The accurate reconstruction of hip anatomy and biomechanics is thought to be important in achieveing good clinical outcomes following total hip arthroplasty (THA). To this end some newer hip designs have introduced further modularity into the design of the femoral component such that neck­shaft angle and anteversion, which can be adjusted intra-operatively. The clinical effect of this increased modularity is unknown. We have investigated the changes in these anatomical parameters following conventional THA with a prosthesis of predetermined neck–shaft angle and assessed the effect of changes in the hip anatomy on clinical outcomes.

In total, 44 patients (mean age 65.3 years (standard deviation (sd) 7); 17 male/27 female; mean body mass index 26.9 (kg/m²) (sd 3.1)) underwent a pre- and post-operative three-dimensional CT scanning of the hip. The pre- and post-operative neck–shaft angle, offset, hip centre of rotation, femoral anteversion, and stem alignment were measured. Additionally, a functional assessment and pain score were evaluated before surgery and at one year post-operatively and related to the post-operative anatomical changes.

The mean pre-operative neck–shaft angle was significantly increased by 2.8° from 128° (sd 6.2; 119° to 147°) to 131° (sd 2.1; 127° to 136°) (p = 0.009). The mean pre-operative anteversion was 24.9° (sd 8; 7.9 to 39.1) and reduced to 7.4° (sd 7.3; -11.6° to 25.9°) post-operatively (p < 0.001). The post-operative changes had no influence on function and pain. Using a standard uncemented femoral component, high pre- and post-operative variability of femoral anteversion and neck–shaft angles was found with a significant decrease of the post-operative anteversion and slight increase of the neck–shaft angles, but without any impact on clinical outcome.

Cite this article: Bone Joint J 2015;97-B:1615–22.

The leading cause for total hip arthroplasty (THA) revision remains aseptic loosening due to bearing wear. The younger and more active patients currently undergoing arthroplasty present unprecedented demands on THA-bearings. Ceramic-on-ceramic (CoC) bearings have consistently shown the lowest wear rates. The recent advances, especially in alumina CoC bearings, have solved many past problems and produced preferable results in vitro.

Alumina ceramics are extremely hard, scratch resistant, biocompatible, offer a low coefficient of friction, superior lubrication and lower wear rates in comparison to other bearings in THA. The major disadvantage of ceramics used to be fracture. The new generation of alumina ceramics, has reduced the risk of ball fracture to 0.03–0.05%. The risk for liner fracture is even lower.

Assuming an impingement-free component implantation, CoC bearings have major advantages over other bearing combinations. Due to the superior hardness, CoC bearings produce less third body wear and are virtually impervious to damage from instruments during the implantation process.

A complication specific to CoC bearings is squeaking. Squeaking occurs if the friction in the joint articulation is sufficient to excite vibrations to audible magnitudes (due to loss of lubrication). The high range of reported squeaking (0.45% to 10.7%) highlights the importance of correct implant position. If a correct implant position can be guaranteed, then squeaking is rare and without clinical significance.

The improved tribology and presumable resulting implant longevity make CoC the bearing of choice for young and active patients. Especially the alumina matrix (Biolox delta) offers increased burst strength and greater fracture toughness.

The endoprosthetic treatment of secondary osteoarthritis resulting from congenital hip dysplasia is difficult due to the small diameter of the acetabulum and the hypoplastic anterolateral bone stock. On the femoral side the increased femoral anteversion, insufficient femoral offset and proximal femoral deformities (mostly valgus deformities) as well as the small diameter and straight form of the intramedullary canal pose challenges. Careful preoperative planning is mandatory. The Crowe classification is usually used to describe these pathologies. In severe cases (Crowe 3 and especially Crowe 4) a shortening and derotating femoral osteotomy should be taken into account. Small acetabular components, acetabular augments, and modular femoral components must be available at all times.

For acetabular fixation press-fit cups are preferred today, but excellent results were also described for threaded cups. The advantage of press-fit cups is the extensively documented and superior track record, but threaded cups allow for an easier reconstruction of the original hip center as well as slight medialization. As a result of medialization a reduction in polyethylene wear together with a low rate of loosening lead to very good long-term results in a younger patient population.

Cementless straight stems are documented to be preferable for the small femoral diameter and the straight anatomic shape of the proximal femur. Nevertheless, the higher complication rate, especially the increased rate of nerve palsies, should be preoperatively discussed with the patient. The ideal bearing surface is currently unclear, ceramic-on-ceramic seems to be promising, although the longest data available support the use of metal-on-polyethylene.

Intact abductors of the hip play a crucial role in preventing limping and are known to be damaged through the direct lateral approach. The extent of trauma to the abductors after revision total hip replacement (THR) is unknown. The aim of this prospective study was to compare the pre- and post-operative status of the gluteus medius muscle after revision THR. We prospectively compared changes in the muscle and limping in 30 patients who were awaiting aseptic revision THR and 15 patients undergoing primary THR. The direct lateral approach as described by Hardinge was used for all patients. MRI scans of the gluteus medius and functional analyses were recorded pre-operatively and six months post-operatively. The overall mean fatty degeneration of the gluteus medius increased from 35.8% (1.1 to 98.8) pre-operatively to 41% (1.5 to 99.8) after multiple revision THRs (p = 0.03). There was a similar pattern after primary THR, but with considerably less muscle damage (p = 0.001), indicating progressive muscle damage. Despite an increased incidence of a positive Trendelenburg sign following revision surgery (p = 0.03) there was no relationship between the cumulative fatty degeneration in the gluteus medius and a positive Trendelenburg sign (p = 0.26). The changes associated with other surgical approaches to the hip warrant investigation.

Cite this article: Bone Joint J 2014;96-B:1618–22.

Introduction

The utilization of sonicate fluid cultures (SFC) has been shown to increase the detection rate of periprosthetic joint infection (PJI) in comparison to the use of conventional microbiological methods, because sonication enables a sampling of the causative bacteria directly from the surface of the endoprosthetic components. The hypothesis of this study is that not only will the detection rate of PJI be improved, but also the detection rate of polymicrobial infection in patients with total knee arthroplasty (TKA) revision surgery.

INTRODUCTION:

Acetabular retroversion has been implicated as a risk factor for the development of early hip osteoarthritis. In clinical practice standard osseous signs such as the cross-over sign (COS) and the posterior wall sign (PWS) are widely used to establish the diagnosis of acetabular retroversion on plain radiographs. Despite standardized radiological evaluation protocols, an increased pelvic tilt can lead to a misdiagnosis of acetabular retroversion in AP radiographs and 2D MR or CT scans. Previous studies have shown that the elimination of observer bias using a standardized methodology based on 3D-CT models and the anterior pelvic plane (APP) for the assessment of COS and PWS results in greater diagnostic accuracy. Using this method a prevalence of 28% for COS and 24% for PWS has been found in a cohort of patients with symptoms indicative of FAI, however the prevalence of both signs in asymptomatic adults remains unknown. This study therefore sought to establish the prevalence of the COS and PWS in relation to the APP in an asymptomatic population using a reliable and accurate 3 D-CT based assessment.

Introduction

Sonicate fluid cultures (SFC) are more sensitive than conventional microbiological methods in identifying periprosthetic joint infections (PJI), because sonication enables a sampling of the causative bacteria directly from the surface of the endoprosthetic components. Because of their high sensitivity SFC can be positive while all other microbiological methods remain negative. It is therefore difficult to interpret a single SFC as being truly or falsely positive. The aim of this prospective study was to improve the interpretation of SFC in the diagnosis of PJI in patients after total hip arthroplasty through the use of multiple SFC.

Head sizes used in total hip arthroplasty (THA) has increased drastically from the original 22mm used by Charnley. This is due to two factors: the use of hard-on-hard materials for the bearing articulation and the increasing problem of dislocation.

Purpose: The objective of the present study was to evaluate whether horizontal cleavage and complex meniscus tears, which supposed to be degenerative tears, are associated with an increase of specific matrix metalloproteinases and an increased incidence of cartilage damage, in comparison with patients having other patterns of meniscal injury1,2.

Materials and Methods: Data were collected prospectively from 32 knee arthroscopies, patients were assigned by intraoperative findings due to their meniscal tear to one of two groups: “degenerative meniscal lesions” (horizontal cleavage and complex tears; n=20) or “traumatic tears” (longitudinal and radial tears; n=12). Patient data (age, duration of symptoms, mechanism of injury, body mass index [BMI]), intra-articular and radiographic findings were recorded. Samples of knee joint fluid were analyzed for the matrix matrix metalloproteinases pro-MMP-1, MMP-3 and pro-MMP-13, which are postulated to be involved in articular cartilage degradation3. Cartilage changes were classified intraoperative by Outerbridge (grade 0–4). Praeoperative bone morphology of the knee joint was graduated by Kellgren-Lawrence (Stadium 0–4). The Knee Injury and Osteoarthritis Outcome Score (KOOS) was used to assess the patients opinion about their knee and associated symptoms and function preoperative and 1.5 years postoperative.

Results: Degenerative meniscus lesions appeared predominantly at the end of fifty years of age (58.5±13.9 years), whereas other patterns of meniscal lesions happened around 30 years of age (28.7±8.1 years; P< .0001; Fig. 1 [Median]). Patients with a degenerative meniscus lesion had marginally overweight, whereas patients with a traumatic tear were in the normal range regarding the body mass index (BMI 23.7±5.3 vs. BMI 26.8±3.9; P=.044). A comparison of patients with horizontal cleavage and complex meniscal tears (“degenerative tears”) to patients with longitudinal or radial (“traumatic”) tears showed for the former increased severity of chondral lesions (Outerbridge: 2.9±1.4 vs 1.1±0.9; P=.001; Fig. 2 [Median]) and radiographic osteoarthritis (Kellgren-Lawrence: 1.9±1.5 vs 0.4±0.5; P=.004; Fig. 3 [Median]). The KOOS improved after arthroscopic treatment in the degenerativemeniscal-tear group as well as in the traumatic-tear group significantly (Total-KOOS Score preoperative: 36.5±30.7 and 38.1±24.8; Total-KOOS Score 1.5 years postoperative: 87.8±6.7 and 49.2±21.9; p=.043 and p=.012; “0” indicates extreme knee problems; “100” indicates no knee problems; Fig. 4 [Median]). Pro-MMP-13 correlated significantly with an increase of chondral lesions and radiographic osteoarthritis (r=.534; p=.003; r=.457; p=.02). MMP-3 concentrations in the synovial fluid of patients with a degenerative meniscus lesion were about 20% higher compared to patients with other patterns of meniscal lesions. No one of the investigated MMPs correlated significantly with a specific meniscal injury (Fig. 5 [Median]).

Conclusions: Complex and horizontal cleavage meniscal tears are not as benign as was previously thought and are highly associated with an increased severity of cartilage degeneration and radiographic osteoarthritis. In spite of distinct cartilage changes arthroscopic treatment improved knee-related symptoms at least on medium-term also in patients with degenerative meniscal tears. In this study, increased concentrations of the investigated MMPs did not seem to be associated with specific patterns of meniscal lesions.

Objectives: Skeletal muscle trauma leads to severe functional deficits. Present therapeutic treatments are unsatisfying and insufficient posttraumatic regeneration is a problem in trauma and orthopaedic surgery. Mesenchymal stem cell (MSC) therapy is a promising tool in the regeneration of muscle function after severe trauma. Our group showed increased contraction forces compared to a non-treated control group 3 weeks after MSC transplantation (TX) into a skeletal muscle trauma. In addition we demonstrated a dose-response relationship of the amount of MSC and force enhancement. We furthermore investigated the fate of the transplanted MSC labelled with very small iron oxide particles using 7 Tesla-MRI. Histological analysis revealed fusion events between existing myofibers but only to a low amount. The increase of muscle force can not be explained by these events only. Before further steps are taken the impact of paracrine effects and the homing to the site of trauma of the MSC has to be evaluated. Experimental studies about the functional regeneration of traumatized skeletal muscule after systemic MSC-TX do not exist.

Methods: 36 female SD-rats received open crush trauma of the left soleus muscle. One week after trauma 2.5 x 106 autologous MSC, harvested from tibial biopsies, were transplanted intraarterially (i.a., femoral arte-ria, group 1) or intravenously (i.v., tail vein, group 2) (n=18). Control animals received saline (i.a.: group 3; i.v.: group 4) (n=18). Histological analysis and biomechanical evaluation by in vivo muscle force measurement was performed 3 weeks after TX.

Results: Twitch stimulation of the healthy right soleus muscles resulted in a contraction force of 0.52±0.14 N. Forces of tetanic contraction in the uninjured muscles reached 0.98±0.27 N. The i.a. MSC-TX improved the muscle force of the injured soleus significantly compared to control (twitch: 82,4%, p=0.02, tetany: 61.6%, p=0.02). Contraction forces of muscles treated i.v. (MSC vs. saline) showed no significant difference. The histological analysis showed no differences in the amount of fibrotic tissue.

Conclusions: The presented study demonstrates the effect of systemic MSC-TX in the treatment of severe skeletal muscle injuries. Interestingly, the functional regeneration could only be increased by i.a. application. The entrapment of MSC in the lungs and the dilution effect in the circulation, when injecting the MSC i.v. could be the reason. For possible future therapeutic approaches a systemic application is considered to be favourable compared to local injections due to the better distribution of the cells in the target muscle.

Skeletal muscle injuries often lead to severe functional deficits. Mesenchymal stem cell (MSC) therapy is a promising but still experimental tool in the regeneration of muscle function after severe trauma. One of the most important questions, which has to be answered prior to a possible future clinical application is the ideal time of transplantation. Due to the initial inflammatory environment we hypothesized that a local injection of the cells immediately after injury would result in an inferior functional outcome compared to a delayed transplantation.

Twenty-seven female Sprague Dawley rats were used for this study. Bone marrow was aspirated from both tibiae of each animal and autologous MSC cultures obtained from the material. The animals were separated into three groups (each n=9) and the left soleus muscles were bluntly crushed in a standardized manner. In group 1 2×106 MSCs were transplanted into the injured muscle immediately after trauma, whereas group 2 and 3 received an injection of saline. Another week later the left soleus muscles of the animals of group 2 were transplanted with the same number of MSCs. Group 1 and 3 received a sham treatment with the application of saline solution in an identical manner. In vivo functional muscle testing was performed four weeks after trauma to quantify muscle regeneration.

Maximum contraction forces after twitch stimulation decreased to 39 ± 18 % of the non injured right control side after crush trauma of the soleus muscles as measured in group 3. Tetanic stimulation showed a reduction of the maximum contraction capacity of 72 ± 12 % of the value obtained from intact internal control muscles. The transplantation of 2 x 106 MSCs one week after trauma improved the functional regeneration of the injured muscles as displayed by significantly higher contraction forces in group 2 (twitch: p = 0.014, tetany: p = 0.018). Local transplantation of the same number of MSCs immediately after crush injury was able to enhance the regeneration process to a similar extent with an increase of maximum twitch contraction forces by 73.3 % (p = 0.006) and of maximum tetanic contraction forces by 49.6 % (p = 0.037) compared to the control group.

The presented results underline the effectivity of MSC transplantation in the treatment of severe skeletal muscle injuries. The most surprising finding was that despite of the fundamental differences of the local environment into which MSCs had been transplanted, similar results could be obtained in respect to functional skeletal muscle regeneration. We assume that the effect of the MSC after immediate injection can partly be explained by their known immunomodulatory competences. The data of our study provide evidence for a large time window of MSC transplantation after muscle trauma.

*Winner of ISFR Young Investigator Award

Purpose: The aim of this study was to compare the temporal expression pattern of factors related to cartilage and bone formation and endochondral ossification during standard and delayed bone healing for a more in-depth understanding of the molecular basis of disturbed bone healing and to elucidate suitable timing for substitution of factors to stimulate the healing process.

Methods: A tibial osteotomy was performed in two groups of sheep (n=30 each) and stabilized with either a rigid external fixator leading to standard healing or with a mechanically critical one leading to delayed healing. Hematoma/callus tissue was harvested 4, 7, 14, 21 and 42 days postop. qPCR was employed to determine the expression patterns of BMPs and other molecules.

Results: Gene expressions of BMP2, BMP4, BMP7, Noggin, MMP9 and MMP13 were distinctly lower in the delayed compared to the standard healing group at several time points from day 14, whilst no differential gene expression of Coll II and Coll X was found between both groups. Among the BMPs, BMP7 showed the most markedly differential expression. The first evident difference in BMP7 expression between both groups was found at day 14 suggesting that exogen substitution in the context of a therapeutic approach should be postponed. The differential expression pattern of both MMP9 and MMP13 suggests that there might be a failure or delay in endochondral ossification in delayed bone healing.

Conclusion: Downregulation in gene expression of osteogenic BMPs and cartilage matrix degrading MMPs may account for a considerable delay of bone healing.

While significant component malalignment in the frontal and sagittal plane may lead to early loosening and pain, even small errors in the rotational component alignment are not tolerated due to its complex impact on knee joint kinematics and especially the patella tracking. It is accepted that navigated implantation of total knee arthroplasties improves accuracy in the frontal plane but it is yet unclear weather navigation leads to a more precise rotational component alignment. The study evaluated the influence of navigated implantation on femoral and tibial component alignment.

In a prospective randomized study 32 navigated and 28 conventionally implanted total knee arthroplasties were evaluated through a postoperative CT scan. In all cases the femoral component was referenced to the surgical epicondylar axis and the tibial component was referenced to the medial third of the tibial tuberosity. The angles between these bone landmarks and the components were measured on the CT scans and compared between both study groups.

The rotational malalignment of the femoral component in the conventional operating technique was 0.1° ± 2.2° (range 3.3° of internal rotation and 5.0° of external rotation). Navigated implanted femoral components showed a malalignment of 0.3° ± 1.4° (range 4.7° of internal rotation and 2.2° of external rotation), the difference was not significant. The rotational malalignment of the tibial component in the conventional technique was 7.5° ± 6.0° (range 27.1° of internal rotation and 15° of external rotation). Navigated implanted tibial components showed a malalignment of 6.9° ± 4.7° (range 21.2° internal rotation and 11.0° external rotation), the difference was not significant.

In conclusion the use of a navigation system did not improve the rotational alignment of the tibial or femoral component if only one bone landmark was used. Taking the relatively small errors of a navigation machine into account the error is attributable to the surgeon, who seems to be unable to precisely define bone landmarks. More than one landmark (e.g. additionally Whiteside’s line, posterior condyles, flexion gap for the femur and ankle joint for the tibia) should be used to define the component rotations. Consideration of different rotational landmarks is best done with a navigation system that, in contrast to the manual technique, has the possibility to show the degree of deviation of the components from each landmark.

Total hip arthroplasty is a challenging problem in case of high hip dislocation. In order to reduce the hip, a femoral shortening osteotomy is necessary to prevent damage to the neurovascular structures. In this study we present the mid-term results of a simple technique of simultaneous derotating and shortening osteotomy of the femur without the necessity of additional osteosynthesis.

In this retrospective study we included 28 patients with high hip dislocation. In these patients 30 consecutive cementless primary total hip arthroplasties with femoral shortening osteotomy were performed. 20 cases were previously operated. All patients were clinically and radiologically followed up after a mean of 4.5 years (range 2 – 5.7 years). Time point of consolidation was determined on consecutive radiographs for each patient.

The average operative time was 116 minutes (range 65 to 150 minutes). There were no intraoperative complications. Postoperatively no femur fractures, no pseudarthroses and no pareses were observed. The mean consolidation time of the osteotomy was 4.4 months. At the time of follow-up, one aseptic loosening had been verified. In this case a very small stem (size 03) had been used. The mean Merle d’Aubigne score for the unrevised hips improved from 8.2 points preoperatively to 15.1 points at follow-up.

In conclusion the presented technique allowed an easy and fast implantation of total hip arthroplasty in patients with high hip dislocation. The Zweymueller stem design with its rectangular cross-section seems responsible for the sufficient stability of the osteotomy resulting in a short consolidation time. Any additional osteosynthesis is obsolete. This leads to additional advantages including a short duration of surgery and a low complication rate. The good clinical results are attributable to the fact, that by shortening the femur, the physiological hip joint biomechanics could be approximated. The mid-term results of the described technique are very promising.

Introduction: Selective COX-2 (Cyclooxygenase-2) inhibitors have been found to impede fracture healing. The effect of selective COX-2 inhibitors on tendon healing in a bone tunnel, however, is unknown.

Methods: The authors performed bilateral anterior cruciate ligament reconstructions in 32 rabbits and used peripheral quantitative computed tomography (pQCT) to compare tendon-to-bone healing between tunnel aperture and midtunnel regarding bone mineral density (BMD) and ingrowth of new bone. Each animal was assigned to one of four groups. Two groups received selective COX-2 inhibitors orally for 3 weeks (Cele-coxib; 10 mg/kg/d), the two other groups received no COX-2 inhibitors (controls). The animals were sacrificed 3 and 6 weeks after surgery. In biomechanical testing maximum load to failure and stiffness of the tendon grafts were calculated from the load displacement curve and failure modes were recorded. To assess indirectly the effect on local COX-2 activity the synovial content of Prostaglandin E2 (PGE2), the major metabolite of arachnidonic acid metabolism and catalyzed by COX-2, was measured by Enzyme-linked Immunosorbent Assay (ELISA).

Results: Animals treated with selective COX-2 inhibitors had significantly lower BMD at the tunnel aperture (P=.02). In all groups the BMD at the tunnel aperture was significantly higher in comparison with the midtunnel (P< .05). In the controls ingrowth of new bone was greater at the tunnel aperture at 3 weeks (P=.028). After 3 weeks of COX-2 inhibitor administration synovial fluid concentrations of PGE2 were significantly lowered (P=.018) and increased more than threefold by 6 weeks after surgery and 3 weeks after last drug administration (P=.022), while in the controls there was a decrease in PGE2 between week 3 and 6. At 6 weeks the controls exhibited a twofold increase in maximum load to failure (3 weeeks: 28.2±20.9 N; 6 weeks: 59.6±53.6 N; P=.394), whereas the COX-2 inhibitor treated specimens decreased 1.9fold (3 weeks: 69.3±50.5 N; 6 weeks: 37.4±16.8 N; P=.24). Maximum load to failure values correlated with PGE2 changes, but not statistically significant (r²= −0,502; p=0,056). Failure modes at 3 and 6 weeks were rupture and degloving, respectively, of the tendon graft.

Discussion: This study revealed decreased bone mineral density at the tunnel aperture at 3 weeks, an increase of the inflammatory mediator PGE2 and decreased graft stability with time after treatment with selective COX-2 inhibitors. Untreated controls appeared to have a more physiological healing course with a continuous decrease in PGE2 and an increase in graft stability. Our results suggest, that selective COX-2 inhibitors may delay tendon healing in a bone tunnel.

Background: Autologous mesenchymal stem cells (MSC) have been shown to improve the functional outcome after severe skeletal muscle trauma. The reasons for this improvement have yet not been revealed. Up to now insufficient techniques of cell labelling, which could only be used for histologic analysis ex vivo, have been a problem.

The development of iron oxide nanoparticles, which are taken up and endosomally stored by stem cells, allows the evaluation of cellular behaviour in the muscle with the use of magnetic resonance imaging (MRI). Previous work has shown that labelling does not affect the proliferation and neurogenic differentiation capacity of embryonic stem cells. In the present study we are currently investigating the in vivo distribution and migration of locally transplanted MSC after blunt muscle trauma in a rat model.

Methods: MSC cultures are derived from tibial biopsies of Sprague Dawley rats via plastic adherence. A standardized open crush injury of the left soleus muscle is performed in each animal. 24 hours before transplantation cells are labelled with very small superparamagnetic iron oxid particles (VSOP-C200, Ferropharm, Teltow, Germany) and Green Fluorescent Protein (GFP). One week after trauma different amounts of stem cells (5×105, 1×106 and 5×106) are transplanted into the soleus muscle by local injection. Distribution and migration of the cells are evaluated over time by the repeated performance of high resolution-MRI at 7 Tesla (Bruker, Rheinstetten, Germany). At the endpoint of the study, three and six weeks after transplantation, the muscles are harvested and histologically and immunohistochemically analysed.

Results: Cells could be visualised inside the soleus muscle in the MRI 24 hours after transplantation showing characteristic signal extinctions in T2*-weighed images. The hypointense signal could be followed over the longest investigated time of six weeks and could be easily discriminated from the structures of the injured muscle. Preliminary results show that the cell pool changed its shape over time with the loss of an initially depicted injection canal and an increase in the surface/volume ratio. First histologic Prussian Blue stained sections showed co-localisation of the respective MRI signal and nanoparticle labelled cells. Fusion events of marked cells with regenerating myofibers could be observed.

Conclusion: Magnetic labelling of MSC is a powerful tool to analyse the in vivo behaviour of the cells after transplantation into a severly injured skeletal muscle. For the first time the observation of an intraindividual time course of the distribution of the transplanted cells is possible. Our preliminary results are promising and the ongoing work will further characterise migration processes and the correlation of the MRI results with muscle function evaluated by contraction force measurements.

Background: Scientific investigation of muscle trauma and regeneration is in need of well standardised models. These should mimic the clinical situation and be thoroughly described histologically and functionally. Existing models of blunt muscle injury are either based on segmental muscle damage or in case of whole muscle injury also affect the innervating structures. In this study we present a modified model of open crush injury to the whole soleus muscle of rats sparing the region of the neuromuscular junctions.

Methods: The left soleus muscles of male Sprague-Dawley rats were crushed with the use of a curved artery forceps. Functional regeneration was evaluated 1, 4 and 8 weeks after trauma (n = 6 per group) via in vivo measurement of muscle contraction force after fast twitch and tetanic stimulation of the sciatic nerve. The intact right soleus muscle served as an internal control. H & E staining was used for descriptive analysis of the trauma. The amount of fibrosis was determined histomorphologically on Picro-Sirius Red stained sections at each point of time.

Results: Across the evaluated regeneration period a continuous increase in contraction force after fast twitch as well as after tetanic stimulation could be observed – describing the functional regeneration of the traumatized soleus muscle over time. Tetanic force amounted to 0.34 ± 0.14 N, which are 23 ± 4% of the control side one week after trauma, and recovered to 55 ± 23% after eight weeks. Fast twitch contraction was reduced to 49 ± 7% of the control side at one week after injury and recovered to 68 ± 19% during the study period. Fibrotic tissue occupied 40 ± 4% of the traumatized muscles after the first week, decreased to approximately 25% after four weeks and remained at this value at eight weeks.

Conclusion: The trauma model characterised morphologically and functionally in the presented study allows the investigation of muscle regeneration caused by highly standardized injury exclusively to muscle fibers.

Introduction: Total hip arthroplasty is problematical in the case of high hip dislocation. To reposition the hip, a femoral shortening osteotomy is necessary in order to prevent damage to the neurovascular structures. This paper describes the implantation of a small threaded cup and a cementless straight stem using a simple technique with a simultaneous, derotating and shortening osteotomy for the femur.

Materials and Methods: In this study, 30 cementless primary total hip arthroplasties were performed in 27 patients with high hip dislocation, and clinically assessed at a mean follow-up of 5.1 years. Acetabular reconstruction was done with a cementless threaded cup, whereby the cup was medialized to ensure that at least one thread was anchored in the bone in order to achieve good primary stability. All radiographs were analyzed retrospectively.

Results: A femoral shortening osteotomy was performed in all cases. The average duration of surgery was 116 minutes. One cup loosening and one stem loosening was observed. Kaplan-Meier survivorship analysis, with aseptic radiological loosening as the endpoint, predicted a survival rate of 96,6% at 5.1 years for the acetabular component and 96.6% for the stem. The mean Harris hip score for the unrevised hips improved from 28.7 points preoperatively to 81.2 points postoperatively. Femur fractures, pseudoarthroses, paresis and deep infections were not found.

Conclusion: The surgical technique described enables the initial stable fixation of a threaded cup in the small acetabulum and of a standard prosthesis without additional osteosynthesis for the performed osteotomy. Additional advantages include a shorter duration of surgery, a lower complication rate and a more rapid consolidation of the osteotomy in comparison to other techniques. Despite a patient group with a low average age and comparatively high daily activity, hip reconstruction with a cementless, threaded cup and the use of a cementless, straight stem without additional osteosyn-thesis has produced a good mid-term outcome.

The hypothesis of the current study was that the loading of the proximal femur is altered significantly by the surgical approach. The change in long-term periprosthetic bone mineral density in relation to the alteration of the musculature after the anterolateral (Group A) and transgluteal approaches (Group B) has been compared. Group A comprised 35 hip joints (30 patients) and Group B 47 hip joints (37 patients). No significant differences were seen between groups in respect to age, gender, or diaphyseal BMD distribution and in respect to average stem size in a Wilcoxon test. Measurement of BMD in femoral Gruen Zones I, II, VI, and VII revealed a significant bone loss in Group B compared with Group A; however the functional outcome showed no significant differences between the two groups postoperatively. Analysis of proximal femoral loading by means of a validated musculoskeletal model showed a considerable redistribution of the musculoskeletal loading across the hip during walking and stair climbing after a transgluteal compared with an anterolateral surgical approach. The muscular damage caused by the surgical approach seems to have a significant influence on the long-term bone loss and the initial postoperative loading of the proximal femur.

Background Osteopontin (OPN), also known as bone sialoprotein I or secreted phosphoprotein 1, is a major non-collagenous bone matrix protein. A broad distribution has been detected in embryonic bone, osteoid, and fracture callus [Nomura et al. 2000] pointing out its central role in bone development and healing. It remains unclear weather mechanical conditions influence OPN synthesis and thereby osteoprogenitor cell differentiation. We investigated OPN mRNA-levels of bone marrow derived mesenchymal stem cells (bm-MSC) cultured in a previously described compression bioreactor (CBR) [Matziolis et al. under review] under dynamic compression (DC).

Materials Bm-MSCs of 5 different individuals (mean age 61y) were seeded in a fibrin-alginate mix-matrix placed between two slices of lyophyliced cancellous bone. One group of constructs (n=10) underwent DC with 7kPa at 0.05 Hz, resulting in a matrix compression of 1mm at an heigh of 5mm, for 24 hours in the CBR. Constructs cultured under similar conditions but without DC served as control group (n=10). mRNA was extracted out of each construct after ending the DC, following the Trizol®-protocol. After cDNA-synthesis, GEArray Q series (Human Osteogenesis Gene Arrays) were performed and normalized versus GAPDH.

Results We found an increase of OPN-expression in all dynamically compressed matrices. In the DC-group we found a mean of 5-fold increase of OPN mRNA compared to the control group (median: 0.43 vs. 0.09, p< 0.001).

Discussion and Conclusion The results of this study demonstrate that an in vitro DC of bm-MSCs for 24 hours leads to an increased expression of OPN. We conclude that DC is an important element of early fracture healing by increasing the expression of OPN and thereby modulating progenitor cell differentiation immediately after mechanical instability caused by a fracture.