There is a lack of published evidence relating to the rate of nonunion seen in occult scaphoid fractures, diagnosed only after MRI. This study reports the rate of delayed union and nonunion in a cohort of patients with MRI-detected acute scaphoid fractures. This multicentre cohort study at eight centres in the UK included all patients with an acute scaphoid fracture diagnosed on MRI having presented acutely following wrist trauma with normal radiographs. Data were gathered retrospectively for a minimum of 12 months at each centre. The primary outcome measures were the rate of acute surgery, delayed union, and nonunion.Aims
Methods
The evidence demonstrating the superiority of early MRI has led to increased use of MRI in clinical pathways for acute wrist trauma. The aim of this study was to describe the radiological characteristics and the inter-observer reliability of a new MRI based classification system for scaphoid injuries in a consecutive series of patients. We identified 80 consecutive patients with acute scaphoid injuries at one centre who had presented within four weeks of injury. The radiographs and MRI scans were assessed by four observers, two radiologists, and two hand surgeons, using both pre-existing classifications and a new MRI based classification tool, the Oxford Scaphoid MRI Assessment Rating Tool (OxSMART). The OxSMART was used to categorize scaphoid injuries into three grades: contusion (grade 1); unicortical fracture (grade 2); and complete bicortical fracture (grade 3).Aims
Methods
To determine the role of early MRI in the management of suspected scaphoid fractures. A total of 337 consecutive patients presenting to an emergency department (ED) following wrist trauma over a 12-month period were prospectively included in this service evaluation project. MRI was not required in 62 patients with clear diagnoses, and 17 patients were not managed as per pathway, leaving a total of 258 patients with normal scaphoid series radiographs who were then referred directly from ED for an acute wrist MRI scan. Patient demographics, clinical details, outcomes, and complications were recorded at a minimum of a year following injury.Aims
Methods
Osteoarthritis (OA) involves pathological change in all joint tissues, including cartilage degradation and synovitis. Synovial inflammation is significantly associated with pain severity and incidence in knee OA. It is becoming evident that synovitis also plays an active role in the initiation and progression of cartilage erosion in OA, through direct secretion of catabolic enzymes as well as factors that stimulate chondrocyte catabolic activity. Therapeutic agents that target both synovitis and cartilage pathology are likely to be maximally beneficial in treating pain and slowing cartilage breakdown in OA. We have previously shown that an amide-derivative of HA (HYMOVIS™) was superior to native HA of the same MW in improving gait, and reducing synovial hyperplasia in a sheep OA model. In the present study the mechanisms whereby the chemically modified HA may be beneficial were examined using chondrocytes and synovial fibroblasts from knees of OA patients. Chondrocytes (HAC, n=6) and synovial fibroblasts (HSF, n=6) were isolated from OA patients at the time of knee replacement. HYMOVIS™ (0, 0.5, 1.0 or 1.5mg/mL) was added to simultaneously or 1 hour before interleukin-1β (IL1, 2ng/mL). Cultures were terminated 30 minutes later for Bioplex® quantitation of p-JNK, p-NFκB and p-p38; or 24 hours later for RNA isolation and analysis of gene expression by real time RT-PCR, and measurement of MMP13 activity in the media. Only statistically significant results are reported.Introduction
Patients & Methods
R Appleyard, Murray Maxwell Biomechanics Lab, Royal North Shore Hospital, Sydney The fundamental mechanisms that underlie tendon breakdown are ill understood. There is an emerging hypothesis that altered mechanical strain modulates the metabolism and/or phenotype of tenocytes, disrupting the balance of matrix synthesis and degradation, and that rupture then occurs through an abnormal tendon matrix. The critically regulated genes have not yet been determined. We have developed sheep model in sheep where both stress-deprived and over-stressed areas can be examined in the one tendon, to evaluate the pathological and molecular changes over time. We have also used ‘wild type’ and genetically modified mice to determine the role of specific enzymes and proteoglycans in tendon degeneration. Stress-deprived and over-stressed regions showed classical changes of increased cellularity and vascularity, rounded tenocytes and interfascicular matrix infiltration. These structural changes resolved for up to one year after injury. Resolution was more rapid in over-stressed regions. Irrespective of the initiating stress, proteoglycan staining and chondroid metaplasia increased in tendon with time. There were distinct molecular and temporal differences between regions, which are reviewed here. While tendon degeneration has traditionally been regarded as a single field of change, our studies show that at a molecular level, the injured tendon may be regarded as a number of distinct regions—overloaded and underloaded, adjacent to bone or adjacent to muscle. Each region manifests distinct molecular changes, driven by relevant gene expression. While collagen metabolism in pathological tendon has received much attention, accumulation of proteoglycan is also consistently induced by altered mechanical loading. We suggest that ADAMTS enzymes, which cleave aggrecan, versican and small proteoglycans, may play a significant role in tendon homeostasis and pathology. Regulating proteoglycan turnover may represent a novel target for treating tendon degeneration. We have initiated studies using mesenchymal stem cells (MSC), not to directly augment healing but to modify the molecular pathology in tendon resulting from altered loading. Preliminary data indicates that injection of MSC into an acute tendon defect significantly abrogates the increase in expression of aggrecan and collagen degrading metalloproteinases in the adjacent over-stressed tendon. This may decrease the resultant degeneration. The effects of MSC in treating tendon degeneration are reviewed here, as are the possible benefits of radiofrequency microtenotomy.
The morbidity associated with tendinopathy is a costly burden on our health system. Recent investigations in our laboratory have shown that alterations in mechanical stress cause significant changes in tendon expression of key matrix molecules and proteolytic enzymes including the aggrecanase molecules, (e.g. ADAMTS-5). Here, we investigate the biomechanical consequences of such altered tensile stress in tail tendons from mice with and without deletion of the ADAMTS-5 gene. Tail tendons from 12 week old C57BL6 wild type and ADAMTS-5 knock-out mice were immediately snap frozen (ex vivo), or cultured stress deprived for 120 hours in DMEM/10% FCS (eight tendons per group). Material properties including maximum stress, strain and elastic modulus were determined for each tendon in uniaxial tension to failure at a constant strain rate of 1.0 mm/second (10% strain/second) on an Instron 8874 servo-hydraulic testing apparatus. Significant differences between groups were determined with Kruskal-Wallis one-way analysis of variance, followed by Mann-Whitney U test with Benjamini-Hochberg post-hoc corrections for multiple comparisons. Stress deprivation for 120 hours led to a significant increase in maximum stress for both the wild type (~150% increase, p = 0.0008) and ADAMTS-5 deficient (~100%, p = 0.0033) mice when compared to ex vivo tendon. Stress deprivation led to a 100% increase in elastic modulus compared to ex vivo for the wild type tendons (p = 0.0033) but failed to increase this parameter in the ADAMTS-5 deficient mice. When the effect of stress deprivation of the ADAMTS-5 deficient mice was directly compared to the wild type stress deprived tendons, a 35% decrease in elastic modulus was found (p = 0.021). We have shown for the first time that deletion of an aggrecanase molecule significantly decreases the material properties of tendon. Alterations in the expression of the aggrecanase molecules may play a role in the development and progression of tendinopathy through their ability to modulate the metabolism of aggrecan [
punctate deposits in the outer annulus, diffuse deposits in the transitional zone or inner annulus fibrosus with occasional deposits in the nucleus, or large deposits in the transitional zone extending variably into the nucleus. Their maximal incidence was in the lower lumbar discs (L4/5-L6/7) with no calcification seen in the lumbosacral or lower thoracic discs. All deposits were hydroxyapatite with large crystallite sizes (800–1300 angstrom) compared to cortical bone (300–600 angstrom). No type X-collagen, osteopontin or osteonectin, were detected in calcific deposits although positive staining for bone sialoprotein was evident. Calcified discs had less proteoglycan of smaller hydrodynamic size than non-calcified discs.
We developed a questionnaire to assess patient-reported outcome after surgery of the elbow from interviews with patients. Initially, 17 possible items with five response options were included. A prospective study of 104 patients (107 elbow operations) was carried out to analyse the underlying factor structure, dimensionality, internal and test-retest reliability, construct validity and responsiveness of the questionnaire items. This was compared with the Mayo Elbow performance score clinical scale, the Disabilities of the Arm, Shoulder and Hand questionnaire, and the Short-Form (SF-36) General Health Survey. In total, five questions were considered inappropriate, which resulted in the final 12-item questionnaire, which has been referred to as the Oxford elbow score. This comprises three unidimensional domains, ‘elbow function’, ‘pain’ and ‘social-psychological’; with each domain comprising four items with good measurement properties. This new 12-item Oxford elbow score is a valid measure of the outcome of surgery of the elbow.
A systematic review of the English language literature has suggested that the performance of linked and unlinked elbow replacement implants differ in terms of function, survival and mode of failure; however, in this review, only one comparative series using contemporary implants was identified. We have performed a cohort study of Kudo, Souter-Strathclyde and Coonrad-Morrey elbow replacements performed at a single centre by or under the direct supervision of a single Consultant shoulder and elbow surgeon to see if these findings were reflected in clinical practice. The first forty implantations in patients with Rheumatoid arthritis for each device have been reviewed with respect to surgical complications, elbow function and implant survival. The follow-up was shorter for the Coonrad-Morrey cohort. In terms of pain relief and range of motion, the performance of the implants was comparable. The mode of failure was different, with no dislocations/ instability seen with the linked Coonrad-Morrey implants. The loosening rate of the Coonrad-Morrey implants (both clinical and radiographic) was lower, albeit with a shorter follow-up period. The loosening rates seen in this series were higher than those previously reported in the English language literature. We conclude that the functional performance of the implants, at similar stages of the surgical learning curves, are similar in patients with Rheumatoid arthritis, but that use of a linked implant removes the risk of post-operative instability and may reduce the risk of the radiographic and clinical loosening.
There is an increasing interest amongst surgeons and demand from patients for hip resurfacing. One concern regarding resurfacing is the incidence of femoral neck fracture post operatively. McMinn and Treacy report an incidence of 0.4% in their series, our finding was of an incidence of over four times as high (1.9%). We looked at our database of hip resurfacings and tried to identify the risk factors for fracture. We identified 11 fractures and compared these with 22 controls selected by choosing the cases performed by the surgeon immediately before and after the fracture case. We analysed their medical notes and x-rays. Statistical analysis was performed using a package in ™Excel. The implants were either Birmingham Hip (Midland Medical Technologies) or Cormet (Corin) resurfacings. No statistically significant correlation was found for sex, age or body mass index. We found that fracture was twice as likely in the presence of possible or probable osteopenia. We did not find that fracture was more likely to occur in patients with a previous diagnosis of Perthes, DDH, SUFE and avascular necrosis (AVN). We found patients with a superior overhang of the femoral component on the neck did not risk fracture, however we could not demonstrate that notching in itself increased the risk of fracture. There was no correlation with neck-shaft and stem-shaft angle or neck lengthening and offset and subsequent neck fracture. In 13 bilateral cases there was fracture in 3 (incidence 23%). Apart from one fracture that occurred at 18 weeks post-operatively all the others occurred before eight weeks. Five fractures occurred in patients who subsequently on histological analysis were found to have avascular necrosis. We conclude that bilateral surgery is probably unwise. That a superior overhang seems to protect against fracture as long as this is not at the expense of creating an inferior notch. Finally, we find AVN in a number of retrieved heads, what is the true incidence of AVN and does the approach adopted cause the avascular process and if so why do we see so few fractures?
