sedated but one in the active group became agitated and restless.
Our purpose wasto determine if oral midazolam reduces the anxiety of children undergoing removal of percutaneous Kirschner wires (K-wires) from the distal humerus in the Orthopaedic Outpatient Department. This was a prospective double blind, randomised controlled trial. 46 children aged between 3 and 12 years who had supracondylar fractures of the distal humerus internally fixed with K-wires were randomised into 2 groups. 0.2mg/kg oral midazolam (active group) or the same volume of an oral placebo (control group) was administered 30 minutes prior to removal of K-wires. Venham Situational Anxiety Score was performed before and immediately after removal of K-wires. University College London Hospital sedation score was recorded every 20 minutes. 42 children with an average age of 7.1 years (range 3.6–12.3 years) had complete documentation for analysis. The two groups had similar demographics. All wires were removed in the clinic with or without midazolam. There was no significant difference in anxiety scores between the groups either before or after wire removal. The change in scores was not significantly different between the 2 groups. However, 45% of children in the active group had reduced anxiety levels in the active group compared to 18% of children given placebo but this difference was not significant (p=0.102). No child was excessively sedated but one in the active group became agitated and restless. The anxiety scores before and after wire removal in the active group were not significantly different from the placebo group scores. We do not recommend the routine administration of midazolam (0.2 mg/kg) to all children requiring k-wire removal in the outpatient department.
The aim of this study was to compare the modern treatments for femoral fractures in children to see if they have any advantages over traditional treatments. The modern treatments are mainly operative with the objective is to get the children mobilising early and to minimise the time spent in hospital. We studied 66 children who had sustained a traumatic femoral shaft fracture, over a six-year period with a minimum follow up of two years. A protocol using early hip spicas for under 5 year olds, flexible intramedullary nails for over 5 year olds, and external fixation for the polytrauma cases was started in 1999. Over a three-year period there were 25 children who sustained a fracture (Early active group). These were prospectively reviewed with a minimum follow up of 24 months. The outcome measures being, length of hospital stay, degree of mal-union, range of movement of the hip and knee, leg length discrepancy, pain and functional restrictions. This modern patient group was compared with all the fractures in the three years prior to the new protocol commencing. This group were treated usually with in patient traction (Traditional group). There were 41 children in this group who had sustained a fracture between 1996 and 1999. The mean length of hospital stay was 32 nights in the traditional group and 19 nights in the early active group (p less than 0.001). If we exclude the children who were severely injured with multiple injuries the mean stay is 29 nights and 10 nights (p less than 0.001). There was no significant difference in the mal-union rate between the two groups. Very few had pain and at 2 years they all had good clinical and functional results. The only significant complication rate was with the fractures that were treated with an external fixator. These were mainly pin site infections. In our population there has been a 40% reduction in the incidence of femoral fractures over the six-year period for which we have no explanation. These modern treatments have resulted in a shorter hospital stay that has many advantages for the child and family as well as financial savings.