Ankle fractures associated with diabetes experience more complications following standard Open-Reduction-Internal-Fixation (ORIF) than those without diabetes. Augmented fixation strategies namely extended ORIF and hind-foot-nail (HFN) may offer better results, and early weightbearing in this group. The aim of this study was to define the population of patients with diabetes undergoing primary fixation for ankle fractures. Secondarily, to assess the utilisation of standard and augmented strategies and the effect of these choices on surgical outcomes including early post-operative weight bearing and surgical complications. A national-multicentre retrospective cohort study was conducted between January to June 2019 in 56 centres (10 Major- Trauma-Centres and 46 Trauma-Units) in the United Kingdom; 1360 specifically defined complex ankle-fractures were enrolled. Demographics, fixation choice, surgical and functional outcomes were recorded. Statistical analysis was performed to compare high-risk patients with/without diabetes.Background
Methods
Optimal management of displaced intra-articular calcaneal fractures remains controversial. The aim of this prospective cohort study was to compare the clinical and radiological outcomes of minimally invasive surgery (MIS) versus non-operative treatment in displaced intra-articular calcaneal fracture up to 2-years. All displaced intra-articular calcaneal fractures between August 2014 and January 2019 that presented to a level 1 trauma centre were considered for inclusion. The decision to treat was made by a multidisciplinary meeting. Operative treatment protocol involved sinus tarsi approach or percutaneous reduction & internal fixation. Non-operative protocol involved symptomatic management with no attempt at closed reduction. All fractures were classified, and the MOXFQ/EQ-5D-5L scores were used to assess foot and ankle and general health-related quality of life outcomes respectively.Background
Methods
Charcot neuroarthropathy is a debilitating condition that frequently leads to skeletal instability, and has an increased risk of ulceration leading to infection and amputation. However, surgical reconstruction may offer limb salvage and restauration of an ulcer-free, plantigrade stable foot for functional weight-bearing. We report on our case series according to a prospective protocol and analyse factors leading to a favourable outcome. We report a prospective follow-up of 62 patients undergoing Charcot reconstruction, May 2014- Jan 2022, by two surgeons. Peripheral vascular disease was routinely assessed using Duplex scan and major arterial disease was treated before reconstruction. Utilising 3D modelling, pre-operative planning and standardised osteotomies, we performed anatomical correction with radiological evidence. Definitive fixation was undertaken with internal fixation to stabilise the hindfoot. Multivariant analysis was performed to assess risk factors for failure (P>0.05 statistical significance).Introduction
Methods
The management of open or unstable ankle and distal tibial fractures pose many challenges. In certain situations, hindfoot nailing (HFN) is indicated, however this depends on surgeon preference and regional variations exist. This study sought to establish the current management and outcomes of complex ankle fractures in the UK. A National collaborative study in affiliation with BOTA was conducted and data retrospectively collected between January 1st – June 30th 2019. Adult patients with open and closed complex ankle fractures (AO43/44) were included. Complex fractures included the following patient characteristics: diabetes ± neuropathy, rheumatoid arthritis, alcoholism, polytrauma and cognitive impairment. We obtained data on fixation choice and patient outcomes. Institutional approval was obtained by all centres, and statistical analysis was performed including propensity matching.Introduction
Methods
Charcot neuroarthropathy (CN) of foot and ankle presents significant challenges to the orthopaedic foot and ankle surgeon. Current treatment focuses on conservative management during the acute CN phase with offloading followed by deformity correction during the chronic phase. However, the deformity can progress in some feet despite optimal offloading resulting ulceration, infection, and limb loss. Our aim was to assess outcomes of primary surgical management with early reconstruction. Between December 2011 and December 2019, 25 patients underwent operative intervention at our specialist diabetic foot unit for CN with progressive deformity and or instability despite advanced offloading. All had peripheral neuropathy, and the majority due to diabetes. Twenty-six feet were operated on in total - 14 during Eichenholtz stage 1 and 12 during stage 2. Fourteen of these were performed as single stage procedures, whereas 12 as two-stage reconstructions. These included isolated hindfoot reconstructions in seven, midfoot in four and combined in 14 feet. Mean age at the time of operation was 54. Preoperative ulceration was evident in 14 patients.Introduction
Methods
Corrective fusion of a deformed / unstable Charcot neuroarthropathy (CN)of the midfoot and hindfoot is performed with the aim to prevent ulcers and maintain patient mobility. Between October 2007 and July 2018, 103 CN mid and hind foot corrections in 95 patients were performed. There were 34 hind-foot, 38 mid-foot and 31 combined hind and mid-foot surgeries. 83 feet had single stage corrections, whereas 20 required a staged operation.Background
Methods
Impaired fracture repair in patients with type 2 diabetes mellitus (T2DM) is not fully understood. In this study, we aimed to characterize the local changes in gene expression (GE) associated with diabetic fracture. We used an unbiased approach to compare GE in the fracture callus of Zucker diabetic fatty (ZDF) rats relative to wild-type (WT) littermates at three weeks following femoral osteotomy. Zucker rats, WT and homozygous for leptin receptor mutation (ZDF), were fed a moderately high-fat diet to induce T2DM only in the ZDF animals. At ten weeks of age, open femoral fractures were simulated using a unilateral osteotomy stabilized with an external fixator. At three weeks post-surgery, the fractured femur from each animal was retrieved for analysis. Callus formation and the extent of healing were assessed by radiograph and histology. Bone tissue was processed for total RNA extraction and messenger RNA (mRNA) sequencing (mRNA-Seq).Aims
Methods
The increased incidence of type 2 Diabetes Mellitus is associated with an impaired skeletal structure and a higher prevalence of bone fractures. Sclerostin is a negative regulator of bone formation produced by osteocytes and there is recent evidence that its expression in serum is elevated in diabetic patients compared to control subjects. In this study, we test whether hyperglycemia affects serum and bone sclerostin levels in a rat model of type 2 Diabetes as well as sclerostin production by osteoblasts in culture. We used Zucker diabetic fatty (ZDF) male rats (n=6) that spontaneously develop obesity and frank diabetes around 8–9 weeks of age and Zucker lean rats as controls (n=6) to examine sclerostin expression in serum at 9, 11 and 13 weeks using a specific ELISA. Sclerostin expression in bone tibiae was examined at 12 weeks using immunocytochemistry. Rat osteoblast-like cells UMR-106 were cultured in the presence of increasing concentrations of glucose (5, 11, 22 and 44 mM) during 48 hours and sclerostin mRNA expression and release in the supernatant determined by quantitative PCR and ELISA, respectively. Our results show that serum sclerostin levels are higher in the diabetic rats compared to lean rats at 9 weeks (+ 140%, p<0.01). Our preliminary results using immunocytochemistry for sclerostin did not show any major difference in sclerostin expression in tibiae of diabetic rats compared to lean ones, although we observed many osteocytic empty lacunae in cortical bone from diabetic rats. Glucose dose-dependent stimulated sclerostin mRNA and protein production in mature UMR106 cells while it had no effect on osteocalcin expression. Altogether, our data suggest that sclerostin production by mature osteoblasts is increased by hyperglycemia in vitro and enhanced in serum of diabetic rats. Furthers studies are required to determine whether sclerostin could contribute to the deleterious effect of Diabetes on bone.
Lunate or perilunate dislocations are common carpal injuries. Current treatment of these injuries by repair or reconstruction of intra-carpal ligaments is largely based on Mayfield's description of sequential failure of these ligaments. We do treat significant number of these injuries. We have observed that dorsal wrist capsule is attached to dorsal aspect of proximal carpal row and its interosseous ligaments by vertically oriented identifiable fibres. This can be seen as carpal bones suspended from dorsal capsule, akin to cloths suspended from a washing line. We have also observed that in lunate or perilunate dislocations, dorsal capsule is peeled off from the dorsal aspect of lunate and distal radius, similar to a Bankart lesion in the shoulder. We believe that dorsal capsule plays a bigger role in the stabilising mechanism of carpal bone than the intercarpal ligaments. It has not been described before. We dissected three cadaveric wrists and found vertical fibres running from dorsal wrist capsule/ligaments to the dorsal components of the scapholunate and lunotriquetralinterosseous ligaments. We have modified the Mayo approach to dorsal wrist capsule and use suture anchors to attach dorsal capsule/ligaments to scaphoid, lunate and triquetrum rather than repairing intra-carpal ligament. We have used this technique in 26 patients so far. Follow up for more than 4 years have shown satisfactory results and no significant recurrence of instability. We present a novel, so far unreported, method of repairing the intracarpal injuries, using the dorsal capsule/ligaments, based on anatomic and intra-operative observations.
We present a novel approach to the management of patients with longstanding heel ulcers complicated by open calcaneal fractures. The principles of management of diabetic foot ulcers were combined with applied physiology of fracture healing. Case notes of 6 consecutive patients who presented to our diabetic foot clinic between January 2009 and December 2009 were reviewed. Type of diabetes, duration of heel ulcer, type of fracture and treatment given were recorded. Initial treatment consisted of regular local debridement and application of dressing. Vacuum Assisted Continuous (VAC) pump application was deferred until 6 weeks to preserve fracture hematoma and thereby initiate fracture healing. In all patients, VAC pump was started at 6 weeks and continued till healing of ulcer to adequate depth. Infection was treated aggressively with appropriate antibiotics according to the microbiology results. The average age was 53 (40-60) and the mean duration of follow up was 6 months. All wound healed completely, fractures united and patients returned to previous function. An open calcaneal fracture presents a severe injury likely to be complicated by infection and consequent osteomyelitis leading to amputations. In our group of patients, a novel treatment approach consisting of multidisciplinary model resulted in successful limb preservation and return to function.
Vascular Endothelial Growth Factor (VEGF) has been shown to stimulate angiogenesis in a number of tissues and, in addition, to possess direct vasoactive properties. Stimulation of blood flow and angiogenesis are important features of the fracture healing process, particular in the early phases of healing. Inadequate vascularity has been associated with delayed union after fracture. The periosteum, and in particular its osteogenic cambial layer, has been shown to be very reactive to fracture and to contribute substantially to fracture healing. Fracture haematoma contains a considerable concentration of VEGF and enhanced plasma levels are observed in patients with multiple trauma. VEGF has been suggested to play a role during new bone formation possibly providing an important link between hypertrophic cartilage, angiogenesis and consequent ossification. However, the expression of VEGF in normal periosteum and in periosteum close to a fracture has not been previously reported. We hypothesise that the expression of VEGF in long bone periosteum will show a distinct response to fracture. We investigated the expression of VEGF In Group 1 the periosteum showed abundant but delicate blood vessels staining throughout for VEGF but there was no other visible staining of other structures or cells. In Group 2 the vasculature in the periosteum close to the fracture site demonstrated a characteristic, time-dependent course of expression of VEGF. At 24 and 48h following fracture the vasculature showed a heterogenous picture. The vessels in periosteum showed signs of activation: thickened endothelia and dilated lumina, but did not express VEGF. At 60h the vessels began to show signs of the presence of VEGF protein and by 4 days most periosteal vessels expressed VEGF. Also at this time, VEGF staining was visible in some of the stromal cells of the periosteum that was not seen in any of the earlier times. At 9 days VEGF was visible not only in the omnipresent vasculature, but now consistently in spindle shaped cells of fibroblastic appearance and chondrocytes throughout the early callus. This study, though limited by the number of patients, shows for the first time the expression of VEGF in normal periosteum as well as in periosteum during fracture healing. Interestingly, activated vessels in the early healing phase show little expression of VEGF; however it is known that the fracture haematoma contains VEGF in abundance. It is possible that the vasoactive role of VEGF prevails in these early days. There may be a critical time point at around 48h post fracture following which angiogenesis begins and VEGF is expressed in the endothelium throughout the vessel wall. The study suggests an important role for VEGF in the regulation of fracture healing. VEGF is not only expressed in endothelial cells within the periosteum but also in fibroblast-like stem cells and chondrocytes throughout the early callus suggesting it may play an important role in both osteo- and angiogenesis