The clinical success of posterior lumbar interbody fusion (PLIF) may be limited by pseudarthrosis, defined as the absence of solid fusion 1 year after surgery. Currently, CT is used to diagnose pseudarthrosis but is not able to be conclusive earlier than 1 year after surgery. No non-invasive technique is available to reliably assess bone graft incorporation in the early phase after PLIF. Positron Emission Tomography (PET) is a nuclear imaging modality that is able to identify changes at the cellular and molecular level in an early stage, well before manifestation of anatomical changes. PET/CT with the bone seeking tracer . 18. F-fluoride allows localization and quantification of bone metabolism. This study investigates whether an . 18. F-fluoride PET/CT scan early after PLIF is able to predict the fusion status at 1 year postoperative on CT. Twenty patients after PLIF were enrolled after written informed consent. At 6 weeks and at 1 year after PLIF, intravenous injection of . 18. F-fluoride was followed by a static scan at 60 minutes (Philips, Gemini TF PET/CT). Processing of images resulted in a bone metabolism parameter i.e. standardized uptake value (SUV). This parameter was determined for 3 regions of interest (ROIs): the intervertebral disc space (IDS) and the upper and lower endplate (UE and LE, respectively) of the operated segment. Interbody fusion was scored on a diagnostic CT scan made 1 year postoperatively and was defined as the amount of complete bony bridges between vertebrae, i.e 0, 1 or 2. Based on these scores, patients were divided in either the pseudarthrosis group (score 0) or the fusion group (scores 1 and 2). Differences between groups were analyzed using the independent samples Mann-Whitney U-test. Ten patients were classified as pseudarthrosis (0 bridges: n=10) and 10 patients as fused (1 bridge: n=5, 2 bridges: n=5). Patients in the pseudarthrosis group showed significantly lower bone metabolism values in the IDS on the 6 weeks PET/CT scan compared to patients in the fusion group (SUV. IDS,6w. 13.3±5.62 for pseudarthrosis and 22.6±6.42 for the fusion group, p=0.003), whereas values at the endplates were similar (SUV. UE,6w. 20.3±5.85 for pseudarthrosis and 21.6±4.24 for the fusion group, p=0.282). Furthermore, only in the pseudarthrosis group, bone metabolism in the IDS was significantly lower than at the endplates (p=0.006). In the fusion group, bone metabolism in the IDS and at the endplates was similar (p=0.470). The PET/CT scan at 1 year postoperative showed that in the pseudarthrosis group, bone metabolism of the IDS remained lower compared to the endplates (SUV. IDS,1y. 13.2±4.37, SUV. UE,1y. 16.4±5.33, p=0.004), while in the fusion group, IDS and endplate bone metabolism was similar (SUV. IDS,1y. 13.6±2.91, SUV. UE,1y. 14.4±3.14, p=0.397). This study shows that low bone metabolism values in the IDS of the operated segment as seen on . 18. F-fluoride PET/CT 6 weeks after PLIF, is related to development of pseudarthrosis 1 year postoperatively. These results suggest that . 18. F-fluoride PET/CT might be an early diagnostic tool to identify patients prone to develop pseudarthrosis after PLIF

Introduction and Objective. Posterior and transforaminal lumbar interbody fusion (PLIF, TLIF) represent the most popular techniques in performing an interbody fusion amongst spine surgeons. Pseudarthrosis, cage migration, subsidence or infection can occur, with subsequent failed surgery, persistent pain and patient’ bad quality of life. The goal of revision fusion surgery is to correct any previous technical errors avoiding surgical complications. The most safe and effective way is to choose a naive approach to the disc. Therefore, the anterior approach represents a suitable technique as a salvage operation. The aim of this study is to underline the technical advantages of the anterior retroperitoneal approach as a salvage procedure in failed PLIF/TLIF analyzing a series of 32 consecutive patients. Materials and Methods. We performed a retrospective analysis of patients’ data in patients who underwent ALIF as a salvage procedure after failed PLIF/TLIF between April 2014 to December 2019. We recorded all peri-operative data. In all patients the index level was exposed with a minimally invasive anterior retroperitoneal approach. Results. Thirty-two patients (average age: 46.4 years, median age 46.5, ranging from 21 to 74 years hold- 16 male and 16 female) underwent salvage ALIF procedure after failed PLIF/TLIF were included in the study. A minimally invasive anterior retroperitoneal approach to the lumbar spine was performed in all patients. In 6 cases (18.7%) (2 infection and 4 pseudarthrosis after stand-alone IF) only anterior revision surgery was performed. A posterior approach was necessary in 26 cases (81.3%). In most of cases (26/32, 81%) the posterior instrumentation was overpowered by the anterior cage without a previous revision. Three (9%) intraoperative minor complications after anterior approach were recorded: 1 dural tear, 1 ALIF cage subsidence and 1 small peritoneal tear. None vascular injuries occurred. Most of patients (90.6%) experienced an improvement of their clinical condition and at the last follow-up no mechanical complication occurred. Conclusions. According to our results, we can suggest that a favourable clinical outcome can firstly depend from technical reasons an then from radiological results. The removal of the mobilized cage, the accurate endplate and disc space preparation and the cage implant eliminate the primary source of pain reducing significantly the axial pain, helping to realise an optimal bony surface for fusion and enhancing primary stability. The powerful disc distraction given by the anterior approach allows inserting large and lordotic cages improving the optimal segmental lordosis restoration

The influence of rigid fixation and permanent compression on the results, the timing of fusion and rehabilitation after fractures of the femoral neck was investigated. A hip fracture is 60–80% of all fractures of the proximal femur. Despite recent advances in the treatment of this disease, the percentage of unsatisfactory outcomes as high as 25–35%. The choice of surgical treatment in femoral neck fractures in the elderly remains as controversial as it was almost 50 years ago when Speed called him as “the unsolved fracture. Hip replacement is currently the gold standard in the treatment of femoral neck fractures. But compared with the osteosynthesis operation takes more time, is accompanied by massive blood loss, sometimes the need for transfusion and a higher risk of deep wound infection. Given these facts the best is an indoor low-traumatic method of osteosynthesis locking. Compare of the results of femoral neck fractures using of osteosynthesis 3 blade nail, spongious screws and nail for permanent compression. A retrospective analysis of treatment of 252 patients from 1982 to 2015 with subcapitale and transcervical fractures of the femoral neck on the basis “RCTO named by H.J. Makazhanova”. In the research locales patients older than 40 years. All patients were divided according to the applied method of treatment: 1 group of 95 patients operated using a 3-blade-nail, in the 2nd group of 105 patients operated on spongious screws, in the 3 group of 52 patients operated nail for the permanent compression, authoring. All patients underwent x-ray examination before and after surgery. The average period from time of injury before performing the osteosynthesis amounted to 4–7 days. The follow-up period was 6–12 months. The results obtained clinically and radiographically divided into good, satisfactory, poor. Good and satisfactory results were regarded as positive, and poor results as negative. The average age of patients was 67.5 years. Among these female patients − 174 (69%), the male − 78 (31%). Traumatization more prone to elderly accounting for 206 (81.7%) cases, and only 46 (18.3%) in the middle age group. Analysis of the results of treatment showed positive results in 1 group − 69.5 %, in group 2 − 83.8 %, in group 3 − 96.2 %. In the first group of 29 (31.5 %) and in the second group of 17 (16.2 %) patients have postoperative complications: secondary displacement, nail migration, pseudarthrosis, necrosis of head. The patients of third group have postoperative complications in 2 cases (3.8 %): displacement of bone fragments according of retraumatization. Employability was restored in 1 group − 7–9 months, in group 2 - in 6–8 months, 3 group - through 6–6.5 months. 1). The method of choice for fresh fractures of the femoral neck, especially subcapital fractures in the elderly, is a minimally invasive method of closed compression osteosynthesis. 2). Comparative analysis of treatment results showed that for the consolidation and subcapital transcervical femoral neck fractures can provide rigid fixation of bone fragments. 3). The use of permanent compression is the best method, which shortens the period of consolidation

Summary. Human amniotic membrane has interesting properties for regenerative medicine. To use it as an Advanced Therapeutic Medicinal Product in bone surgery, we are evaluating: the necessity of its osteodifferentiation and the impact on immunogenicity; its optimal condition for storage. Introduction. The human Amniotic Membrane (hAM) is known to have a good potential to help the regeneration of tissues. It has been used for 100 years in many medical disciplines because of its properties: a flexible scaffold containing stem cells and growth factors, with low immunogenicity and anti-microbial, anti-inflammatory, anti-fibrotic and analgesic properties. Previous published data showed the possibility of in vitro osteodifferentiation of the whole tissue. We aim to use this «boosted membrane» as an Advanced Therapeutic Medicinal Product for bone repair to treat large defects or pseudarthrosis, so, we are studying:. The necessity to osteodifferentiate the tissue and its consequence on the immunogenicity; Its in vivo osteogenic potential; The effects of the cryopreservation on cell viability and function. Materials and Methods. HAM from cesarean delivery were provided by a local bank of tissue. 4 groups of hAM were performed:. Group 1: non treated (fresh hAM);. Group 2: cryopreserved hAM;. Group 3: cultured hAM in osteogenic medium 3 weeks;. Group 4: cultured hAM in osteogenic medium 3 weeks and then cryopreserved. Cell viability was measured and the osteodifferentiation was revealed by Alizarin Red and von Kossa staining on whole tissue and on histological sections. We grafted these 4 groups of hAM in an ectopic murine model (subcutaneously) either alone (to evaluate its resorption and its immunological tolerance) or wrapped around bone substitute (to observe its osteogenic potential). We explanted grafted tissues after 1, 2, 4 and 8 weeks and performed histological and immunological studies. Results. To date, in vitro studies showed: A macroscopic mineralization of hAM in group 3. Different cell viability according to the groups that apparently doesn't alter the osteogenic potential. A tensile strength dependent on the time of cryopreservation and the type of cyropreservant used. In vivo macroscopic studies showed: no immunological reaction neither resorption of hAM after 4 weeks of implantation in all the groups and a tissue calcification in group 3. In vivo microscopic studies showed: the presence of hAM in a vascularised fibrous capsule; the bilayer hAM structure is still observed without sign of inflammation. Discussion. We confirmed the in vitro osteodifferentiation of hAM reported by others. First in vivo experiments let us think that the tissue keeps its low immunogenicity after its osteodifferentiation; the histological results will confirm it. The definition of optimal conditions for cryopreservation is in progress. At the end of this proof of concept, we will able to conclude if hAM can be used as an allograft for bone repair and if its preliminary osteodifferentiation is necessary. Next step will consist to test it in an orthotopic critical size bone defect model

Summary. Properties of human amniotic membrane are particularly interesting. To use it as an Advanced Therapeutic Medicinal Product in bone surgery, we are evaluating its association with a potentially osteoinductive scaffold. Introduction. The human Amniotic Membrane (hAM) is known to have a good potential to help the regeneration of tissues. It has been used for 100 years in many medical disciplines because of its properties: a membrane containing stem cells and growth factors, with low immunogenicity and anti-microbial, anti-inflammatory, anti-fibrotic and analgesic properties. Moreover, previous published data showed the possibility of in vitro osteodifferenciation of the whole tissue. We aim to use hAM as an Advanced Therapeutic Medicinal Product for bone repair to treat large defects or pseudarthrosis. So we are studying the association of hAM with nanofiber jet sprayed polycaprolactone (PCL) scaffolds and the possibility to induce its osteodifferenciation. Materials and Methods. HAM from cesarean delivery were provided by a local bank of tissue. A biodegradable microfiber PCL scaffold (∼500 μm thick) was produced using a novel jet spraying technique and provided by Biomedical Tissues society (Nantes, France). We cultured hAM in contact with PCL scaffolds either in MSCs expansion medium or in MSCs osteogenic medium. Then we grafted these montages in an ectopic murin model (in subcutaneous implantation) and we explanted grafted tissues after 1, 2, 4 and 8 weeks. Osteogenic potential was evaluated by immunological studies immediately after in vitro cell studies and after explantations from the mice. Control studies were performed with human mesenchymal stromal cells (hMSCs) seeded on PCL scaffold in MSCs osteogenic medium and cultured with/ without dynamic culture, via an orbital rotator at 150 rpm for 28 days. Cell viability, proliferation and osteoblastic differentiation were evaluated at different times of culture until 28 days. Results. To date, in vitro studies showed a macroscopic mineralization of hAM cultured in MSCs osteogenic medium. Osteogenic potential evaluated by immunological investigations are currently underway. Control studies showed that:. - PCL jet sprayed scaffolds supported proliferation and maintained viability of hMSCs. - Scanning electron microscopy analysis and confocal imaging showed cell attachment with a spread cell morphology after just 1.5 hours. Cells attached along the PCL nanofibres.?. - Entire scaffold depth was infiltrated with cells at days 7 and 28, as seen by DAPI and hematoxylin and eosin staining. - Minimal collagen deposition was evident after 7 days but was observed in significant amounts after 28 days. Static conditions had the greatest collagen matrix production. - Alkaline phosphatse gene expression increased in dynamic conditions compared to 2D cultures. Osteocalcin gene expression increased on PCL scaffolds compared to 2D plastic. - Dynamic loading did not appear necessary for proliferation, infiltration or collagen production. Discussion. The association of the hAM with an osteoinductive scaffold could have 2 benefits:. - The handling of the hAM. - The osteodifferentiation of the hAM without the employment of chemical products (osteoinductive supplements that would need to be use with a “good manufacturing products” validation). These preliminary data showed that PCL scaffolds presented osteoinduction properties. The association of hAM with PCL scaffolds seems to be a good compromise answering both our needs

This review is aimed at clinicians appraising preclinical trauma studies and researchers investigating compromised bone healing or novel treatments for fractures. It categorises the clinical scenarios of poor healing of fractures and attempts to match them with the appropriate animal models in the literature.

We performed an extensive literature search of animal models of long bone fracture repair/nonunion and grouped the resulting studies according to the clinical scenario they were attempting to reflect; we then scrutinised them for their reliability and accuracy in reproducing that clinical scenario.

Models for normal fracture repair (primary and secondary), delayed union, nonunion (atrophic and hypertrophic), segmental defects and fractures at risk of impaired healing were identified. Their accuracy in reflecting the clinical scenario ranged greatly and the reliability of reproducing the scenario ranged from 100% to 40%.

It is vital to know the limitations and success of each model when considering its application.

The aim of our study was to investigate whether placing of the femoral component of a hip resurfacing in valgus protected against spontaneous fracture of the femoral neck.

We performed a hip resurfacing in 20 pairs of embalmed femora. The femoral component was implanted at the natural neck-shaft angle in the left femur and with a 10° valgus angle on the right. The bone mineral density of each femur was measured and CT was performed. Each femur was evaluated in a materials testing machine using increasing cyclical loads.

In specimens with good bone quality, the 10° valgus placement of the femoral component had a protective effect against fractures of the femoral neck. An adverse effect was detected in osteoporotic specimens.

When resurfacing the hip a valgus position of the femoral component should be achieved in order to prevent fracture of the femoral neck. Patient selection remains absolutely imperative. In borderline cases, measurement of bone mineral density may be indicated.

The ability to predict load-bearing capacity during the consolidation phase in distraction osteogenesis by non-invasive means would represent a significant advance in the management of patients undergoing such treatment. Measurements of stiffness have been suggested as a promising tool for this purpose. Although the multidimensional characteristics of bone loading in compression, bending and torsion are apparent, most previous experiments have analysed only the relationship between maximum load-bearing capacity and a single type of stiffness. We have studied how compressive, bending and torsional stiffness are related to the torsional load-bearing capacity of healing callus using a common set of samples of bone regenerate from 26 sheep treated by tibial distraction osteogenesis.

Our findings showed that measurements of torsional, bending and compressive stiffness were all suitable as predictors of the load-bearing capacity of healing callus. Measurements of torsional stiffness performed slightly better than those of compressive and bending stiffness.