Heterotopic ossification is the formation of lamellar bone in soft tissues and is a common complication of high-energy combat injury. This disabling condition can cause pain, joint ankylosis, and skin ulceration in the residua of amputees. This project is aimed at developing a novel treatment to dissolve hydroxyapatite in heterotopic ossification and prevent the crystallisation of this this mineral at sites of ectopic bone formation. Previously reported results demonstrated that hexametaphosphate could dissolve hydroxyapatite at physiological pH. Further work has been undertaken to investigate the mechanism of this dissolution and establish a means of temporal control of action. In addition, physicochemical analyses of samples of human heterotopic ossification have yielded important insights into the nature of this pathological tissue. Techniques include mapped micro X-ray fluorescence, mapped Raman spectroscopy, scanning electron microscopy, and micro computed tomography. Formulation engineering work has begun in order to develop an appropriate delivery vehicle for this agent. This includes rheological testing and hexametaphosphate elution profiles. Finally, micro CT analysis has shown that hexametaphosphate is able to dissolve human heterotopic ossification tissue. In summary, this work has moved us closer towards our goal of a novel injectable agent for the treatment and prevention of heterotopic ossification

Distal femoral physeal fractures can cause of growth distrurbance which frequently requires further surgical intervention. The aim of this study was to determine if tibial tuberosity ossification at the time of injury can predict further surgery in patients who have sustained a physeal fracture of the distal femur. We retrospectively investigated all patients who had operative treatment for a distal femoral physeal fracture at a paediatric level one trauma center over a 17 year period. Logistic regression analysis was performed investigating associations between the need for further surgery to treat growth disturbance and tibial tuberosity ossification, age, Salter Harris grade, mode of fixation or mechanism of injury. 74 patients met the inclusion criteria. There were 57 boys (77%) and 17 girls (23%). The average age at time of injury was 13.1 years (range 2.-17.1 years). Following fixation, 30 patients (41%) underwent further surgery to treat growth disturbance. Absence of tibial tuberosity fusion to the metaphysis was significantly associated with need for further surgery (p = < 0 .001). Odds of requiring secondary surgery after tibial tuberosity fusion to metaphysis posteriorly (compared with not fused) were 0.12, 95% CI (0.04, 0.34). The estimate of effect of tibial tuberosity ossification on reoperation rates did not vary when adjusted for gender, mechanism, fixation and Salter Harris grade. When accounting for age, the odds of further operation if the tibial tuberosity is fused to the metaphysis posteriorly (compared with not fused) were 0.28, 95% CI (0.08, 0.94). Tibial tuberosity ossification stage at time of injury is a predictor of further surgery to treat growth disturbance in paediatric distal femoral fractures. Children with distal femoral physeal fractures whose tibial tuberosity was not fused to the metaphysis posteriorly were 8.3 times more likely to require further surgery

Heterotopic ossification (HO) is a well-known complication of traumatic elbow injuries. The reported rates of post-traumatic HO formation vary from less than 5% with simple elbow dislocations, to greater than 50% in complex fracture-dislocations. Previous studies have identified fracture-dislocations, delayed surgical intervention, and terrible triad injuries as risk factors for HO formation. There is, however, a paucity of literature regarding the accuracy of diagnosing post-traumatic elbow HO. Therefore, the purpose of our study was to determine the inter-rater reliability of HO diagnosis using standard radiographs of the elbow at 52 weeks post-injury, as well as to report on the rate of mature compared with immature HO. We hypothesized inter-rater reliability would be poor among raters for HO formation. Prospectively collected data from a large clinical trial was reviewed by three independent reviewers (one senior orthopedic resident, one senior radiology resident, and one expert upper extremity orthopedic surgeon). Each reviewer examined anonymized 52-week post-injury radiographs of the elbow and recorded: 1. the presence or absence of HO, 2. the location of HO, 3. the size of the HO (in cm, if present), and 4. the maturity of the HO formation. Maturity was defined by consensus prior to image review and defined as an area of well-defined cortical and medullary bone outside the cortical borders of the humerus, ulna, or radius. Immature lesions were defined as an area of punctate calcification with an ill-defined cloud-like density outside the cortical borders of the humerus, ulna or radius. Data were collected using a standardized online data collection form (CognizantMD, Toronto, ON, CA). Inter-rater reliability was calculated using Fleiss’ Kappa statistic and a multivariate logistic regression analysis was performed to identify risk factors for HO formation in general, as well as mature HO at 52 weeks post injury. Statistical analysis was performed using RStudio (version1.4, RStudio, Boston, MA, USA). A total of 79 radiographs at the 52-week follow-up were reviewed (54% male, mean age 50, age SD 14, 52% operatively treated). Inter-rater reliability using Fleiss’ Kappa was k= 0.571 (p = 0.0004) indicating moderate inter-rater reliability among the three reviewers. The rate of immature HO at 52 weeks was 56%. The multivariate logistic regression analysis identified male sex as a significant risk factor for HO development (OR 5.29, 1.55-20.59 CI, p = 0.011), but not for HO maturity at 52 weeks. Age, time to surgery, and operative intervention were not found to be significant predictors for either HO formation or maturity of the lesion in this cohort. Our study demonstrates moderate inter-rater reliability in determining the presence of HO at 52 weeks post-elbow injury. There was a high rate (56%) of immature HO at 52-week follow-up. We also report the finding of male sex as a significant risk factor for post traumatic HO development. Future research directions could include investigation into possible male predominance for traumatic HO formation, as well as improving inter-rater reliability through developing a standardized and validated classification system for reporting the radiographic features of HO formation around the elbow

Introduction. Osteogenesis imperfect (OI) is a geno- and phenotypically heterogeneous group of congenital collagen disorders characterized by fragility and microfractures resulting in long bone deformities. OI can lead to progressive femoral coxa vara from bone and muscular imbalance and continuous microfracture about the proximal femur. If left untreated, patients develop Trendelenburg gait, leg length discrepancy, further stress fracture and acute fracture at the apex of the deformity, impingement and hip joint degeneration. In the OI patient, femoral coxa vara cannot be treated in isolation and consideration must be given to protecting the whole bone with the primary goal of verticalization and improved biomechanical stability to allow early loading, safe standing, re-orientation of the physis and avoidance of untreated sequelae. Implant constructs should therefore be designed to accommodate and protect the whole bone. The normal paediatric femoral neck shaft angle (FNSA) ranges from 135 to 145 degrees. In OI the progressive pathomechanical changes result in FNSA of significantly less than 120 degrees and decreased Hilgenreiner epiphyseal angles (HEA). Proximal femoral valgus osteotomy is considered the standard surgical treatment for coxa vara and multiple surgical techniques have been described, each with their associated complications. In this paper we present the novel technique of controlling femoral version and coronal alignment using a tubular plate and long bone protection with the use of teleoscoping rods. Methodology. After the decision to operate had been made, a CT scan of the femur was performed. A 1:1 scale 3D printed model (AXIAL3D, Belfast, UK) was made from the CT scan to allow for accurate implant templating and osteotomy planning. In all cases a subtrochanteric osteotomy was performed and fixed using a pre-bent 3.5 mm 1/3 tubular plate. The plate was bent to allow one end to be inserted into the proximal femur to act as a blade. A channel into the femoral neck was opened using a flat osteotome. The plate was then tapped into the femoral neck to the predetermined position. The final position needed to allow one of the plate holes to accommodate the growing rod. This had to be determined pre operatively using the 3D printed model and the implants. The femoral canal was reamed, and the growing rod was placed in the femur, passing through the hole in the plate to create a construct that could effectively protect both the femoral neck and the full length of the shaft. The distal part of the plate was then fixed to the shaft using eccentric screws around the nail to complete the construct. Results. Three children ages 5,8 and 13 underwent the procedure. Five coxa vara femurs have undergone this technique with follow-up out to 62 months (41–85 months) from surgery. Improvements in the femoral neck shaft angle (FNSA) were av. 18. o. (10–38. o. ) with pre-op coxa vara FNSA av. 99. o. (range 87–114. o. ) and final FNSA 117. o. (105–125. o. ). Hilgenreiner's epiphyseal angle was improved by av. 29. o. (2–58. o. ). However only one hip was restored to <25. o. In the initial technique employed for 3 hips, the plates were left short in the neck to avoid damaging the physis. This resulted in 2 of 3 hips fracturing through the femoral neck above the plate at approximately 1 year. There were revisions of the 3 hips to longer plates to prevent intra-capsular stress riser. All osteotomies united and both intracapsular fractures healed. No further fractures have occurred within the protected femurs and no other repeat operations have been required. Conclusions. Surgical correction of the OI coxa vara hip is complex. Bone mineral density, multiplanar deformity, a desire to maintain physeal growth and protection of the whole bone all play a role in the surgeon's decision making process. Following modifications, this technique demonstrates a novel method in planning and control of multiplanar proximal femoral deformity, resulting in restoration of the FNSA to a more appropriate anatomical alignment, preventing long bone fracture and improved femoral verticalization in the medium term follow-up

Heterotopic Ossification (HO) is a known complication that can arise after total elbow arthroplasty (TEA). In most cases it is asymptomatic, however, in some patients it can limit range of motion and lead to poor outcomes. The objective of this review was to assess and report incidence, risk factors, prophylaxis, and management of HO after TEA. A systematic search was conducted using MEDLINE, EMBASE, and PubMed to retrieve all relevant studies evaluating occurrence of HO after TEA. The search was performed in duplicate and a quality assessment was performed of all included studies. A total of 1907 studies were retrieved of which 45 studies were included involving 2256 TEA patients. HO was radiographically present in 10% of patients and was symptomatic in 3%. Less than 1% of patients went on to surgical excision of HO, with outcomes following surgery reported as good or excellent as assessed by range of motion and Mayo Elbow Performance Scores (MEPS). TEA due to ankylosis, primary osteoarthritis, and posttraumatic arthritis are more likely to develop symptomatic HO. HO is an uncommon complication following TEA with the majority of patients developing HO being asymptomatic and requiring no surgical management. Routine HO prophylaxis for TEA is not supported by the literature. The effectiveness of prophylaxis in high risk patients is uncertain and future studies are required to clarify its usefulness. The strength of these conclusions are limited by inconsistent reporting in the available literature

Introduction:. The incidence of heterotrophic ossification after primary total hip arthoplasty (THA) has been reported to be between 8 to 90%. The incidence is higher in lateral approach because of extensive muscular trauma associated with it. There exists limited data on the incidence of heterotrophic ossification after direct anterior approach (DAA) THA. The purpose of this study was to assess the incidence of heterotrophic ossification after THA via the direct anterior approach and the influence of surgical technique and chemoprophylaxis. Method:. A consecutive series of four hundred two primary uncemented direct anterior approach total hip arthoplasties in 378 patients were reviewed for incidence of heterotrophic ossification. In the first 200 total hip arthoplasties an anterior capsulectomy (Group 1) was done for exposure while in the subsequent 202 total hip arthoplasties a capsulotomy (Group 2) followed by complete release of supero-lateral flap of from its attachement to the gluteus minimus muscle and trochanter was performed (Figure 1). Group 1 received warfarin for thromboprophylaxis; while aspirin (thromboprophylaxis) and celecoxib (pain) was used in group 2. Heterotrophic ossification was classified according to Brooker's classification on plain radiographs. Results:. Heterotrophic ossification was significantly less in group 2 (4/202, 1.98%) as compared to group 1 (29/200, 14.5%). No severe heterotrophic ossification was found in group 2. Conclusion:. Release of the superior-lateral capsular flap from the gluteus minimus muscle allows the femoral mobilization required during the femoral preparation and exposes the trochanter for easier retractor placement and thereby minimizes the muscular traumatic insult. When combined with aspirin and celecoxib chemoprophylaxis, this technique may diminish heterotrophic ossification

Purpose. The ideal timing for a Total Hip Arthroplasty (THA) remains a highly controversial topic in the treatment of displaced acetabular fractures in the elderly with damage to the articular surface of the acetabulum or femoral head. Acute THA offers early rehabilitation but a high incidence of heterotopic ossification has been reported. Its incidence and consequences on the patient's function are not clear. The goal of this study is to compare the incidence of heterotopic ossification following acute THA of acetabular fractures compared to delayed THA, and to evaluate its functional effects on the patient. Method. In this retrospective consecutive case series of acetabular fractures; 20 patients were treated with acute THA and 20 patients were treated with delayed THA after failed conservative or surgical treatment. The incidence of heterotopic ossification (using Brooker's classification) was obtained and functional outcomes were evaluated using SF-12, WOMAC, Harris Hip Score surveys. Results. Heterotopic ossification (HO) was found in 55% (13/20) in the acute THR group compared to 25% (5/20) in the delayed THA group. The relative risk of having significant HO (grades 2–3-4) when the prosthesis was done acutely was 3.4 times higher then when it was delayed. (p=0.01). Furthermore, significant difference in functional outcome was noted in the acute THA group. In fact, seven of eight (7/8) patients in the first subgroup of patients with no HO or grade 1 HO had excellent or good HHS scores. However, only three of eight (3/8) patients with grade 2 or 3 HO showed excellent or good HHS scores. The specific heterotopic ossification grade did not correlate with function. Conclusion. The incidence of HO was significantly higher in patients with acute THA compared to delayed THA for acetabular fractures. Interestingly, in the acute THA group, patients with grades 2 and 3 HO seem to have worst functional outcomes than patients with no HO or grade 1 HO

The use of intramedullary implants in Osteogenesis Imperfecta (OI) patients to treat and prevent fractures, non-unions and limb deformities has been well established. To serve this purpose different implants are available from non-telescoping rods such as Rush rods and Kirschner wires, to telescoping rods such as the Dubow-Bailey rod, the Sheffield rod and the Fassier-Duval (FD) rod (Pega Medical, Laval, Quebec, Canada). The purpose of this study is to report on the long-term results of the femoral Fassier-Duval rod. A retrospective chart review of all patients with OI who underwent a femoral intramedullary Fassier-Duval rodding between 2002 and 2017 and followed for an average of 12 years at the Shriner's Hospital, Montreal, Quebec, Canada was performed. A total of 81 patients underwent femoral FD rodding between 2002 and 2017. Twenty-seven children undergoing 83 procedures had completed a minimum 10-year follow up with complete charts and these were included here. The average follow up time was 12 years (10–15 years). Fifty procedures were initial rodding surgeries and 30 (36.1%) were revision surgeries. A total of 69 complications were reported in the medical record and confirmed on x-ray. The 3 most common complications were a bent rod 24 (34.8%), femur fracture 16 (23.2%) and loss of telescoping in 12 (17.4%) of patients. The 3 most common cause of revision were femur fracture 16 (53.3%), broken rod 5 (16.7%) and coxa vara in 3 (10%) of patients. The average time from initial surgery to the first revision was 5.9 years. Long term performance of femoral FD rodding shows that despite improved functioning with these rods, certain complications are to be expected, most commonly a risk of femoral fracture requiring revision surgery

Currently, there is no animal model in which to evaluate the underlying physiological processes leading to the heterotopic ossification (HO) which forms in most combat-related and blast wounds. We sought to reproduce the ossification that forms under these circumstances in a rat by emulating patterns of injury seen in patients with severe injuries resulting from blasts. We investigated whether exposure to blast overpressure increased the prevalence of HO after transfemoral amputation performed within the zone of injury. We exposed rats to a blast overpressure alone (BOP-CTL), crush injury and femoral fracture followed by amputation through the zone of injury (AMP-CTL) or a combination of these (BOP-AMP). The presence of HO was evaluated using radiographs, micro-CT and histology. HO developed in none of nine BOP-CTL, six of nine AMP-CTL, and in all 20 BOP-AMP rats. Exposure to blast overpressure increased the prevalence of HO. This model may thus be used to elucidate cellular and molecular pathways of HO, the effect of varying intensities of blast overpressure, and to evaluate new means of prophylaxis and treatment of heterotopic ossification. Cite this article: Bone Joint J 2015;97-B:572–6

Osteogenesis Imperfecta (OI) is a heritable bone disorder characterized by bone fragility and often caused by mutations in the Type I collagen-encoding genes COL1A1 and COL1A2. The pathophysiology of OI, particularly at the cellular level, is still not well understood. This contributes to the lack of a cure for this disorder as well as an effective preventive or management options of its complications. In the bone environment, mesenchymal stem cells (MSCs) and osteoblasts (Ob) exert their function, at least partially, through the secretion of extracellular vesicles (EV). EV is a heterogeneous group of nanosized membrane-enclosed vesicles that carry/transfer a cargo of proteins, lipid and nucleic acids from the secreting cell to its target cells. Our objective is to characterize EVs secreted by human control (HC)- and OI-MSCs and their derived Obs, with focus on their protein content. We hypothesize that there will be differences in the protein content of EVs secreted by OI-Obs compared to HC-Ob, which may indicate a deviation from healthy Ob behavior and, thus, a role in OI pathophysiology. MSCs were harvested from the adipose tissue of four COL1A1-OI and two HC patients. They were proliferated in an EV-depleted media, then induced to differentiate to extracellular matrix (ECM)-producing osteoblasts, which then gets mineralized. EVs secreted by MSCs (MSC-EV) and Obs (Ob-EV) were then purified and concentrated. Using liquid chromatography- tandem mass spectrometry, proteomic analysis of the EV groups was done. A total of 384 unique proteins were identified in all EVs, 373 were found in Vesiclepedia indicating a good enrichment of our samples with EV proteins. 67 proteins of the total 384 were exclusively or significantly upregulated (p-value < 0 .05) in OI-Ob-EV and 28 proteins in the HC-Ob-EVs, relative to each other. These two groups of differentially expressed proteins were compared by Gene Ontology (GO) analysis of their cellular compartment, molecular functions and biological processes. We observed that there were differences in the cellular origin of EV-proteins, which may indicate heterogeneity of the isolated EVs. Molecular function and biological process analyses of the HC-Ob-EV proteins showed, as expected, predominantly calcium-related activities such as extracellular matrix (ECM) mineralization. OI-Ob-EV proteins were still predominantly exhibiting ECM organization and formation functions. Annexins A1,2,4,5 and 6 were differentially and significantly upregulated by the HC-Ob-EVs. Fibronectin (FN), Fibulin-1 and −2, and Laminins (α4 & γ1), which are amongst the early non-collagenous proteins to form the ECM, were differentially and significantly upregulated in the OI-Ob-EVs. We concluded that the persistent expression of Fibronectin (FN), Fibulin-1 and −2, and Laminins in OI-Ob-EVs might indicate the presence of an immature ECM that the OI-Obs are trying to organize. ECM mineralization is largely dependent on the presence of an organized mature ECM, and this being compromised in OI bone environment, may be a contributor to the bone fragility seen in these patients. Annexins, which are calcium-binders that are vital for ECM mineralization, were significantly downregulated in the OI-Ob-EVs and this may be a further contributor to ECM mineralization impairment and bone fragility

Background. Heterotopic ossification (HO) is a known complication following total hip arthroplasty, with increased incidence in certain patient populations. Current prophylaxis options include oral non-steroidal anti-inflammatory drugs (NSAIDs) and radiation therapy, but an optimal radiation protocol has yet to be clearly defined. We performed a randomized, double-blinded clinical trial in high-risk total hip arthroplasty patients to determine the efficacy of 400 cGy versus 700 cGy doses of radiation. Methods. 147 patients at high risk for HO undergoing total hip arthroplasty (THA) at Rush-St. Luke's- Presbyterian medical center were randomized to either a single 400 cGy or 700 cGy dose of radiation. High risk was defined as diagnosis of diffuse idiopathic skeletal hyperostosis (DISH), hypertrophic osteoarthritis, ankylosing spondylitis, or history of previous heterotopic ossification. Radiation was administered over a 14 × 6 cm area of soft tissue and given on the first or second post-operative day. A blinded reviewer graded anterior-posterior (AP) and lateral radiographs taken immediately post-operatively and at a minimum of 6 months post-operatively. Progression was defined as an increase in Brooker classification from the immediate post-operative to the long-term post-operative radiograph. Operative data including surgical approach, use of cemented implants, revision surgery, and post-operative range of motion data were also collected. Results. A significantly greater portion of patients who received the 400 cGy dose demonstrated progression of HO than patients who received the 700 cGy dose. No pre-operative factors were associated with a higher rate of progression. Patients who progressed had less flexion on physical exam than patients who did not progress, but this was not clinically significant. Conclusion. To the authors' knowledge this is the largest randomized prospective study to date comparing two single-dosages of radiation treatment. 700 cGy demonstrates superiority over 400 cGy in preventing HO formation following total hip arthroplasty in high-risk patients and may be the more effective treatment in this population

Purpose of Study. To see if the addition of a locking plate to FD rod fixation of osteogenesis imperfecta confers extra strength and allows earlier mobilisation. Introduction. Osteogenesis imperfecta is a heterogeneous group of disorders with congenital osseous fragility. The goal of surgery is to minimise the incidence of fracture and correct deformity. The concept of multilevel osteotomies and intramedullary fixation with a non-extendable nail was popularised by Sofield and Millar in 1959. The Bailey Dubow telescoping nail was introduced in 1963. The Fassier-Duval (FD) telescoping nail is a more recent design inserted via smaller incisions, in conjunction with percutaneous osteotomies. However there are still problems. Often the medullary canal may be too narrow to harbour a nail of adequate size for the body. Furthermore they do not give significant rotational control, which is compounded by the elasticity of the soft tissues. Methods. We treated two patients with Osteogenesis imperfecta with supplementary unicortical locked plating in addition to intramedullary fixation with FD rods. Results. The patients both underwent femoral fixation. Both had deformity and previous femoral stress fractures treated non operatively. One patient, aged 24, was non ambulant pre-operatively. She was allowed to transfer without a brace immediately post operatively. The other patient, aged 64 years and ambulant indoors, initially had additional fixation with a non- locking semitubular plate that went onto fail, therefore had revision fixation with a locking plate. She was asked to bear weight as tolerated in a brace immediately post-op. Conclusion. Classically, plates and screws have been avoided in Osteogenesis imperfecta due to the predisposition to fracture at the ends of the plate. We have found that the extra fixation enables extra strength where the nail size is small, and helps control rotation in the post-operative period, allowing earlier mobility

Electron Microscopy and Synchrotron analysis of Heterotopic Ossification (HO) from blast-related amputees' has shown that HO is bone with a disorganised structure and altered remodelling. This research performs mechanical testing of HO to understand its biomechanical properties in an attempt to create an accurate model to predict its morphological appearance. The hypothesis of this work is that HO is mechanically mediated in its formation. Synchrotron mechanical analysis of HO samples was performed to measure Young's modulus, ultimate strength and density distribution. A novel algorithm based on Wolf's law was implemented in a Finite Element (FE) analysis model of HO to take into account the differing mechanical and biological properties measured and the presence of HO outside the skeletal system. An HO modeling factor, which considers boundary conditions, and regulates recruitment of the soft tissue into bone formation, results in a re-creatable formation of HO within the soft tissues, comparable to the appearance of HO seen in military amputees. The results and model demonstrates that certain types of HO are under the control of endogenous and exogenous mechanical stimulus. HO can thus be mechanically exploited in the casualty management and rehabilitation process to achieve better clinical outcomes

Children with osteogenesis imperfecta (OI) frequently present with coxa vara (CV). Skeletal fragility, severe deformity and limited fixation options make this a challenging condition to correct surgically. Our study aimed to determine the efficacy of the Fassier technique to correct CV and determine the complication rate.

Retrospective, descriptive case series from a tertiary hospital. We retrospectively reviewed records of a cohort of eight children (four females, 12 hips) with OI (6/8 Sillence type III, 2/8 type IV) who had surgical treatment with Fassier technique for CV between 2014 and 2020.

Inclusion Criteria: All patients with CV secondary to OI treated surgically with Fassier technique.

Exclusion Criteria: Patients older than 18 years; Patients with CV treated non-operatively or by surgical technique different to Fassier technique.

Data relating to the following parameters was collected and analyzed: demographic data, pre- and postoperative neck shaft angle (NSA), complications and NSA at final follow-up.

The mean age at operation was 5.8 years (range 2–10). The mean NSA was corrected from 96.8° preoperatively to 137º postoperatively. At a mean follow-up of 38.6 months, the mean NSA was maintained at 133°, and 83% (10/12) of hips had an NSA that remained greater than 120°. There was a 42% (5/12) complication rate: three Fassier–Duval rods failed to expand after distal epiphyseal fixation was lost during growth; one Rush rod migrated through the lateral proximal femur cortex with recurrent coxa vara; and one Rush rod migrated proximally and required rod revision.

The Fassier technique effectively corrected CV in children with moderate and progressively deforming OI. The deformity correction was maintained in the short term. The complication rate was high, but mainly related to the failed expansion of the Fassier–Duval rods.

Elongating rods have been used in the management of Osteogenesis Imperfecta (OI) for the last 50 years; complication rates have been high in many reviews of available techniques. The functional outcomes and complications of a cohort of 22 Osteogenesis Imperfecta patients treated with 66 Sheffield Telescopic Intramedullary Rods at an average of 19 years post-initial surgery are analysed. The revision rate was 35% for any reason, 20% excluding revisions for rods separating due to growth. Re-operation other than revisions occurred in 10 rods (15%). Mobility was significantly better in the initial post-operative period (p=0.0015), this difference maintained in adulthood (p=0.0077). Back pain was the most frequent symptom. Symptoms related to the insertion technique across the knee and ankle were rare but those related to femoral trochanteric entry were common. Physeal damage following surgery was not experienced and all rods elongated. All patients were satisfied with the outcome of their surgeries. SF-36 scores were significantly different for physical functioning domains, social functioning and vitality in comparison to normal population values, but comparable to other studies of OI. The outcomes of this technique are satisfactory in adulthood; re-operation rates are high but related mainly to outgrowing the rods. Concerns regarding insertion with this fixed device at the knee and ankle are not founded, although proximal femoral fixation remains a problem

Previous reports of the prevalence of Heterotopic Ossification (HO) in limbs from UK blast-related amputees from Afghanistan, is demonstrated to be 57.1%. With the end of UK military operations in Afghanistan in 2014 the aim of this study is establish the rate of HO, assess causality demographics and ascertain risk factors for the formation of HO during the entire period of operations in Afghanistan. Military databases, case notes and radiographs were scrutinised to quantify and qualify the prevalence and risk factors for the formation of HO. 256 servicemen sustained 398 military trauma related amputations. The overall prevalence of HO was 65.9%. Significant (p<0.05) risks identified for the formation of HO included a blast mechanism of injury, a zone of injury the same as the subsequent amputation, and an increased number of debridements prior to closure. Positive correlation existed between the number of amputations and the presence and grade of HO (p=0.04). HO presents clinical problems to military blast injury patient populations. This study demonstrates that both a blast mechanism of injury and an increased injury load are key factors in the increased prevalence of HO seen in military trauma

Heterotopic ossification (HO) is the formation of bone in extraskeletal sites. It is a major problem for combat-related casualties with 64% of such patients showing radiological evidence of the disease. Of these, 19% require surgical excision. Current prophylaxis is problematic due to poor efficacy and unsuitability in a military setting. Our novel anti-HO strategy is to use an inorganic reagent to inhibit the deposition of HA and disperse any pre-formed mineral. Literature review identified several potentially effective agents. These were tested for their ability to disperse solid monoliths of HA. In addition, a standard HA synthetic reaction was performed in the presence of each agent to establish their inhibiting activity. One reagent (a condensed phosphate) dispersed a solid monolith of HA by 38% (mass loss) over 30 days. This reagent was also shown to inhibit HA crystal synthesis yield by 28%. Early work on a hydrogel delivery system has produced favourable results. These preliminary data demonstrate proof of concept that HA may be dispersed and its formation inhibited by a non-toxic polyphosphate. This work will form the justification for development into in vitro osteogenic cell culture models and animal HO models

Introduction and Purpose of Study. Osteogenesis imperfecta (OI) is a bone metabolic disorder that results in multiple fractures and deformities in children. The management of these patients should be in highly specialised units were multi-disciplinary management is mandatory. The aims of this study were twofold: 1. To determine the incidence and pattern of fractures in this population. 2. To determine the type, outcomes and complications of surgical treatment in the same population. Methods. A retrospective audit of patients treated for OI at a tertiary academic Hospital, from January 2002 to December 2011 was done. Results. Fifty three patients with OI were seen in the period under review. The patients came from six South African provinces including two other African countries. The male to female ratio was 1:1. The majority of patients were classified as type III and type IV, 19 (36%) and 14 (26%) respectively. Twelve patients (23%) had a first degree relative with OI. All patients received bisphosphonate therapy intravenously except two who were on oral medication. Seventeen patients (33%) had associated kyphoscoliosis – none were treated surgically. The most common long bone fractures were of the midshaft femur (61 fractures) and tibia (35 fractures). Seventeen patients (32%) received intramedullary rodding of either femur or tibia. Surgery had to be repeated due to rod migration in nine long bones (29%). The most common complication of surgery was rod migration and peri-implant fracture. Conclusion. Long bone fractures of the femur and tibia were most common cause of morbidity. Intramedullary rodding is a safe and effective means of long bone fracture management in patients with OI

Heterotopic ossification (HO) is the formation of lamellar bone in extra-skeletal soft tissues. Its exact pathogenic mechanism remains elusive. Previous studies demonstrate observation only of HO at the microscopic scale. This study uses scanning electron microscopy (SEM), Back-scatter electron (BSE) imaging and mechanical testing to detail the organic and non-organic elements of HO, compared to normal bone, to guide stem cell and bio-modelling research into HO. Samples analysed were 5 military blast related HO patients, 5 control cadaveric samples (age and sex matched). Samples were imaged using SEM, BSE and the I13 beam Synchrotron x-ray diffraction scanner using validated quantitative and qualitative techniques of measurement. Appearances seen in HO compared to normal bone were characterised by the presence of a hyper-vascular network and high lacunae (osteocyte) counts, two distinct zones of bone mineral density distribution, with a tendency for hypermineralisation with kurtosis of the grey scale plots (mineral content as a weight percentage of Ca. 2+. was calibrated to atomic weight of C, Al and HA). Direction of dependence and collagen orientation in HO suggest isotropic properties. This research demonstrates that HO is bone, however its characteristics suggest a high metabolic turnover and disorganised ultra-structure consistent with an inflammatory origin

Background. Distraction Osteogenesis can be complicated by regenerate insufficiency resulting in prolonged implant usage or regenerate failure with malalignment or fracture. Experimental evidence has demonstrated that bisphosphonates may mediate improved local limb BMD and regenerate strength. Methods. A prospective series of 14 patients over 5 years. One cohort (Group A) of these cases presented with established regenerate insufficiency leading to consideration for surgical intervention. Patients received a therapeutic regime of intravenous bisphosphonate A further cohort (Group B) of 7 patients was commenced on bisphosphonate therapy at an earlier stage, prior to the regenerate maturation phase. Results. Mean age at primary surgery was 11.6 years (3-17 yrs) with a minimum follow-up of 12 months after fixator removal. The sites of regenerate insufficiency were tibia (12) and distal femur (3), with 1 patient undergoing both femoral and tibial lengthening. Mean fixator time was 108 days prior to treatment for a mean lengthening of 5.3 cm. At time of treatment measurements demonstrated a reduced BMD in the bone, mean 44% (39-58%) of the normal limb, the primary consolidation index was high at 40.5 (46-68) days/cm, reflecting observed regenerate insufficiency. Significant increase in regenerate bone mass and mineral density was observed after the first dose of intravenous bisphosphonate. No significant systemic complications were encountered. After a mean 130 days (range 103-231 days) of therapy the bone consolidated to unencumbered full weight bearing, final healing index of 82 days/cm (Range 67-108days/cm). Cases demonstrated a rapid and sustained improvement in local BMD (increasing to mean 78% of the normal side). Remodelling was seen radiologically from 12 months post-therapy. However, subsequently, one femoral regenerate fractured and required intramedullary nail stabilisation. Conclusion. This is early clinical evidence that Bisphosphonate therapy has potential therapeutic benefit in managing regenerate insufficiency and counteracting local osteopenia in distraction osteogenesis