Objective

To evaluate the volume of cases, causes of failure, complications in patients with a failed Thompson hemiarthroplasty.

Regional anaesthesia is integral to best practice analgesia for patients with neck of femur fractures (NOFFs). These patients are generally frail and are vulnerable to side effects of opioid analgesia. Femoral nerve block (FNB) or fascia-iliaca block (FIB) can reduce opioid requirement. Literature supports good efficacy for extra-capsular NOFFs however it is acknowledged to be suboptimal for intracapsular fractures. We present a novel technique, using point of care ultrasound guidance to perform hip ultrasound guided haematoma (HUSH) aspiration, and injection of local anaesthetic (block) for intracapsular NOFFs. This a case control series. A consecutive series of cognitively intact patients, with an isolated intra-capsular NOFF, received a HUSH block using 10mls of 0.75% Ropivicaine. Haematoma was aspirated and volume recorded. This was performed in addition to standard NOFF pathway analgesia that includes a FIB and multimodal analgesia including opioids. Visual Analogue Scale (VAS)pain scores at rest and on movement were recorded pre and post procedure as well as combined morphine equivalent units administered post HUSH block. The control arm was a retrospective group of similar patients who followed the routine care pathway including a FIB. VAS pain scores from observation charts and usage of morphine equivalent units were calculated. Ten patients consented to receive HUSH blocks and we included thirty-eight patients in our control series. The HUSH block group showed mean VAS pain score of 4.2/10 at rest and 8.6 on movement prior to block. In the time after the block, VAS pain scores reduced to 1.5 at rest (p=0.007) and 3.1 on movement (p=0.0001) with a mean total morphine equivalent use of 8.75mg. This is significantly different from the control group's mean VAS pain at rest score 6.9 (p=0.0001) and 24.1mg total morphine equivalent (p=0.07). HUSH Block in addition to fascia iliaca block appears to significantly better pain relief in intracapsular neck of femur fracture patients when compared to fascia iliaca block alone. We believe it is relatively easy to perform with readily available ultrasound scanners in emergency departments

Introduction. The vascular anatomy of the femoral head and neck has been previously reported, with the primary blood supply attributed to the deep branch of the Medial Femoral Circumflex Artery (MFCA). This understanding has led to development of improved techniques for surgical hip dislocation for multiple intra-capsular hip procedures including Hip Resurfacing Arthroplasty (HRA). However, there is a lack of information in the literature on quantitative analysis of the contributions of the Lateral Femoral Circumflex Artery (LFCA) to femoral head and neck. Additionally, there is a lack of detailed descriptions in the literature of the anatomic course of the LFCA from its origin to its terminal branches. Materials & Methods. Twelve fresh-frozen human pelvic cadaveric specimens were studied (mean age 54.3 years, range 28–69). One hip per specimen was randomly assigned as the experimental hip, with the contralateral used as a control. Bilateral vascular dissection was performed to cannulate the MFCA and LFCA. Specimens were assigned as either LFCA-experimental or MFCA-experimental. All specimens underwent a validated quantitative-MRI protocol: 2mm slice thickness with pre- and post- MRI contrast sequences (Gd-DTPA diluted with saline at 3:1). In the LFCA-experimental group 15ml of MRI contrast solution was injected into the LFCA cannula. In the MFCA-experimental group 15ml of contrast solution was injected into the MFCA cannula. On the control hip contrast solution was injected into both MFCA and LFCA cannulas, 15ml each (30ml total for the control hip). Following MRI, the MFCA and LFCA were injected with polyurethane compound mixed with barium sulfate (barium sulfate only present in either MFCA or LFCA on each hip). Once polymerization had occurred, hips underwent thin-slice CT scan to document the extra- and intra-capsular course of the LFCA and MFCA. Gross dissection was performed to visually assess all intra-capsular branches of both the MFCA and LFCA and assess for extravasation. Quantitative-MRI analysis was performed based on Region of Interest (ROI) assessment. Femoral heads were osteotomized at the level of the largest diameter proximal to the articular margin and perpendicular to the femoral neck, for placement of a 360° scale. Measurements using the 360° scale were recorded. For data processing, we used right-side equivalents and integrated our 360° data into the more commonly used imaginary clock face. Results. Quantitative analysis of contributions of the MFCA and LFCA are detailed (Table 1). Thin slice CT scan graphical analysis of the LFCA provided (Figure 1). Topographic 360° scale (and imaginary clock face) results are also detailed in a diagram (Figure 2). Discussion. This study provides the first comparative results for quantitative assessment of arterial contributions from both the MFCA and LFCA for the femoral head and neck. The MFCA is the dominant vessel for both the femoral head and neck, supplying 82% of the femoral head and 67% of the femoral neck. The LFCA plays its largest role in the inferoanterior femoral neck (with a 48% arterial contribution). This finding highlights the importance of protecting the LFCA in addition to the MFCA during intra-capsular hip procedures including Hip Resurfacing Arthroplasty

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

Introduction. Precise knowledge of the Femoral Head (FH) arterial supply is critical to avoid FH avascular necrosis following open and arthroscopic intra-capsular surgical procedures about the hip. The Medial Femoral Circumflex Artery (MFCA) provides the primary FH vascular contribution. Distribution of vascular foramina at the Femoral Head-Neck Junction (FHNJ) has been reported previously using an imaginary clock face. However, no quantitative information exists on the precise Capsular Insertion (CI) and intra-capsular course of the MFCA Terminal Branches (TBs) supplying the FH. This study seeks to determine the precise anatomic location of the MFCA's TBs supplying the FH, in order to help avoid iatrogenic vascular damage during surgical intervention. Methods. In 14 fresh-frozen cadaveric hips (9 left and 5 right), we cannulated the MFCA and injected a polyurethane compound. Using a posterior approach, careful dissection of the MFCA allowed us to identify and document the extra- and intra-capsular course of the TBs penetrating the FHNJ and supplying the FH. An H-type capsulotomy provided joint access while preserving the intracapsular Retinaculum of Weitbrecht (RW), followed by circumferential capsulotomy at the acetabular margin exposing the FH. The dome of the FH was osteotomized 5 mm proximal to the Articular Border (AB) providing a flat surface for our 360° scale. Right-side equivalents were used for data processing. Results. Gross dissection revealed a constant single branch arising from the transverse MFCA penetrating the capsule at the level of the anterior-inferior neck at 177° (range 167–187°), then courses within the medial RW obliquely (elevated from the neck) to the posterior-inferior FHNJ (Figure 1). This vessel was found to have an average of 5 TBs (range 3–9) penetrating the inferior FHNJ 4 mm (range 1–7 mm) from the AB at 204° (range 145–244°; 14% . 10. /. 69. anterior; 86% . 59. /. 69. posterior). In 79% (. 11. /. 14. ) of specimens, an average of 1.5 branches (range 1–3) arising from the ascending MFCA entered the Femoral Capsular Attachment (FCA) at 244° (range 216–269°), running subsynovial through the neck, and terminating in 2 TBs (range 1–3) penetrating the inferior-posterior FHNJ 5 mm (range 3–9) from the AB at 254° (range 207–281°). The deep branch of the MFCA penetrated the FCA at 327° (range 310–335°) providing an average of 6 TBs (range 4–9) running subsynovial and within the lateral RW, finally penetrating the superior FHNJ 6 mm (range 4–9) from the AB at 339° (range 286–25°; 20%. 15/74. anterior; 80%. 59/74. posterior). Discussion and Conclusion. This study demonstrates that TBs of the MFCA penetrate the joint through the mid-substance of the capsule (from the transverse MFCA) or the FCA (from the ascending or deep MFCA). Once intra-capsular, these vessels course subsynovial or within the RW and terminate at the posterior FHNJ superiorly (from the deep MFCA) and inferiorly (from the ascending and transverse MFCA). Any surgical hip intervention should preserve the posterior FCA, and lateral and medial RW in order to preserve the FH vascular supply. These results illustrate a vascular danger zone that should be respected during surgery and can be easily interpreted with the commonly used clock face

Introduction. Current literature supports the use of total hip replacement (THR) for the treatment of displaced intra-capsular proximal femoral fractures (DIPFF). Case series of patients receiving this treatment show dislocation rates higher than that of patients who have THR to treat osteoarthritis. Large diameter THR have mechanical advantages in terms of dislocation and their role in PFF has yet to be assessed. Objectives. To assess the role of large-diameter total hip replacements on the rate of dislocation when used to treat displaced intra-capsular proximal femoral fractures. Design: Single surgeon, case series. Setting: Level I trauma centre. Inclusion criteria:. Displaced intra-capsular proximal femoral fracture (Garden III & IV). Independently mobile pre-operatively for distances greater than a mile, with no more than 1 stick as a mobility aid. Abbreviated mental test score of 9/10 or greater. Exclusion criteria:. Patient under 60. Pathological fractures. Additional fractures of the femur. Outcomes. Mortality. Morbidity (Including dislocation). Oxford Hip Score. SF12. Patients/Participants: Retrospective study to assess patients who presented between May 2006 and December 2008 and met the requirements had a CPTÒ (Zimmer) cemented femoral stem, using 3. rd. generation cementation techniques, and large diameter Duronò (Zimmer) head and cup (uncemented) inserted as a primary procedure via a modified Hardinge technique. Follow up was via routine clinic appointments, letter to GP and phone conversation with patient. Results. 67 patients were selected (49 female) average age was 74.6 (67–87). Follow-up was for an average of 14 months (3–39 months). No dislocations or deaths were recorded for this period of time. Conclusions. This study suggests that the high rates of dislocation associated with THR for PPF can be limited by the use of large diameter components. This study should be followed up by a multi-centre multi-surgeon study

Following the recommendation of NICE guidelines (CG124) we have recently started using cemented smooth tapered stem hemiarthroplasty as our standard management of intra-capsular neck of femur fractures. Prior to publication of the above guidelines the standard implant utilised was Thompson Hemiarthroplasty prosthesis. The cost implications of this change have not been fully appreciated and the benefit of these changes in ASA grade 3–4 patients has not previously been analysed. We identified a cohort of 89 patients admitted with displaced intra-capsular neck of femur fracture with an ASA grade 3–4. These underwent hip hemiarthroplaties at our centre over a period of 12 months (before and after guideline implementation). Data regarding in-hospital mortality, dislocation, reoperation and place of discharge were retrospectively collected and analysed. Our cohort included 46 patients who underwent a Thompsons Hemiarthroplasty, 30 patients who had a cemented smooth tapered stem hemiarthroplasty and 13 patients who had an Austin-moore Hemiarthroplasty. In-patient mortality rates were highest in the Austin-moore group, followed by the Thompsons group compared to none in the smooth tapered stem group. However, this was not statistically significant. One patient in the Thompsons group and one patient in the smooth tapered group had multiple dislocations and re-operations, compared with none in the Austin-moore group. In terms of percentage of patients who were discharged home from hospital the smooth tapered stem group had a percentage that was more than twice that of the Thompson's which was in turn higher than that found in the Austin-moore group. In conclusion, our data suggests that in patients with an ASA grade of 3–4 there is no significant benefit from using cemented smooth tapper stems when performing a Hip Hemiarthroplasty compared with a well performed Thompsons and that the cost savings of this is significant. We accept that our current numbers are relatively small and further work is needed

Introduction. Upper femoral fractures include intra and extra-capsular fracture (ECF). For intra-capsular fracture (ICF), hemi-arthroplasty (HA) is the most commonly used treatment. Interest in total hip arthroplasty (THA) is growing because THA yields less revision (4% versus 7%) associated to better functional results despite higher dislocation rate (9% versus 3%). Regarding ECF, internal fixation is the reference treatment. THA could represent a relevant alternative. This study evaluates the efficiency of THA using dual mobility cup (THA-DMC) as treatment of these fractures specially in elderly patients. Material and method. 70 patients were operated on for upper femoral fractures with Quattro THA-DMC between May 2012 and October 2013. Minimum follow-up is one year. Seven surgeons in 4 institutions were involved. Data collected were: age, gender, type of fracture, surgical approach, mortality, revision rate and dislocation rate. Results. Seventy patients were included. 83.3 % were women. Mean age was 82.8 (51–99). 43% were ECF and 57% ICF. Postero-lateral approach represented 51% of cases, trans-trochanteric 43% and Hardinge 6%. Mortality rate was 10%. One dislocation (1.4%) occurred at one month postoperative treated by closed reduction. No revision was performed. Discussion. Even though THA is widely used to treat ICF, two recent meta-analyses concluded that THAs bring better survivorship as well as better functional results despite a higher dislocation rates. THA-DMC is a way to decrease dislocation risk as confirmed by our study. There is a lack of studies published on the treatment of ECF, precluding a proper assessment. Conclusion. Given the studies identified, the gold standard in the treatment of ICF is moving toward THA. THA-DMC could overcome the higher dislocation rate observed with standard THA

Implant choice was changed from cemented Thompson to Exeter Trauma Stem (ETS) for treatment of displaced intra-capsular neck of femur fractures in University Hospital Aintree, Liverpool, United Kingdom (a major trauma center), following the NICE guidelines that advised about the use of a proven femoral stem design rather than Austin Moore or Thompson stems for hemiarthroplasties. The aim of our study was to compare the results of Thompson versus ETS hemiarthroplasty in Aintree. We initially compared 100 Thompson hemiarthroplasties that were performed before the start of ETS use, with 100 ETS hemiarthroplasties. There was no statistically significant difference between the two groups in terms of patients' demographics (age, sex and ASA grade), intra-operative difficulties/complications, post op medical complications, blood transfusion, in-patient stay and dislocations. The operative time was statistically significantly longer in the ETS group (p= .0067). Worryingly, the 30 days mortality in ETS group was more than three times higher in ETS group (5 in Thompson group versus 16 in ETS group. P= .011). To corroborate our above findings we studied 100 more consecutive patients that had ETS hemiarthroplasty. The results of this group showed 30 day mortality of 8 percent. However the operative time was again significantly longer (p= .003) and there was 18 percent conversion to bipolar hemiarthropalsty. Moreover there was statistically significant increased rate of deep infection (7%, p = .03) and blood transfusion (27%, p = .007). This we feel may be due to longer and more surgically demanding operative technique including pressurised cementation in some patients with significant medical comorbidities. Our results raise the question whether ETS hemiarthoplasty implant is a good implant choice for neck of femur fracture patients. Randomised control trials are needed to prove that ETS implant is any better than Thompson hemiarthroplasty implants in this group of patients

A retrospective review was conducted of patients undergoing either total hip replacement or hemiarthroplasty for intra-capsular neck of femur fractures between April 2013 and April 2014; identified from entries into the National Hip Fracture Database. PACS and the electronic database encompassing operation notes and discharge summaries were reviewed. 309 patients were identified, 3 of whom fractured both hips during the study period giving a total of 312 operations. The age range was 46 to 102 with a mean age of 82. 59 cemented bipolar hemiarthroplasties, 143 cemented unipolar hemiarthroplasties, 2 uncemented hemiarthroplasties and 108 total hip replacements were performed. 10 patients required further operations. There have been 5 dislocations: 2 underwent MUA only, 2 treated by excision arthroplasty and 1 converted to THR. 1 patient developed a haematoma requiring wound washout. There were 4 wound infections - 1 treated by a washout, 2 by excision arthroplasty and one patient has undergone first stage revision; an overall reoperation rate of 3.2% comparing well with data published elsewhere

The management of patients with displaced intra-capsular hip fractures is usually a hip hemiarthoplasty procedure. NICE guideline 124 published in 2011 suggested that Total Hip Replacement (THR) surgery should be considered in a sub group of patients with no cognitive impairment, who walk independently and are medically fit for a major surgical procedure. The Royal Devon and Exeter Hospital manages approximately 600 patients every year who have sustained a fracture of neck of femur, of which approximately 90 patients fit the above criteria. Prior to the guideline less than 20% of this sub-group were treated with a THR whereas after the guideline over 50% of patients were treated with THR, performed by sub-specialist Hip surgeons. This change was achieved by active leadership, incorporation of ‘Firebreak’ lists, looking for cases, flexible use of theatre time and operating lists and the nomination of an individual senior doctor who was tasked with a mission to improve practice. This practice is financially viable; the Trust makes over £1000 per THR for fracture. Complete outcome data at 120 days show significantly fewer patients stepping down a rung in terms of both independent living and independent walking