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View my account settingsHip fracture treatment strategies continue to evolve with the goal of restoring hip fracture victims to Pre-injury Functional levels. Strategies for improved treatment have focused on fracture exposure, reduction, provisional fixation and definitive fixation with implant designs optimised for fracture union with minimal implant failure as originally proposed by Lambotte. Multiple implant designs have been conceived based on perceived inadequacies of previous generational designs. To better understand this evolutionary process, it is necessary to review the predecessors of modern fracture treatment and understand their design concepts and results. It is interesting that the modern era of surgical treatment of hip fractures actually began in 1902, when Dr Royal Whitman advocated the necessity of a closed reduction of adult hip fractures under general anesthesia and stabilisation by hip spica cast. Dr Whitman predicted the evolution of stabilisation by internal fixation and commented on this in his 1932 JBJS editorial emphasising the importance of surgical treatment of fractures. Dr Smith-Peterson, also from New York, in 1925 developed the 1st commercially successful hip implant, a tri–flanged nail. These first surgeries were performed with an open reduction, through a Smith-Petersen approach without radiographic control.
This nail device was rapidly modified in the 1930's to permit insertion over a guide wire with a radiographic controlled insertion technique, a minimally invasive procedure. Nail penetration and implant failure in pertrochanteric fractures led to the rapid development of side-plates and a refocus on reduction stability. This led to a period of primary corrective osteotomies for enhanced stability, but fell out of failure after the sliding hip screw concept took hold. Originally conceived by Godoy-Moreira and Pohl independently in the 1940s, it became rapidly accepted as a method to avoid nail penetration and implant failure, unfortunately at the expense of accepting malunion and collapse of the fracture. Even the importance of rotational stability was discarded as insignificant by Holt in 1963. The concept of reduction of the Antero-Medial cortex was forgotten in favour of the Tip-apex distance as the only important variable in reduction to avoid implant cut-out. The concept of malunion of pertrochanteric fractures was simply deleted from consideration with disregard for the possible association of impaired functional recovery.
Several recent papers that improved functional recovery is possible when these new implants are coupled with successful reduction strategies. Further studies are needed to identify the correct choice of implant for the appropriate fracture configuration, which may lead to a revision of our current fracture classification systems and our concepts of stability.
Exercise deters systemic diseases such as osteoporosis, sarcopenia, diabetes and obesity. Brief daily periods of low intensity vibration (LIV; <0.4g) is anabolic to bone and muscle, an adaptive response achieved in part by biasing mesenchymal stem cell (MSC) fate selection towards forming higher order connective tissues. In the clinic, LIV has protected the musculoskeletal system even under severe challenges such as Crohn Disease, Cerebral Palsy, and end-stage renal disease.
Low magnitude mechanical signals also suppress adipogenesis in the mouse, with reductions in subcutaneous and visceral fat. The starkly distinct response of these tissues (augment bone & muscle; suppress fat) suggests that LIV influences the differentiation pathway of MSCs. Extending this diet induced obesity model to 7 months increased total adiposity, accelerated age-related loss of trabecular bone and severely reduced B & T-cell number in the marrow and blood, shifting hematopoietic stem cells (HSC) towards the myeloid lineage. LIV introduced at 4 months rescued bone and B-cells to those levels measured in regular diet controls.
These data emphasise why inactivity can promote osteoporosis, diabetes and obesity, and why a sedentary individual is predisposed to disease sequelae. Protection of MSC and HSC populations by mechanical signals may represent a unique strategy by which adiposity can be suppressed, the immune system protected, and a musculoskeletal system enhanced.
The Study to Prospectively Evaluate Reamed Intramedullary Nails in Tibial Shaft Fractures (SPRINT) randomised 1,226 patients treated by intramedullary nailing to reamed versus unreamed groups. We aimed to determine if there was a difference in the number of patients requiring more than one reoperation between the groups.
We hypothesised there would be differences in the number of patients with more than one reoperation in the reamed versus unreamed groups and in patients with open fractures versus closed fractures.
We identified patients requiring more than one reoperation during the 12 m follow-up. We considered those that were reamed versus unreamed, open versus closed, and those with a reoperation planned post 12 m follow-up. We also compared patient and fracture characteristics.
We identified a total of 44 patients requiring two or more reoperations. No difference between the reamed and unreamed groups was found in the risk of having more than one reoperation. Patients with two or more reoperations were older (p=0.03), had a higher frequency of open fractures (p<0.001), and had higher energy mechanisms of injury (p<0.001). The first reoperation was in response to infection for 25 patients. 12 patients had additional reoperations planned after the 12 m follow-up.
A relatively small number of tibial shaft fracture patients required more than one reoperation. Further study is required to assess consequences of needing multiple reoperations in this high risk group.
This ongoing prospective RCT compares two surgical approaches with respect to accuracy of guidewire and tibial nail position.
29 patients with tibial fractures were randomised to semi-extended (SE) or standard (S) approaches of tibial nail insertion. Fluoroscopy obtained guidewire and final nail position. The SE approach is more proximal with the guidewire inserted posterior to the patella, theoretically allowing more accurate wire and nail placement.
Measurements were taken in both planes of the nail and guidewire to determine deviation from optimum angle of insertion (relative to the long axes of the tibial shaft).
14 and 15 patients were treated with semi-extended and standard approaches respectively.
The semi-extended approach results in better guidewire and nail placement in both planes with mean deviation from the optimal angle of insertion as below:
Guidewire AP 4.5° (SE) versus 4.04° (S) Lateral 24.59° (SE) versus 33.36° (S)
Nail AP 3.21° (SE) versus 3.68° (S) Lateral 17.73° (SE) versus 24.04° (S)
Anterior knee pain may be due to excessive anterior placement of the nail. We assessed anterior placement of the guidewire and nail in the lateral plane. This was expressed as a percentage from the anterior cortex of the tibia. Mean results are below:
Guidewire 9.7% (SE) versus 9.3% (S)
Nail 19.5% (SE) versus 16.3% (S)
Semi-extended nailing may allow for better guidewire position and as such nail placement. This may reduce anterior knee pain.
Introduction
Complication reporting and assessment is an important part of orthopaedic trials assessing new technologies. Because the reliability of the assessment by the treating surgeon compared to central review is still unknown, it was quantified in this study and possible patterns were identified.
Materials and methods
176 patients with trochanteric fractures, treated with a trochanteric nail, were included in a prospective multicenter study. Surgeons were encouraged to report honestly every single potential complication, to rate severity, most likely cause, relation to implant, and to report the outcome of the complication. After 1-yr follow-up, 3 experienced orthopedic surgeons reassessed independently the same variables (agreement determined using kappa coefficient). Discrepancies were resolved by consensus.
Introduction
Tip apex distance (TAD) is reported as a predictor for cut outs of lag screws in the treatment of intertrochanteric fractures, and surgeons are adviced to strive for TAD within 20 mm. However the definition of neck axis and the limb position of lateral radiograph are not clearly described in the original literature. We propose the refined TAD by defining these factors. The objective of this study was to analyze the interobserver agreement of this refined TAD.
Materials and Method
X rays of 130 cases of unstable trochanteric fractures were used for the analysis of the refined TAD. In the refined TAD, neck axis was defined as the line between the center of femoral head and midpoint of narrowest part of the femoral neck, and lateral radiograph was taken with hip flexion 90 degrees and abduction 45 degrees. The refined TAD was independently measured by 2 experienced (observer 1,2) and 2 inexperienced (observer 3,4) orthopaedic surgeons who were trained with the new method before the measurement. Intraclass correlation coefficient (ICC [2,4]) was calculated to assess the interobserver agreement.
Objective
The development of surgical site infection in the early weeks following open reduction and internal fixation (ORIF) is a challenging problem. There are no evidence-based guidelines to direct the number of surgical debridements prior to definitive wound closure. The purpose of this study was to assess the success of infection resolution, and to identify risk factors for failure, in post-operative infections treated with a single debridement and primary wound closure.
Methods
We retrospectively reviewed 61 postoperative infections (60 patients) that developed following fracture ORIF that were treated with a single debridement and primary closure. Data was collected from a review of the patients’ medical record. Variables were compared between the two groups using univariate and multivariate logistic regression analysis.
Introduction
Lack of standardization of outcome measurement has hampered an evidence-based approach to clinical practice and research. We report on the progress on establishing a minimal set of core domains for outcome measurement in distal radius fracture.
Materials and methods
Participants included an expert panel of orthopaedic surgeons, outcome researchers, patients, physiotherapists, industry representatives involved in distal radius research and partners in regulatory affairs. Decisions were made by review of evidence and theory and establishing group consensus.
Introduction
Since the concept of severely suppressed bone turnover (SSBT) after long-term bisphosphonate (BPs) use, SSBT have been believed as the major cause of low-energy femoral fractures, which are called atypical femoral fractures. Here we present several cases of stress fractures with bowing femoral shaft deformity, which can be another cause of low-energy femoral fractures in the elderly.
Materials and Methods
From 1998 to 2012, we treated thirteen cases of low-energy fractures of femoral shaft. All cases were females with an average age of 77.0 (67–88) years. Retrospectively, we assessed fracture type, X-ray of contralateral side, bowing deformity of femur, and duration of BPs use.
Introduction
For the increasing number of frail elderly patients in Japan, mobility is crucial to stay independent and maintain quality of life. After failure reports with standard implants, a prospective multicentre study was performed to evaluate whether an implant designed for Asians enables rapid recovery after unstable trochanteric fractures.
Materials and methods
Patients with an AO 31A2 or A3 fracture sustained less than 7 days before fracture fixation with the Asian version of the Proximal Femoral Nail Antirotation. Those with severe dementia and bedridden or confined to a wheelchair were excluded. Outcome parameters were quality of life (SF36v2, EQ5D), mobility (Parker Mobility score PMS) and range of motion (ROM).
Introduction
There has been a paradigm shift in orthopaedic research, it is now recognized that the extent to which interventions really make a difference to a patient's overall life is indicated by measuring one's general health status. The primary aim of this study was to report how the methodology of current evidence in hip fracture research can improve if studies included patients with cognitive impairment.
Materials and methods
Using multiple databases inclusive from 1990 to May 2009, we performed a systematic review of all hip fracture observational cohorts and randomized studies (RCTs).
The most important issue in the assessment of fracture healing is to acquire information about the restoration of the mechanical integrity of bone. Echo tracking (ET) can noninvasively measure the displacement of a certain point on the bone surface under a load. Echo tracking has been used to assess the bone deformation angle of the fracture healing site. Although this method can be used to evaluate bending stiffness, previous studies have not validated the accuracy of bending stiffness. The purpose of the present study is to ensure the accuracy of bending stiffness as measured by ET. A four-point bending test of the gap-healing model in rabbit tibiae was performed to measure bending stiffness. Echo tracking probes were used to measure stiffness, and the results were compared with results of stiffness measurements performed using laser displacement gauges. The relationship between the stiffness measured by these two devices was completely linear, indicating that the ET method could precisely measure bone stiffness.
Hypothesis
The proximal geometry and design of trochanteric nails affects initial construct stiffness, fatigue survival, and preservation of biomechanical stability over time.
Materials & Methods
Eight pairs of human cadaveric femora were implanted with two different short intramedullary nails with (Intertan, (S&N)) and without (Gamma 3, (Stryker)) interlocking lag screws. Femoral osteotomies were performed to generate a pertrochanteric multifragmentary unstable fracture (OTA 31-A 2.2). The bones were tested in a cyclic testing protocol with increasing loads of 100 N every 20.000 cycles (start point 50/500 N) simulating one leg stance. The position of the femur was 10° adduction and 10° extension. Stiffness, failure load, and cycles to failure were measured.
Background
The inherently high stiffness of locked plate constructs is increasingly recognized as a potential cause of deficient healing observed in patients with periarticular locked plating systems.
The objective of this study is to perform a biomechanical comparison of distal femur locked plating systems.
Methods
Biomechanical study using bone substitutes in a distal femur fracture model (OTA/AO 33-A3). Four different locked plate fixation systems were compared (AxSOS, LCP, PERI-LOC, POLYAX). Eight bone implant constructs of each plating system were evaluated in a multiple testing model to examine static failure, stiffness under static and cyclic loading and cyclic fatigue.
Background
To establish relative fixation strengths of a single lateral locking plate, a double locking plate, and a tibial nail in treatment of proximal tibial extra-articular fractures.
Methods
Three groups of composite tibial synthetic bones consisting of 5 specimens per group were included; lateral plating (LP) using a LCP-PLT (locking compression plate-proximal lateral tibia), double plating (DP) using a LCP-PLT and a LCP-MPT (locking compression plate-medial proximal tibia), and intramedullary nailing (IN) using an ETN (expert tibial nail). To simulate a comminuted fracture model, a gap osteotomy measuring 1 cm was cut 8 cm below the joint. For each tibia, a minimal preload of 100N was applied before loading to failure. A vertical load was applied at 25mm/min until tibia failure.
Improving periprosthetic bone is essential for implant fixation and reducing peri-implant fracture risk. This studied examined the individual and combined effects of iPTH and mechanical loading at the cellular, molecular, and tissue level for periprosthetic cancellous bone. Adult rabbits had a porous titanium implant inserted bilaterally on the cancellous bone beneath a mechanical loading device on the distal lateral femur. The right femur was loaded daily, the left femur received a sham loading device, and half of the rabbits received daily PTH. Periprosthetic bone was processed up to 28 days for qPCR, histology, and uCT analysis. We observed an increase in cellular and molecular markers of osteoblast activity and decrease in adipocytic markers for both treatments, with small additional effects in the combined group. Loading and iPTH led to a decrease and increase, respectively, in osteoclast number, acting through changes in RANKL/OPG expression. Changes in SOST and beta-catenin mRNA levels suggested an integral role for the Wnt pathway. We observed strong singular effects on BV/TV of both loading (1.53 fold) and iPTH (1.54 fold). Combined treatment showed a small additive effect on bone volume. In conclusion, loading and iPTH act through a pro-osteoblastic/anti-adipocytic response and through control of bone turnover via changes in the RANKL/OPG pathway. These changes led to a small additional, but not synergistic, increase in bone volume with the combined therapy.
Introduction
Nonunion is a common and costly fracture outcome. Intricate reciprocity between angiogenesis and osteogenesis means vascular cell-based therapy offers a novel approach to stimulating bone regeneration.
Hypothesis
The current study compared early and late outgrowth endothelial progenitor cell subtypes (EPCs vs OECs) for fracture healing potential in vitro and in vivo.
Common cell based strategies for treating bone defects require time-consuming and expensive isolation and expansion of autologous cells. We developed a novel expedited technology creating gene activated muscle grafts. We hypothesized that BMP-2 activated muscle grafts provide healing capabilities comparable to autologous bone grafting, the clinical gold standard.
Two male, syngeneic Fischer 344 rats served as tissue donors. Muscle tissue was harvested from hind limbs and incubated with an adenoviral vector carrying the cDNA encoding BMP-2. Bone tissue was harvested from the iliac crest. Segmental bone defects were created in the right femora of 12 rats and were filled with either BMP-2 activated muscle tissue or bone grafts. After 8 weeks, femora were evaluated by radiographs, microCT, and biomechanical tests.
BMP-2 activated muscle grafts and autologous bone grafts resulted in complete mineralization and healing, as documented by radiographs and microCT. Bone volume in the muscle graft defects (33+/-12mm3) was similar to autologous bone graft defects (39+/-5mm3). Torque at failure of the two groups was statistically indistinguishable (240+/-115 Nmm vs. 232+/-108Nmm).
In previous experiments we demonstrated that the large segmental defect model in this study will not heal with either empty defects or non-activated muscle grafts. Our findings therefore demonstrate that BMP-2 gene activation of muscle tissue effectively stimulates defect healing similar to autologous bone grafts.
Purpose
The purpose of this study was to evaluate the effects of implantation of mesenchymal stem cell derived condrogenic cells (MSC-DC) on bone healing in segmental defects in rat femur.
Methods
Five-millimeter segmental bone defects were produced in the mid-shaft of the femur of Fisher 344 rats and stabilized with external fixator. The Treatment Group received MSC-DC, seeded on a PLGA scaffold, locally at the site of the bone defect, and Control Group received scaffold only. The healing processes were monitored radiographically (Softex), and studied radiographically (Micro-CT) and histologically.
There is evidence that fracture healing is delayed in severely injured patients. We recently demonstrated that a blunt chest trauma, which induced posttraumatic systemic inflammation, considerably impaired fracture healing in rats. Because the complement anaphylatoxin C5a is an important trigger of systemic inflammation, we tested the hypothesis, whether the impairment of fracture healing observed after a severe trauma resulted from systemically activated complement.
16 male Wistar rats received a thoracic trauma and a femur osteotomy stabilized by an external fixator. Immediately and 12 h after the trauma, half of the animals received a C5aR-antagonist to prevent the C5a-dependent systemic inflammation. Control rats received a nonsense peptide, which does not provoke any biological effect. The animals were killed after 35 days and the calli were analyzed by three point bending testing, μCT and histomorphometry. Statistics: Mann-Whitney U test, level of significance to p<0.05.
The treatment with the C5aR-antagonist increased flexural rigidity significantly by 55%, improved bony bridging of the fracture gap and led to a slightly larger and qualitatively improved callus as evaluated by μCT and histological measurements.
This study shows, that the immunomodulation by a C5aR-antagonist significantly reduced the deleterious effects of a thoracic trauma on fracture healing. C5a could possibly represent a target to prevent delayed bone healing in patients with severe trauma.
There is evidence that fracture healing is impaired in patients with chronic immune disorders the reasons remaining unclear so far. To further elucidate the role of the immune system in bone healing, this study investigated the hypothesis that fracture healing would be considerably disturbed in a mouse model with severe defects of the innate as well as adaptive immune system.
Immune deficient Nod-
The flexural rigidity of the callus did not significantly differ between both genotypes after 21 and 28 days but was significantly lower in Nod-
These data indicate an only moderate delay in fracture healing in Nod-
We hypothesise that the Masquelet induced membrane used for the reconstruction of large bone defects were likely to involve mesenchymal stem cells (MSCs), given the excellent resultant skeletal repair. This study represents the first characterisation in humans of the induced membrane formed as a result of the Masquelet technique.
Methods
Induced membranes and matching periosteum were harvested from 7 patients. Cytokines (BMP2, VEGF, SDF1) and cell lineage markers (CD31, CD271, CD146) were studied by immunohistochemisty. Flow cytometry was used to measure the cellularity and cellular composition. MSCs were enumerated using a colony forming unit fibroblast assay. In expanded cultures, a 96-gene array card was used to assess their transcriptional profile. Alkaline phophatase, alizarin red and calcium assays were employed to measure their in vitro osteogenic potential
Results
Membrane was more cellular(p=0.028), had more MSC phenotype(p=0.043) compared to matched periosteum. The molecular profiles were similar, except for 2-fold abundance of SDF-1 in membrane (p=0.043)compared to periosteum. Membrane and periosteum had a similar proportion of endothelial cells and CFU-F colonies; expanded MSCs from both sources were highly osteogenic.
Introduction
Failures in fracture healing are mainly caused by a lack of neovascularization. We have previously demonstrated that G-CSF-mobilized peripheral blood (GM-PB) CD34+ cells, an endothelial progenitor enriched cell population, contributed to fracture healing via vasculogenesis and osteogenesis. We postulated the hypothesis that local transplantation of culture expanded bone marrow (cEx-BM) CD34+ cells could exhibit therapeutic potential for fracture healing.
Materials
BM CD34+ cells were cultured in specific medium with 5 growth factors for 1week. A reproducible model of femoral fracture was created in nude rats with periosteum cauterization, which leads to nonunion at 8 weeks post-fracture. Rats received local administration of the following cells or PBS alone(1)cEx-BM, (2)BM, (3)GM-PB CD34+ cells or (4)PBS.
Introduction
CXC chemokine receptor 4 (CXCR4) is a specific receptor for stromal-derived-factor 1 (SDF-1). SDF-1/CXCR4 interaction contributes to the regulation of endotherial progenitor cell (EPC) recruitment in ischemic tissues. The purpose of this study is to investigate the mechanistic function of CXCR4 on EPCs for bone fracture healing.
Materials and methods
We made CXCR4 gene knockout mice using the Cre/loxP system. A reproducible model of femoral fracture was created in both Tie2-Cre CXCR4 knockout mice (CXCR4KO) and wild type mice (control). To evaluate gain function of the SDF-1/CXCR4 pathway, we set three groups of the SDF-1 intraperitoneally injected group, wild type group, and SDF-1 injected CXCR4 KO group.
Introduction
The concept of “bone graft expanders” has been popularised to increase the volume and biological activity of the implanted Material.
HYPOTHESIS
Orthoss® granules support exogenously seeded MSCs and attract neighbouring host MSCs.
Secondary fracture healing processes are strongly influenced by interfragmentary motion. Shear movement is assumed to be more critical than axial movement, however experimental results are controversial. Numerical fracture healing models allow to simulate the fracture healing process with variation of single input parameters and under comparable normalized mechanical conditions. Therefore, a direct comparison of different in vivo scenarios is possible. The aim of this study was to simulate fracture healing under several axial and shear movement scenarios and compare their respective time to heal. We hypothesize that shear movement is always more critical than axial loading. For the presented study, we used a corroborated numerical model for fracture healing in sheep. Numerous variations of the movement amplitude, the fracture gap size and the musculoskeletal loads were simulated for comparable axial compressive and shear load cases. In all simulated cases, axial compressive load had less inhibitory influences on the healing process than shear load. Therefore, shear loading is more critical for the fracture healing outcome in general. Thus, our findings suggest osteosynthesis implants to be optimized to limit shear movements under musculoskeletal loading.
Objective
To identify risk factors for surgical site infections and to quantify the contribution of independent risk factors to the probability of developing infection after definitive fixation of tibial plateau fractures.
Methods
A retrospective analysis was performed at a Level I trauma center between 2004 and 2010. A total of 251 consecutive patients (256 cases) were divided into two groups, those with and those without a surgical site infection. Preoperative and perioperative variables were compared between these groups and risk factors were determined by univariate analyses and multivariate logistic regression.
Introduction
Many surgeons assess biological activity of fracture nonunion by the presence or absence of callus using radiograph. However, it is difficult to assess biological activity only by radiographic appearance. Bone scintigraphy reflects blood supply and bone metabolism and is possibly useful to assess biological activity in nonunion cases.
Hypothesis
We hypothesized that poor callus visualization did not always mean lack of biological activity.
Infected non-union after severe open fracture or unsuitable fracture operation is frequently associated with bone defect and its treatment has been controversial. We have used microsurgical vascularised composite graft for these problematic cases. Fifty one patients aged 17∼70 year old (43.6 years old in average), including 41 men and 10 women. Follow-up has been more than 6 months. The vascularised composite graft included a free fibular osteocutaneous flap in 41 cases, a vascular pedicled fibular osteocutaneous flap in 2 cases, a free iliac osteocutaneous flap in 5 cases, a vascularised cutaneous flap in 2 cases and other in one case. All infected non-unions were united without trouble and co-existing infection was successfully eradicated. This method also enables the patients rapid bone union and subsequent early functional recovery. This success was attributed to greater transport of oxygen and good antibiotic perfusion in presence of good blood supply. We conclude that microsurgical vascularised composite graft for infected non-union is an extremely useful method with early bone union and subsidence of infection.
Objective
To determine what factors affect fracture healing with low-intensity pulsed ultrasound (LIPUS) for delayed unions and nonunions.
Patients
A consecutive cohort of 101 delayed unions and 50 nonunions after long bone fractures treated with LIPUS between May 1998 and April 2007.
Introduction
The delay looks radiographically as a fracture callus not very evident or absent 6 months after osteosynthesis. Patients undergo a long period of immobilization and this fact causes the increase the social cost of the disease. The technique we suggest aims to the reduce the period of immobilization and as a consequence the management costs of the disease.
Materials and methods
Our technique includes the infiltration of the delay focus with platelet rich fibrin, bone marrow concentrated and demineralized bone matrix. Outpatients and radiographic checks were carried out 3, 6 and 12 months after surgery. The treatment was considered fail in case of absence of bone callus at 3 out of 4 corticals at the rx after 6 months from surgery.
Introduction
Low-intensity pulsed ultrasound (LIPUS) has been reported to enhance healing of fracture and nonunion. Bone morphogenetic protein-7 (BMP-7) has also been reported to promote bone formation. Recently, we demonstrated progenitor cells with osteogenic/chondrogenic differentiation potential existed in human fracture hematoma and nonunion tissue.
Hypothesis
We hypothesised the combined application of LIPUS and BMP-7 would cause major effect on osteogenesis of hematoma-derived cells (HCs) and nonunion tissue-derived cells (NCs).
Introduction
Canonical Wnt inhibitor Sclerostin (SOST) may be a key mechanotransduction regulator.
Methods
Unloading/loading 10 week old Sost−/− and WT mice. Unloading: Quads and calf muscles injected each with 0.5U botulinum toxin (BTX, Allergan) caused tibial unloading. Loading: 1200 cycles of tibial axial loading, 1200μe on mid-shaft, 4Hz, 5 days/week. Treated and control tibiae μCT scanned (Skyscan 1174) at 2 weeks.
Introduction
It is well known that blood flow is a critical key component of fracture repair. Previously, we demonstrated that transcutaneous application of CO2 increased blood flow in the human body. To date, there has been no report investigating the effect of the carbonated therapy on fracture repair.
Hypothesis
We hypothesized that the transcutaneous application of CO2 to fracture site would accelerate fracture repair.
Reconstruction of 10mm segmental bone defects in rat by mesenchymal stem cell derived chondrogenic cells (MSC-DC)
Background
Mesenchymal stem cell derived condrogenic cells (MSC-DC) have excellent potential for healing 5 mm bone defect in rat femur.
Purpose
To evaluate the effectiveness of MSC-DC on bone healing in 10 mm segmental bone defects in rat femur.
Background
Growing of the geriatric population has brought about increase of lower extremity fractures. The purpose of this study was to investigate the occurrence of surgical site infection after the surgery for lower extremity fractures, except proximal femoral fracture, in over eighty years old patients.
Methods
Patients with closed lower extremity fracture which were treated surgically in 2011 were divided into two groups (Group O; the equal or more than 80 years old, Group Y; from 20 to 65 years old), and the incidence of infection and the outcome after its treatment was compared between Group O and Group Y.
Introduction
We investigated the usefulness of flap surgery for Gustilo type IIIB and C severe open fracture of the tibia, for which treatment is difficult.
Materials & Methods
The subjects were 16 patients with severe open fracture of the tibia who received a treatment at our division between April 2000 and October 2008. There were 13 males and 3 females, and the mean age at injury was 41.2 years. Radical debridement and temporal external fixation were performed on the day of injury, and soft tissue reconstruction and definitive osteosynthesis were performed within a few days after injury to the best.
Failure to treat acute compartment syndrome (ACS) early leads to significant morbidity. Current practice depends on using clinical signs and intracompartmental pressure (ICP) monitoring to diagnose the syndrome but there is still debate regarding their accuracy and interpretation.
Patients admitted with injuries at risk of ACS underwent intramuscular (IM) pH and ICP monitoring combined with regular clinical assessment. Fasciotomies were performed on those with clinical and/or pressure based evidence of ACS. All patients were subsequently assessed for evidence of a missed ACS at at 6 & 12 months.
Of the 62 patients, 51 completed the protocol and were included in the analysis. They were divided into 2 groups: those who had ACS, either initially (fasciotomies; 13), or diagnosed at follow up (no fasciotomies; 7), and those with no evidence of ACS (31).
The sensitivity and specificity for the worst values for each variable were calculated and receiver operator characteristic (ROC) curves generated. The area under the curve for pH was 0.92, 0.73 for absolute pressure and 0.59 for delta pressure. To achieve a sensitivity of 95%, an absolute pressure of >30mmHg was 30% specific, a delta pressure of <33mmHg was 27%, while IM pH of 6.38 was 80% specific.
This study highlights the issues concerning current diagnostic methods for ACS. By comparison, IM pH radically out performed both the highest ICP and the lowest delta pressure, identifying patients early and accurately.
Introduction
When translating the principle of intramedullary nailing for trochanteric femoral fractures to Asian patients, design modifications made to adjust for anatomic differences resulted in an PFNA Asia. The primary endpoint of this study was the rate of complications attributable to fracture fixation.
Material and methods
A prospective multicenter case series was performed; 176 patients with a median age of 84 with unstable trochanteric fractures treated with a PFNA Asia were included and followed for one year postoperatively. Complications were reviewed by a complication review board (CRB). Intra- and postoperative fracture fixation complications are presented according to type and incidence proportions (risk).
Alpine ski sports changed rapidly in the last decade. Complex fractures of the proximal tibia, typically seen in high energy trauma, has been seen more frequently and more often related to alpine skiing.
The aim of our study was to identify reasons for proximal tibia fracture in alpine skiing and observe the outcome.
All patients with proximal tibia fractures related to alpine skiing, which were treated in our two trauma centers were included. The patients received a questionnaire at the emergency department, dealing with accident details and the skiing habits. The fractures were classified according to the AO fracture classification scheme. The follow up was performed at least one year after trauma with the Lysholm, the Tegner activity, as well as the WOMAC VAS Score.
Between 2007 and 2010 a total of 188 patients with proximal tibia fractures caused by alpine skiing were treated. 43 patients had a type A, 96 patients a type B and 49 a type C injury. The incidence was increasing over the period continuously. The main trauma mechanism was an accident without a third party involvement with an increased rotational and axial compression impact. All outcome scores were related to fracture severity with significant worse results for the type C fractures.
In conclusion, proximal tibia fractures are an increasing and serious injury during alpine skiing. Further technical progress in skiing material should focus on these knee injuries in future.
Current dogma is that a programme of anatomic repositioning with rigid internal fixation of fractures will lead to successful healing. Failures are attributed to failures in technique, not in instruments, implants, or concepts. Current basic science research shows that in the osteoporotic skeleton, bone trabeculae, once lost, are not replaced. This is true in fractures. In a series of cases, the author will show that lost bone is indeed not replaced, and the unsuccessful clinical outcome is caused by adherence to concepts that do not solve the problem of fracture repair in the elderly. Five specific case examples will be shown to demonstrate this problem. Despite an abundance of bone graft substitutes, bone morphogenic protein preparations, and cancellous bone autografting, the problem of dependable fracture repair in the elderly skeleton still needs to be solved.
Intro
Distal radial fractures are a commonly encountered fracture & anatomical reduction is the standard. Dorsal angulation is the traditional method of assessment but is inaccurate in rotated lateral xrays. Previously a relationship has been demonstrated between the dorsal cortex (DC) of the radius & the superior pole of the lunate (SL) & its sensitivity for assessing dorsal angulation & translation.
Hypothesis
A constant anatomical relationship maintained between the DC and the SL when rotated up to 30 degrees from standard lateral?
Introduction
The risk factors for new adjacent vertebral compression fracture (NAVCF) after Vertebroplasty (VP) or Kyphoplasty (KP) for osteoporotic vertebral compression fractures (VCFs) were investigated.
Materials and methods
The authors retrospectively analyzed the incidence of NAVCFs in 135 patients treated with VP or KP for osteoporotic VCFs. Study period was from 2004 to 2008 with minimum follow-up of 2 years.
Possible risk factors were documented: age, gender, body mass index, bone mineral density (BMD), co-morbidities, location of treated vertebra, treatment modality and amount of bone cement injected.
Anterior-posterior vertebral body height ratio, intra-discal cement leakage into the disc space and pattern of cement distribution of the initial VCF and adjacent vertebral bodies were assessed on lateral thoracolumbar radiographs by 2 independent assessors.
Introduction
Although a previous hip fracture is one of the strongest predictors for the next one this risk might be modified by other factors. The goal of this analysis was to compute a simple algorithm to assess the individual risk for a contralateral hip fracture.
Materials and methods
The analysis is based on a nationwide population-based Danish cohort study of 84,360 patients experiencing a hip fracture followed-up for 5 years. We a priori defined a set of 17 candidate parameters potentially associated with early contralateral hip fracture. We bootstrapped a stepwise augmentation procedure 10 times and selected five parameters that entered the model in all bootstrapping cycles and computed the individual risk for a contralateral fracture within two, three, and five years after the first incidence.
The previous bioabsorbable plates have had several issues with regard to clinical usage for fractures. The aims of this study were to demonstrate the clinical results of novel bioabsorbable plates made of hydroxyapatite/poly-L-lactide and titanium plates for metacarpal fractures and to compare mechanical properties of them in a fracture model. The subjects were 33 metacarpal diaphyseal fractures of 27 consecutive patients treated with bioabsorbable plates. The mean age was 35.8 (17–78), 22 male and 5 female was included. The mean follow up period was 7.4months (2–14). All cases achieved bone union, and there were no complication especially for aseptic swelling etc.
Furthermore, we compared the mechanical properties of bioabsorbable and titanium plates. There were no significant differences in 6 month postoperative clinical results including total range of active motion and % of the contralateral grip strength between patients receiving bioabsorbable and titanium plates. The bending strength and stiffness of one-third tubular bioabsorbable plate constructs were comparable with those of titanium plates for 1.5mm screws, and those of semi-tubular bioabsorbable plates were comparable with those of titanium plates for 2.0mm screws. The torsional strength of semi-tubular bioabsorbable plates was significantly greater than that of titanium plates for 2.0mm screws.
Introduction
In oblique olecranon fracture, fracture line begins in the trochlear notch and proceeds distally to the dorsal cortex of the ulna. We have experienced a nonunion of
Hypothesis
Reverse oblique olecranon fracture has instability.
Introduction
This study compares outcomes of vertebroplasty(VP) and kyphoplasty(KP) in 125 consecutive female Asian patients above 65 years with L1 osteoporotic vertebral compression fractures
Methods
57 and 68 patients underwent VP and KP respectively from 2004 to 2008. Outcomes were measured prospectively at pre-operation, 1 month, 6 months and 2 years post-operation by blinded assessors. Radiographic outcome: Anterior, middle and posterior vertebral heights of the L1 vertebral body Functional outcome: Short-Form 36(SF-36) score, Visual Analogue Scale(VAS) score for back pain
Introduction
In elderly patients, the incidence of a second fracture in the contralateral hip within 2 years of a femoral neck fracture (FNF), ranges from 7 to 12%.
Hypothesis
We want to evaluate the safety and efficacy of the Prevention Nail System (PNS), a titanium screw with a hydroxyapatite-coated thread, developed to prevent contralateral FNFs in severe osteoporotic patients.
Introduction
Although tension band wiring fixation of patellar fracture has been the most widely used technique, the metal implants related complications including implant loosening, postoperative pain are very common and additional surgeries are often necessary.
Hypothesis
A totally metal free technique of transosseous suturing method could outperform the traditional fixation technique.
Introduction
Radiation exposure to the eye causes cataracts. Few orthopaedists wear leaded glasses when using fluoroscopy despite regulatory limits for maximum annual eye exposure.
Methods
Using anthropomorphic patient and surgeon phantoms, radiation dose at the surgeon phantom's lens was measured with and without leaded glasses during fluroscopic acquisition of 16 common pelvic and hip views. The magnitude of lens dose reduction was calculated by dividing the unprotected dose by the dose measured behind leaded glasses.
In polytrauma patients invasive surgeries can potentiate the posttraumatic systemic inflammation thus increasing the risk of multi organ dysfunction. Therefore, fractures are initially treated by external fixators, which later are replaced by intramedullary nails. We showed that a severe trauma impaired the healing of fractures stabilized by external fixation. Here we studied, whether the conversion to an intramedullary nail increases posttraumatic inflammation and leads to further impairment of healing.
44 rats received a femur osteotomy stabilized by an external fixator (FixEx). Half of the rats underwent a thoracic trauma (TXT) at the same time. After 4 days the fixator was replaced by an intramedullary nail (IMN) in half of the rats of each group. The rats were killed after 40 and 47 days. C5a serum levels were measured 0, 6, 24, and 72h after the 1st as well as the 2nd surgery. The calli were evaluated by three-point-bending test, μCT and histomorphometry.
The TXT significantly increased serum C5a levels after the 2nd surgical intervention. After 40 days the switch from FixEx to IMN significantly decreased bending stiffness in rats with and without TXT. After 47 days flexural rigidity in rats subjected to conversion was significantly decreased compared to rats treated only with a FixEx, particularly in combination with TXT.
This study showed that after a severe trauma the conversion of the fixation could provoke a second hit and contribute to delayed fracture healing.
Introduction
Proxy assessment of health-related quality of life (HRQoL) can be an alternative to self reporting in elderly patients with cognitive or physical impairment. However, over- and underestimation by the proxies is reported. The aim of the present study was to examine the agreement of HRQoL answers between old Japanese patients and their close relatives.
Materials and methods
In a clinical study about trochanteric fractures, HRQoL was assessed using the SF36v2. A sample of 27 questionnaires were completed via telephone interview twice on the same day: once by the patients themselves, and once by a close relative. Assessments were performed at either 6 or 12 mo after surgery. The reliability of the SF36v2 dimensions and of the 2 component summary measures was assessed by Intraclass Correlation Coefficients.
Introduction
Over the past decade, the use of negative pressure wound therapy (NPWT) devices has increased and expanded to include a wide variety of patients. However, the safety and efficacy of NPWT over skin in open fractures is still unknown. The purpose of this study was to evaluate the complication rate and outcome of open fractures treated by NPWT over closed wounds or flaps.
Materials and methods
We performed a retrospective review of prospectively collected data of 10 patients, with an average age of 37.9 years old, who underwent NPWT over surgically closed wounds or random pattern cutaneous flaps in open fractures. All wounds were debrided and closed, and NPWT was applied over the skin sequentially in emergency operations.
Introduction
Bone tissue engineering approaches are an emerging strategy to treat bone defects, and commonly involve the delivery of osteogenic cells and/or drugs via a porous scaffold. We have been exploring an alternative injectable approach for drug delivery that would obviate the need for invasive surgery.
Hypothesis
Sucrose Acetate Isobutyrate (SAIB) is a sucrose-based ester that is a highly viscous semi-solid. Diluting SAIB with 10–20% ethanol markedly reduces its viscosity, with ethanol diffusing rapidly after
Introduction
Plate fixations have been recommended for dislocated clavicle fractures. However, existing plates are inadequate for morphological compatibility with the clavicle. The aim of this study is to measure the anatomical shape of the clavicle and to compare the radiographical and clinical outcomes of our tree-dimensional (3D) reconstruction plate with conventional straight plate.
Methods
Chest CT image of 15 patients with normal clavicle were analyzed. Their clavicles were reconstructed and measured their anatomical variables. A hospital-based case-control study was conducted, including a consecutive series of 52 patients with displaced midshaft clavicle fractures. 3D reconstruction plate was used for 26 patients and another 26 patients were treated with conventional straight plate. Outcome measures included the period of bone union, revision surgery, operating times and clinical symptoms using DASH score.
Introduction
Our previous study using microarray analysis showed that Rad (Ras associated with diabetes) was highly expressed in nonunion. The purpose of this study is to investigate the gene expression and immunolocalization of Rad, and other Ras-related G proteins: Rem1 and Rem2 in fracture/nonunion site using rat experimental models.
Hypothesis
We hypothesized that Rad had a significant role in nonunion formation.
Introduction
Metatarsocuneiform (MTC) fusion is a standard treatment for arthritis, instability, and deformity of these joint. The MTC fusion achieves a good clinical outcome, but nonunion rates up to 12% have been reported. There are different methods for fixation of first MTC joint arthrodesis. Our aim was to compare the biomechanical characteristic of internal and external fixation constructs.
Hypothesis
Plantar plate fixation provides higher construct stiffness and endurance stability than intraosseous fixation.
The most important issue in the assessment of fracture healing is to acquire information about the restoration of the mechanical integrity of bone. Many researchers have attempted to monitor stiffness either directly or indirectly for the purpose of assessing strength, as strength has been impossible to assess directly in clinical practice. The purpose of this study was thus to determine the relationship between bending stiffness and strength using mechanical testing at different times during the healing process. Unilateral, transverse, mid-tibial osteotomies with a 2-mm gap were performed in 28 rabbits. The osteotomy site was stabilized using a double-bar external fixator. The animals were divided into four groups (n=7/group/time point; 4, 6, 8 and 12 weeks). A series of images from micro-computed tomography of the gap was evaluated to detect the stage of fracture healing and a 4-point bending test was performed to measure stiffness and strength. Formation of cortex and medullary canal at the gap was seen in the 12-week group and would represent the remodeling stage. In addition, the relationship between stiffness and strength remained almost linear until at least 12 weeks. However, stiffness recovered much more rapidly than strength. Strength was not fully restored until the later stages of fracture healing. However, the current study demonstrated that stiffness could be monitored as a surrogate marker of strength until at least the remodeling stage.
Since osteoimmunology is gaining increasingly interest and evidence for involvement of complement in bone biology was found, the role of complement in bone biology and fracture healing was evaluated.
After characterizing the bone phenotype, a fracture healing experiment with C3- and C5- deficient mice was performed. After osteotomy of the right femur and external fixation, healing was analyzed after 1, 3, 7 and 21 days. Bone characterization revealed a reduced number of osteoclasts in C5-deficient animals with a significantly reduced resorption activity. While bone mineral density was significantly higher in complement-deficient strains, stiffness was significantly reduced. After 21 days of fracture healing, C5-deficient animals showed reduced stiffness and a smaller callus volume compared to controls. Interestingly, C3- more than C5-deficient animals showed reduced bone formation. Altogether, bone phenotype of complement-deficient animals resembles a mild form of osteopetrosis.
This might be due to the resorption defect seen in C5-deficient mice. A reason for the minor involvement of C3-deficient mice compared to the C5-deficient animals could be the cross-talk between the coagulation cascade with side activation of complement factor C5 by thrombin.
These results indicate for the first time an essential role of complement in bone biology and fracture healing. Future studies should focus on the molecular basis of complement involvement and the osteoclastic resorption defect.
Background
pelvic fractures in elderly patients often result in poor prognosis due to immobilization associated complications. Thus, the target of the treatment in this patient group is early mobilization in order to reduce the risk of these complications. We report outcomes of 4 cases of pelvic fracture in elderly patients, who were treated with percutaneous screw fixation.
Material and method
We examined medical records and images of 4 elderly patients between January 2012 and May 2012 in our center. Mean age of the patients was 88.8 years old (range 86–92 years). The causes of injury were motor vehicle accident in 3 patients, and a fall in 1 patient. Fracture types were ao type a in 1 patient, type b in 2 patients and type c in 1 patient. Mean injury severity score was 25 (10–57). We assessed functional status after the follow-up period using majeeds grading score for pelvic fractures.
Introduction
Low total Mini-Mental State Examination (MMSE) score might significantly increase risk of hip fractures. This study was to investigate the effects of MMSE subdomains on the risk of hip fractures with a sex and age matched case control study.
Materials & Methods
A total of 217 patients with first low-trauma hip fractures were matched with 215 hospitalised controls. Seven MMSE subdomains were analysed using conditional logistic regression with adjustment of five important clinical confounders: education level, ADL, physical activities, body mass index and bone mineral density. ROC curve analyses were further used to investigate the predictability of the independent subdomains.
There are a number of periprosthetic femoral fracture (PFF) fixation failures. In several cases the effect of fracture configuration on the performance of the chosen fixation method has been underestimated. As a result, fracture movement within the window that seems to promote callus formation has not been achieved and fixations ultimately failed.
This study tested the hypothesis that: PFF configuration and the choice of plate fixation method can be detrimental to healing.
A series of computational models were developed, corroborated against measurements from a series of instrumented laboratory models and in vivo case studies. The models were used to investigate the fixation of different fracture configurations and plate fixation parameters. Surface strain and fracture movement were compared between the constructs.
A strong correlation between the computational and experimental models was found. Computational models showed that unstable fracture configurations increase the stress on the plate fixation. It was found that bridging length plays a pivotal role in the fracture movement. Rigid fixations, where there is clinical evidence of failure, showed low fracture movement in the models (<0.05mm); this could be increased with different screw and plate configurations to promote healing.
In summary our results highlighted the role of fracture configuration in PFF fixations and showed that rigid fixations that suppress fracture movement could be detrimental to healing.
Background
Although gradual bone transport may provide a large-diameter bone, complications are common with the long duration of external fixation. To reduce such complications, a new technique of bone transport with a locking plate has been done for tibial bone defect.
Methods
In 13 patients (mean age, 38.9 years) of chronic osteomyelitis or traumatic bone defect, segmental transport was done using external fixator with a locking plate. In surgical technique, a locking plate was fixed submuscularly, holding the proximal and distal segments. Then, the external fixator for transport was fixed without contact of the locking plate. After docking, 2 or 3 screws were fixed at the transported segment through the plate holes. At the same time, the external fixator was removed.
We have done emergency vascularized composite graft by microsurgical technique for severe open fractures. It is essential for open injury to cover bones, joints, tendons etc. Vascularized composite graft for open fracture with tissue defect covers bone etc., prevents infection and promotes subsequent early functional recovery. Eighteen patients aged 3–55year old with an average age of 23.1y.o. were treated with this methos. Traffic injuries of leg and foot in children were the most common and others were open severe fracture with tissue defects. The composite graft employed were peroneal osteocutaneous flap, latissimus dolsi flap, parascapular flap and groin flap. The advantage of these flaps to cover the damaged structure primrily facilitatrs rapid tissue repair without infection and scar formation. In fact, except one reoperation due to a skin necrosis in parascapular flap, all grafted flaps successfully repaired the severe damaged bone and joint. Sufficient perfusion of antibiotics by these vascularized flap prevents infection in all cases. Primary emergency vascularized composite graft for severe open fracture with tissue defect is shown to be extremely useful method with rapid repair and functionnal recovery.
Objective
To investigate the outcomes of patients following the chipping procedures as an alternative to bone grafting in treatment of non-unions after long bone fracture.
Patients
Sixteen patients with femoral or tibial non-union were included. The median follow-up was 24 months.
Background
Although minimally invasive plate osteosynthesis (MIPO) has become popular option for humeral shaft fractures, indirect reduction and its maintenance are technically challenging. The purpose of this study is to describe a reproducible technique utilizing an external fixator during MIPO and to assess its outcomes.
Methods
Twenty-nine cases with a mean age of 37.1 years were included. There were 7 simple (type A) and 22 comminuted (type B or C) fractures. Indirect reduction was achieved and maintained by a monolateral external fixator on the lateral aspect of humeral shaft, and MIPO was performed on the anterior surface. Union, alignment, complications, and functional results of the shoulder and elbow were assessed.
Introduction
Atypical femoral fracture focused on relation of bisphosphonate use, frequently. However, the mechanism of atypical femoral fracture was not yet clarified. Atypical femoral fractures have been kept femoral shaft cortical thickness and BMD, practically. We hypothesized that atypical femoral fractures were associated with impaired bone quality and curvature of femoral shaft.
Materials & Methods
We experienced four atypical femoral fractures. One was subtrochanteric and three were shaft fracture. Two cases received bisphosphonate therapy for 3–5 years. BMD, bone metabolic markers, and bone quality markers were evaluated. Histomorphometry and collagen cross-link analysis were performed. Curvature of femoral shaft and 3-D finite element analysis in one incomplete fracture case were assessed.
Introduction
The fracture healing outcome is often evaluated via ex vivo testing of the fracture callus. However, there is only a small time window, where the callus stiffness is significantly different, i.e. a delayed fracture healing might be undetected if the time point of sacrifice is improper. The aim of this study was to develop an in vivo monitoring concept, which allows determining the fracture callus stiffness in vivo over the whole healing time in rats.
Hypothesis
The fracture callus stiffness can be monitored by measuring the deformation of the external fixation device during gait analysis at several healing time points.
Fracture classification of femoral trochanteric fracture is usually based on plain X-ray. However, complications such as delayed union, non-union, and cut out are seen in stable fracture on X-ray. In this study, fracture was classified by 3D-CT and relationship to X-ray classification was investigated.
48 femoral trochanteric fractures (15 males, 33 female, average age: 82.6) treated with PFNA-II were investigated.
Fracture was classified to 2part, 3part(5 subgroups), and 4part with combination of 4 fragments in CT; Head (H), Greater trochanter (G), Lesser trochanter (L), and Shaft (S). 5 subgroups of 3 part fracture were (1) H+G (S: small fragment) + L-S, (2) H + G (B:big fragment) + L-S, (3) H + G-L + S, (4) H + G (W:whole) + S, and (5) H + L + G-S. Numbers of each group were as follows; 2 part: 11, 3 part (1) : 7, 3 part (2) : 12, 3 part (3) : 10, 3 part (4) : 2, 3 part (5) : 3, 4 part : 3. 3 part (3), (4), (5) and 4 part are considered as unstable, however, 6 cases in these groups were classified in A1–1 or A1–2 stable fracture in AO classification. 10 fractures in Evans and 5 fractures in Jensen classification classified as stable were unstable in CT evaluation.
It is sometimes very difficult to classify the femoral trochanteric fracture by plain X-ray. Classification with 3D-CT is very useful to distinguish which fracture is stable or unstable.
Introduction
Fracture healing is governed by biological and mechanical factors. Circular frames are one method to fix fractures. Recently, the number of frame designs that are available has increased and these different designs may have different effects on the mechanical environment created. The senior author has been concerned by the stability of the construction when a short frame is used. This study examined the stability of different frames and the possible use of additional 7th struts to aid stability.
Method
The frame configuration was modified with increasing strut angles from 15° − 70°. Each frame was cyclically tested in compression to 200N. The Taylor Spatial Frame was retested with the addition of a seventh strut.
Introduction
Sacral fractures were previously treated with transiliac bars, sacroiliac screws or posterior plates. Sacroiliac screws are not as invasive, but the risk of intra-operative neurovascular damage must be considered. Posterior plate fixation is slightly invasive. In 2006, we conceived a new fixation method with spinal instrumentation system, and I will introduce it.
Procedure
We make 5cm skin incisions just above each side of post. sup. spine of ilium and make a tunnel under the soft tissue. Then, we insert 4 screws to ilium, pass two rods through the tunnel and fix them. If needed we make reduction or compression. Finally, set the transvers connecting device on both sides.
Mechanical loading of bone is anabolic, while aseptic loosening of implants is catabolic. In a rat model of mechanically induced aseptic loosening, osteoclast differentiation is increased dramatically but the underlying mechanism is unknown. The objective was to profile molecular pathways in peri-implant bone resorption. Microarrays on cortical bone samples exposed to pressurized fluid flow were performed 3, 6, 12, 24 and 36 hrs, using time 0 as controls. Of a total of 4093 genes that underwent a 1.25-fold change (p<0.05) due to fluid flow only 21 were common for all time points. Signals linked to inflammation and apoptosis were regulated in a biphasic manner at 3 and 12 and/or 24 hrs. The acute response at 3 hrs was associated with increases in the cytokines IL-6, IL-11, LIF and STAT3. Levels of the pro-apoptotic factor TWEAK were higher while those of BOK, a second pro-survival molecule, were lower. There is an early and late rise in RIPK3, which stimulates a form of programmed necrosis. Osteoblast-related genes were clearly suppressed (osteocalcin, Col1a, PTHr1), while those regulating macrophage and osteoclast differentiation (CSF-1, Bach1, HO-1, RANKL, RANK, OPG) were enhanced. These data suggest that mechanical loading of cortical bone stimulates time-dependent expression of genes regulating the survival, necrosis and differentiation of both the myeloid and mesenchymal cell lineages, resulting in an integrated response leading to a rapid increase in osteoclast numbers.
In fractures electrical currents generated by piezoelectric and junctional diode effects initiate and augment healing. Conductive fixators may interfere with these currents causing delayed/nonunion which can be avoided by non conductive fixators, facilitating osteosynthesis. Null hypothesis of no difference and two tailed alternate hypothesis of any could be better was used. Impugn change in Electrical properties for demarcating union rate.
Patients of Gustillo's grade I and II tibia fractures were randomised in conductive and non conductive fixator groups in a blinded manner. Electrical and clinico-radiological properties were compared every two weeks for 20 weeks, recoding magnitude and significant difference. Capacitance(p=0.03), Impedance(p=0.002), Inductance(p=0.01) and Reactance(p=0.02) are the electrical parameters which not only demarcated union rate but orchestrated diagnosis of fracture healing. In Non-conducting group, after removal of fixator at week 10, Local Tenderness was consistently absent, Rust Score was higher at week 18 and 20(p=0.01), absence of abnormal mobility was 58% higher and 100% at week 12(p < 0.05), Presence of weight bearing was higher from week 16(OR=15, p=0.03), presence of transmitted movement was 2.4 times higher at week 10(95% CI=0.17–34.93, p=0.52) and was 100% at week 14.
Fractures heal at a faster rate if fixed by insulated non-conducting external fixators. Electrical parameters can be used to demarcate and monitor fracture healing.
Introduction
Short-segment posterior instrumentation for spine fractures is threatened by unacceptable failure rates. Two important design objectives of pedicle screws, bending and pullout strength, may conflict with each other.
Hypothesis
Multiobjective optimization study with artificial neural network (ANN) algorithm and genetic algorithm (GA)
Despite its clinical significance, metaphyseal fracture healing has received little attention in research and experimental models have been limited. In particular it is not known to what extent the mechanical environment plays a role in metaphyseal fracture healing. Recently, a new murine internal fixation plate has been developed to stabilise fractures in the distal femur under highly standardised conditions. Goal of the current study was to modify this design, in order to be able to evaluate the influence of the fixator bending stiffness on metaphyseal fracture healing in mice.
Adapting the existing single body design, resulting in low flexibility fixation, two new plates were developed with a decreased bending stiffness of approximately 65% and 45% of the original implant (100%). Pilot experiments were performed on 54 animals, whereas the mice were sacrificed and fracture healing assessed radiologically and biomechanically after 14 and 28 days.
MicroCT evaluation confirmed that the osteotomy was created in the trabecular, metaphyseal bone of the distal mouse femora. All bones showed progressive fracture healing over time, with decreased implant stiffness leading to increased periosteal callus formation.
These implants represent an important new research tool to study molecular and genetic aspects of metaphyseal fracture healing in mice under standardized mechanical conditions, in order to improve clinical treatment in challenging situations, such as in osteoporotic bone.
Introduction
An important factor in the internal fixation of pertrochanteric fractures is the ability to maintain postoperative reduction. Excessive postoperative sliding of the lag screw or blade may result in reduction loss. We retrospectively analyzed the relationship between postoperative reduction and sliding.
Methodology
From Oct. 2009 to Sept. 2011, we treated pertrochanteric fractures using J-PFNA (Synthes) and InterTAN (Smith & Nephew) in 91 cases and 82 cases, respectively. We used postoperative radiographs to classify its reduction. Fractures were classified for its interfragmentary contact using the calcar femorale as a reference on the A-P plane while using the anterior cortex as a reference on the M-L plane.
Introduction
The treatment of large segmental defects of long bones, which is caused by high energy trauma, revision surgery and resection of tumor or osteomyelitis and so on, is usually difficult. Recently the usefulness of Induced membrane technique (Masquelet technique) is reported. Induced membrane technique is an alternative method to reconstruct long-bone defects, which is two-stage surgery and combines the use of induced pseudo-membranes and cancellous autografts. The mechanism of bone formation in this technique is unknown. We performed Induced membrane technique on four patients, collected their membranes, and tested osteogenic ability and multipotency of cells derived from the membrane.
Material and Method
From 2011, we had 4 patients of large segmental defects of long bones, which underwent operations of induced membrane technique. All operation performed by one surgeon. There were 2 nonunion (2 femur) and 1 open fracture (tibia), and close comminuted fracture (femur). Average length of bone defects was 5 cm. On the second stage, we collect some membranes and cultured cells derived from them. Then, cultured cells were tested for the ability to differentiate in vitro to multiple lineage.
Backgrounds
Hip fractures have significant excess mortality, but it is unknown how long excess mortality persists. Our study was to explore the short and long term excess mortality after hip fractures, assess the impact of hip fracture on excess mortality and estimate the population attributable risk proportion (PARP) of risk factors for excess mortality.
Methods
A total of 216 elderly with first time low trauma hip fracture admitted to NTUH were age and sex matched with 215 elder patients from Geriatric Department of the same hospital. All 63 covariates associated with mortality were analyzed using COX regression model. The survival status of these subjects was followed through National Death Registry for 60 months.
Materials and method
This study included 309 patients, over the age of 60 (44 men, 256 women, mean age 85.6 years) who underwent osteosynthesis using a short femoral nail(Gamma)for femoral intertrochanteric fractures. The new reduction classification was defined, in AP view by the degree of contact between the medial cortex of the proximal fragment and that of the medial cortex of the distal fragment. The classification in AP view is divided into three Types: Anatomical Type, Medial Type, and Lateral Type. As for the ML view was defined based on the degree of anterior cortex contact between proximal and distal fragment, was divided also into Anatomical Type, Intramedullary Type, and Extramedullary Type. We assessed lag screw sliding amount at 2 weeks period after surgery as the post-operative displacement.
Results
The sliding at 2 weeks was in AP Anatomical Type 3.7mm, in Medial Type 3.2mm and in Lateral Type 9.4mm. The sliding in the Lateral Type was much greater than those of Anatomical Type and Medial Type (Significant p-value, p=0.01, 0.01). Likewise, in the ML view, Anatomical Type 3.0mm, Intramedullary Type 6.2mm and Extramedullary Type 4.7mm respectively. There was a significant difference between ML Anatomical Type and Intramedullary Type(p=0.01).
Introduction
iPSCs represent a promising cell source for bone regeneration. To generate osteoprogenitor cells, most protocols use the generation of embryoid bodies (EBs). However, these protocols give rise to heterogeneous population of different cell lineage.
Hypothesis
We hypothesized that a direct plating method without EB formation step could be an efficient protocol for generating a homogeneous population of osteoprogenitor cells from iPSCs.
Introduction
The flexor carpi radialis (FCR) approach is widely used for volar plate fixation of distal radius fractures. However, patients sometimes complain of postoperative numbness at the thenar eminence. We propose this is derived from injury to the palmar cutaneous branch of the median nerve (PCBm).
Materials and methods
From March 2010 to March 2012, we performed 10 operations of volar plate fixation for distal radius fractures using the FCR approach. We detected the PCBm intraoperatively and investigated the anatomy.
Introduction
Parathyroid hormone 1–34 (PTH) has been reported to accelerate fracture healing. Previously, we demonstrated human fracture hematoma contained osteo-/chondro-progenitor cells. To date, there has been no study investigating the effect of PTH on fracture hematoma-derived cells (HCs) in vitro.
Hypothesis
We hypothesized PTH treatment affected osteogenesis and chondrogenesis of HCs.
Introduction
what size of defect is optimal for creating an atrophic nonunion animal model has not been well defined. Our aim in this study was to establish a clinically relevant model of atrophic nonunion in rat femur by creation of a bone defect to research fracture healing and nonunion.
Materials and methods
We used 30 male Fischer 344 rats (aged 10–11 weeks), which were equally divided into six groups. The segmental bone defects to a single femur in each rat were performed by double transverse osteotomy, and different sized defects were created by group for each group (1 mm, 2 mm, 3 mm, 4 mm, 5 mm and 6 mm). The defects were measured and maintained strictly by using an original external fixator. The periosteum for each defect was stripped both proximally and distally. Thereafter, these models were evaluated by radiology and histology. Radiographs were taken at baseline and at intervals of two weeks over a period of 8 weeks. Atrophic nonunion was defined as a lack of continuity and atrophy of both defect ends radiologically and histologically at eight weeks.
Introduction
The hematoma occurring at a fracture site is known to play an important role in fracture healing. Previously, we demonstrated that fracture hematoma contained multilineage mesenchymal progenitor cells. On the other hand, the process of fracture healing is associated by two different mechanisms, intramembranous and endochondral. However, there are no reports proving the details about cellular analysis in the process of endochondoral ossification.
Hypothesis
We hypothesized that one of the cell origins for endochondral ossification after fracture was hematoma.
Introduction
Proximal humeral shaft fractures are rare injury. In such case, to the best of our knowledge, the treatment by both double-plate method and the MIPO has never been seen before in the literature. Here we report our experience and management about this method.
Materials & Methods
A 69-year-old man who suffered falling down at home to his right shoulder that resulted in co-existing fractures of the proximal humerus and humeral shaft. According to AO/ASIF classification, he had 11-B1 and 12-A1 fractures ipsilaterally. He was treated by double plate method with PHILOS (SYNTHES, Japan) to proximal humerus and narrow LC-LCP(SYNTHES, Japan) to humeral shaft. Intraoperatively we put the skin incision about 3.0 cm each in three places, for reduction and fixation by the MIPO. Postoperatively, external fixation was only sling and physiotherapy was initiated after third post-operative days for range of motion exercises.
Aims
Dual SC Screw (DSCS) is a novel fixation device for the femoral neck fracture. DSCS is comprised of screw and barrel allowing sliding of the screw and preventing protrusion of the screw end. Two types of the barrels are available, threaded barrel (TB) and plate barrel (PB). Ordinarily, both barrels are implanted. Concept of the design is that the PB contributes stability to the screw against the varus force of the femoral head while the additional screw with TB prevents rotational deformity. The aim of this study was to represent clinical results after DSCS operation in patients with femoral neck fracture.
Method
Fifty-one patients with femoral neck fractures treated using DSCS and at least 3 months follow up are included and their clinical was evaluated.
Background
The usefulness of arthroscopic reduction for the intra-articular fracture of the distal radius has been reported, although it is technically difficult.
Hypothesis
Our hypothesis is that the reduction using the external fixator is useful as equivalent to the arthroscopic reduction for the intra-articular fracture of the distal radius fracture in the fixation with the volar locking plate.
Introduction
In most cases of stable type medial femoral neck fracture and some cases of dislocated medial femoral neck fracture, internal fixation was undertaken. Dual SC Screw (DSCS) System is an internal fixation device which has sliding mechanism and preventing mechanism of back out of the screw. The purpose of this study is to evaluate the results and complication of medial femoral neck fracture treated with DSCS.
Methods
Fifty two patients operated for fractures of the medial femoral neck with DSCS were identified as the study population. All patients followed up at least 2years. Outcome measures included the period of bone union, revision surgery, operating times and clinical symptoms and complication.
The ratio of the incidence of trochanteric to cervical fractures increased with age in the elderly female population, but the reason for this fact remain unclear.
The purposes of this study were to investigate whether or not there are specificities of the local distribution of mechanical properties at the trochanteric region of the elderly female using a scanning acoustic microscope (SAM). Human proximal femurs were harvested from seven female cadavers (67–88 years) and proximal femur was coronally sectioned into halves across the center of neck. The surface of the coronal section was polished in order to achieve flat surfaces of smoothness well below the surface resolution in scanning with SAM. Bone tissue density and elastic modulus were calculated from the acquired SAM data. Mechanical properties were measured at the lateral and medial trochanter. Cortical bone tissue of the lateral trochanter had significantly lower elastic modulus than that of the medial trochanter in the all specimen over 70s(p<0.05). Trabecular bone tissue of proximal region of the lateral trochanter had significantly lower elastic modulus than that of distal region in all 80s specimens (p<0.05). Decrease of the elastic modulus of cortical bone in the lateral trochanter and low value of the elastic modulus of trabecular bone in the proximal region of the lateral trochanter may be related to the increase of the ratio of trochanteric to cervical fractures with age in the elderly female population.
Introduction
The therapeutic potential of hematopoietic stem cells for fracture healing has been demonstrated with mechanistic insight of vasculogenesis and osteogenesis enhancement. Lnk has recently been proved an essential inhibitory signaling molecule in SCF-c-Kit signaling pathway for stem cell self-renewal demonstrating enhanced hematopoietic and osteogenic reconstitution in Lnk-deficient mice. We investigated the hypothesis that down regulation of Lnk enhances regenerative response via vasculogenesis and osteogenesis in fracture healing.
Methods
A reproducible model of femoral fracture was created in mice. Immediately after fracture creation, mice received local administration of the following materials with AteloGene, 10μM (1)Lnk siRNA, (2)control siRNA.
Introduction
Recently, some case reports have been published, in which nonunions were successfully healed with parathyroid hormone 1–34 (PTH) administration. Previously, we demonstrated that the intervening tissue at the nonunion site contains multilineage mesenchymal progenitor cells and plays an important role during the healing process of nonunion. We investigated the effect of PTH on osteogenic differentiation of human nonunion tissue-derived cells (NCs) in vitro.
Hypothesis
We hypothesized that PTH directly promoted osteogenic differentiation of NCs.
Introduction
The proximal femur fracture in children is rare. Furthermore osteoporotic fracture associated with bone tumor make it difficult to decide the proper management method. The treatment plan should include both the treatment of the fracture and management of the condition responsible for the fracture. However, the reported literatures are rare and vary.
Hypothesis
We identified the results of treatment associated with pathologic fracture of proximal femur in children.
Introduction
The treatment of trochanteric femoral fractures with the use of short femoral nails has become an established method. The fixation is required that lag screw be centered to prevent complications. But correct positioning of the device may difficult because of anatomical feature. This study evaluated the femoral morphology three-dimensionally using computed tomography (CT) images.
Methods
Seventy eight patients (mean age 75)who underwent total knee arthroplasty were included. After three-dimensional reconstruction of the CT images, the anterior deviation from the femoral neck axis to proximal shaft axis was measured. The proximal shaft axis was defined as a line between center of the cross-section underneath the lesser trochanter and the center of diaphysis. The connection of center in narrow section of the neck and femoral head center was defined as neck axis.
Objective
We reviewed clinical results with minimally invasive method and using a new developed plate for unstable pelvic ring fractures, especially vertically unstable sacral fractures.
Materials & Methods
Between 2002 and 2010, 35 patients with vertically unstable sacral fractures were treated with minimally invasive method and using an M-Shaped transiliac plate which was developed by the author. This plate is anatomically designed for posterior pelvic ring, and achieved rigid fixation. Patients included 19 male and 16 female, with the mean age of 46.2 (range, 17∼79) years old. According to the AO classification, 23 patients had a C1 injury, 9 had a C2 fracture, and 3 patients sustained a C3 injury of the pelvic ring. Functional outcome was assessed using the Majeed's functional evaluation and radiography. Minimum follow-up was one year.
Introduction
Femur neck fractures (NOF) in the young could result in mal-union, non-union and avascular necrosis of the femoral head. Osteosynthesis is the standard of management in NOFs in young patient above complications sometimes end in Arthroplasty. The aim of our study is to identify predictors of NOF failures in the young population.
Method
A retrospective study conducted in a single center. Patients with NOF fractures below the age of <50y excluding pathological and osteoporotic fractures were assessed in the period from 2005–2008. The mean follow-up was 22 months (6–40). Fractures were classified according to Gardens classification. Our Aim was to identify causative factors for fixation failures. Analysis was done using SPSS 17.0.
Clinical evidence that patients with type 2 diabetes mellitus (T2DM) have increased risk of fractures is reported. Furthermore, thiazolidinediones, used to treat T2DM increases the risk of secondary osteoporosis & subsequent fractures. The osteogenic potency of metformin is reported in vitro, few studies have investigated the effects of metformin on bone mass and fracture healing in vivo. We aimed to investigate the effects of metformin on fracture healing in vivo.
Method
20 female Wistar rats aged 3 months were randomly divided in two groups, one group receiving saline, the other group receiving metformin administered orally via the drinking water at a concentration of 2mg/ml. After 4 weeks of metformin treatment, a mid-diaphyseal, open External fixation fracture was performed. Rats were sacrified 4 weeks later. Right contralateral tibia and left osteotomised femora were excised, bone architecture analysed by micro-CT in the right tibia.
Results
No significant differences were noted between the two groups. Fracture callus volume and mineral content after 4 weeks were similar in metformin and saline groups.
Discussion Our results indicate that while metformin has no adverse effects on bone, it does not promote bone mass, as suggested by in vitro studies. This confirms clinical data which have not shown direct links between metformin and decreased fracture risk
Introduction
Basicervical fracture of the femur is one type of hip fracture, which is regarded as an extra and intra-capsular fracture. We experienced an atypical type of this fractures, the fracture line exist between subcapital portion at anterior aspect and base of the neck at posterior aspect, running through the neck with a shearing fracture line shown in the coronal plane. We investigate the characteristic and result of this fractures in our cases.
Material & Methods
We treated seven cases, the mean age was 85(57–101) years old, the mean follow-up period was sixteen (3–27)months, and the cause of injury was fall in all cases. We evaluate treatment method, radiographical and clinical outcomes.
Objective
To investigate the outcomes of patients following the chipping procedures as an alternative to bone grafting in treatment of femoral non-unions.
Design
Retrospective evaluation of prospectively collected data.