Simultaneous bilateral total hip arthroplasties (THAs) present unique and unwarranted dangers to the patient and surgeon alike. These include a significantly increased risk of blood transfusion (up to 50% in contemporary series even with the use of tranexamic acid), longer operative times, longer length of stays, and higher mortality rates in patients with minimal risk factors (age > 75 years, rheumatoid arthritis, higher ASA class, and/or male sex). This is even in light of the fact that the vast majority of literature has a substantial selection bias in which only the healthiest, youngest, non-obese, and most motivated patients are included. Traditionally, simultaneous bilateral THAs were completed in the lateral decubitus position. This required the surgeon and surgical team to reposition the patient onto a fresh wound, as well as additional prepping and draping. To mitigate these additional limitations of simultaneous bilateral THAs, there has been a recent trend towards utilizing the direct anterior approach. However, this particular approach presents its own unique set of complications such as an increased risk of periprosthetic femoral fracture and early femoral failure, an increased risk of impaired wound healing (particularly in obese patients), potential injury to the lateral femoral cutaneous nerve with subsequent neurogenic pain, and traction-related neurologic injuries. When compounded with the risks of simultaneous bilateral THAs, the complication profile becomes prohibitive for an elective procedure with an otherwise very low morbidity

Objectives. Neurogenic intermittent claudication secondary to lumbar spinal stenosis is a posture dependant complaint typically affecting patients aged 50 years or older. Various treatment options exist for the management of this potentially debilitating condition. Non-surgical treatments: activity modification, exercise, NSAIDs, epidural injections. Surgical treatment options include decompression surgery and interspinous process device surgery. Interspinous process decompression is a relatively new, minimally invasive, stand-alone alternative to conservative and standard surgical decompressive treatments. The aim of this review is to evaluate the use of the X-Stop interspinous implant in all patients with spinal stenosis who were managed using the device in Northern Ireland up to June 2009. Method. We performed a retrospective review of all patients who had the X-Stop device inserted for spinal stenosis by all consultant spinal surgeons in Northern Ireland. Patient demographics, clinical symptomatology, investigative modality, post-operative quality of life, cost effectiveness, complications and long-term outcomes were assessed. Information was collected from patients using a questionnaire which was posted to them, containing the SF-36 generic questionnaire and some additional questions. Results. A total of 23 patients underwent X-stop insertion in Northern Ireland at the time of this review, 19 patients returned their questionnaires and of these 17 were completed in full and therefore included. The mean age of the study population was 60.1 years and all patients included in the study had symptoms of neurogenic claudication secondary to lumbar spinal stenosis confirmed on MRI scan. The average hospital stay was 1.5 days compared to 7.5 days for decompressive laminectomy patients. Also, at a mean follow-up of 17.8 months, 2 patients suffered direct complications of device insertion requiring removal of the implant both of these patients agreed that they would undergo the operation again in the future. SF-36 scores indicate a quality of life improvement which equates to that of other popular orthopaedic operations such as total hip and total knee replacement. X-stop insertion has been shown to be much more cost-effective than decompressive laminectomy in previous studies. Conclusion. Decompression of the lumbar spine with the X-stop interspinous implant device is safe, cost-effective, minimally invasive, and at least as effective at improving symptomatology from lumbar spinal stenosis. It is obviously more invasive than non-surgical techniques, but is less invasive than lumbar decompression procedures, is less destructive to surrounding tissues and if it fails to produce the desired results can be removed easily and the option remains for the patient to under decompression

Study design. Prospective randomized study. Objective. Primary aim of this study was to compare clinical and radiological results of transforaminal lumbar interbody fusion (TLIF) with posterolateral (interlaminar) instrumented lumbar fusion (PLF) in adult low grade (Meyerding 1 & 2) spondylolisthesis patients. Background data. Theoretically, TLIF has better radiological result than PLF in spondylolisthesis in most of the studies. Method. 24 patients of low grade adult spondylolisthesis were randomly allocated to one of the two groups: group 1- PLF and group 2-TLIF. Study period was between August 2010 to March 2013. All patients were operated by a single surgeon (CN). Posterior decompression was performed in all patients. Average follow up period was 18.4 months. Quality of life was accessed with Visual analogue scale and Oswestry Low Back Pain Disability Index. Fusion was assessed radiologically by CT scan and X-ray. Result. Though fusion was significantly better in TLIF group, clinical outcome including relief of back pain and neurogenic claudication were better in PLF group. Rate of complication was also lower in PLF group. Conclusion. Considering the low complication rate and similar or better clinical results, posterolateral instrumented lumbar fusion is the better option in low grade adult spondylolisthesis

Aim. To evaluate morbidity and outcome associated with lumbar spine decompression for central spinal stenosis in the elderly compared with younger age groups. Patients & methods. Case notes review of patients with symptomatic and MRI proven central lumber canal stenosis, under the care of a single surgeon. The study population was 3 age groups: patients < 60 year of age (Group 1, n=21), patients between 60 and 79 years (Group 2, n=54), and > age of 80 years (Group 3, n=15). Data with regard to intra- and post-operative complications and subjective outcome variables were collected. These included pain (VAS), walking distance, Oswestry Disability score (ODI) and patient satisfaction scores. Results. There was a statistically significant improvement in VAS score for leg pain (p<0.05) and back pain (p<0.05) after surgery for each group. All three groups reported improvement in their walking distance. The average walking distance improved by factor 5 in groups 1 and 2 and by factor 2.5 in group 3 (p< 0.05). However the improvement in group 3 was not statistically significant. There was a statistically significant improvement in ODI for all three groups (mean ODI improvement in Group 1, 16 points, Group 2, 23 points and Group 3, 15 points). Overall 96% of patients were satisfied and would consider the same treatment again under similar circumstances. The overall complication was 19% in group 1, 18% in group 2, and 33% in group 3. Conclusions. Surgery for neurogenic claudication in the octogenarian is associated with a higher complication rate. The outcomes however in this patient group are comparable to younger patients. Lumbar decompression surgery in octogenarians is a worthwhile procedure

Our purpose was to study the functional outcome and electrophysiologically to assess the axially nerve function in patients who have undergone surgery using a deltoid-splitting approach to treat complex proximal humeral fractures. This was a prospective observational study and was carried out in the Shoulder injury clinic at a university teaching hospital. Over a one-year period we treated fourteen locally-resident patients (median age 59 years) who presented with a three- or four-part proximal humeral fracture. All patients were treated using the extended deltoid-splitting approach, with open reduction, bone grafting and plate osteosynthesis. All patients were prospectively reviewed and underwent functional testing using the DASH, Constant and SF-36 scores as well as spring balance testing of deltoid power, and dynamic muscle function testing. At one year after surgery, all patients underwent EMG and nerve latency studies to assess axillary nerve function. Thirteen of the fourteen patients united their fractures without complications, and had DASH and Constant score that were good, with comparatively minor residual deficits on assessment of muscle power. Of these thirteen patients, only one had evidence of slight neurogenic change in the anterior deltoid. This patient had no evidence of anterior deltoid paralysis and her functional scores, spring balance and dynamic muscle function test results were indistinguishable from the patients with normal electrophysiological findings. One of the fourteen patients developed osteonecrosis of the humeral head nine months after surgery and had poor functional scores, without evidence of nerve injury on electrophysiological testing. Reconstruction through an extended deltoid-splitting approach provides a useful alternative in the treatment of complex proximal humeral fractures. The approach provides good access for reduction and implant placement and does not appear to be associated with clinically-significant adverse effects

Persistent post-surgical pain (PPSP) remains a problem after knee replacement with some studies reporting up to 20% incidence. At its most basic level, pain can be divided into two categories, mechanical and non-mechanical. Mechanical pain is like the pain of a fresh fracture. If the patient does not move, the pain is less. This type of pain is relieved by opiates. Mechanical pain is seen following knee replacement, but is fortunately becoming less frequent. It is caused by a combination of malrotations and maltranslations, often minor, which on their own would not produce problems. The combination of them, however, may produce a knee in which there is overload of the extensor mechanism or of the medial stabilizing structures. If these minor mechanical problems can be identified, then corrective surgery will help. Non-mechanical pain is present on a constant basis. It is not significantly worsened by activities. Opiates may make the patient feel better, but they do not change the essential nature of the pain. Non-mechanical pain falls into three broad groups, infection, neuropathic and perceived pain. Infection pain is usually relieved by opiates. Since some of this pain is probably due to pressure, its inclusion in the non-mechanical pain group is questionable, but it is better left there so that the surgeon always considers it. Low grade chronic infection can be extremely difficult to diagnose. Loosening of noncemented knee components is so rare that when it is noted radiologically, infection should be very high on the list of suspicions. The name neurogenic pain suggests that we know much more about it than we do in reality. Causalgia or CRPS-type two is rare following knee replacement. CRPS type one or reflex sympathetic dystrophy probably does exist, but it is probably over-diagnosed especially by the author of this abstract. The optimum treatment I have found is lumbar sympathetic blocks. Lyrica, Gabapentin and Cymbalta may also help. Perceived pain is the largest group. It does not matter what you tell patient, some believe a new knee should be like a new car, i.e. you step into it and drive away. The fact that they have to work to make it work is horrifying. Some of this pain is actually mechanical, especially in those with no benefits such as hairstylists. Perceived pain is widespread. The classic treatment on this is Dr. Ian McNabb's book “Backache”. It should be studied by all orthopaedic surgeons, who wish to understand pain complaints. There are other issues such as good old fibromyalgia, which appears to have gone the way of the dodo. It has been replaced by something equally silly called central sensitization. The theory of central sensitization is that if one has pain somewhere or other for three months or six months or whatever, there are going to be changes in the brain and spinal cord. It then does not matter what happens to the original pain, i.e. whether or not it goes away, the pain will persist because of the changes in the brain, hence, the title of the pain in the brain syndrome. If this theory was correct, we might as well all go home because we have all been wasting our time for the last 30 years because none of our patients would get any better. After all, all of our patients have had pain for a lot longer than three months, many of them have been involved in trauma and sometimes, compensation is at issue. The pain in the brain theory, therefore, sounds about as realistic as the flat earth society or the treatment of Galileo

Construction of a functional skeleton is accomplished through co-ordination of the developmental processes of chondrogenesis, osteogenesis, and synovial joint formation. Infants whose movement in utero is reduced or restricted and who subsequently suffer from joint dysplasia (including joint contractures) and thin hypo-mineralised bones, demonstrate that embryonic movement is crucial for appropriate skeletogenesis. This has been confirmed in mouse, chick, and zebrafish animal models, where reduced or eliminated movement consistently yields similar malformations and which provide the possibility of experimentation to uncover the precise disturbances and the mechanisms by which movement impacts molecular regulation. Molecular genetic studies have shown the important roles played by cell communication signalling pathways, namely Wnt, Hedgehog, and transforming growth factor-beta/bone morphogenetic protein. These pathways regulate cell behaviours such as proliferation and differentiation to control maturation of the skeletal elements, and are affected when movement is altered. Cell contacts to the extra-cellular matrix as well as the cytoskeleton offer a means of mechanotransduction which could integrate mechanical cues with genetic regulation. Indeed, expression of cytoskeletal genes has been shown to be affected by immobilisation. In addition to furthering our understanding of a fundamental aspect of cell control and differentiation during development, research in this area is applicable to the engineering of stable skeletal tissues from stem cells, which relies on an understanding of developmental mechanisms including genetic and physical criteria. A deeper understanding of how movement affects skeletogenesis therefore has broader implications for regenerative therapeutics for injury or disease, as well as for optimisation of physical therapy regimes for individuals affected by skeletal abnormalities.

Cite this article: Bone Joint Res 2015;4:105–116

Injury to the sciatic nerve is one of the more serious complications of acetabular fracture and traumatic dislocation of the hip, both in the short and long term. We have reviewed prospectively patients, treated in our unit, for acetabular fractures who had concomitant injury to the sciatic nerve, with the aim of predicting the functional outcome after these injuries.

Of 136 patients who underwent stabilisation of acetabular fractures, there were 27 (19.9%) with neurological injury. At initial presentation, 13 patients had a complete foot-drop, ten had weakness of the foot and four had burning pain and altered sensation over the dorsum of the foot. Serial electromyography (EMG) studies were performed and the degree of functional recovery was monitored using the grading system of the Medical Research Council. In nine patients with a foot-drop, there was evidence of a proximal acetabular (sciatic) and a distal knee (neck of fibula) nerve lesion, the double-crush syndrome.

At the final follow-up, clinical examination and EMG studies showed full recovery in five of the ten patients with initial muscle weakness, and complete resolution in all four patients with sensory symptoms (burning pain and hyperaesthesia). There was improvement of functional capacity (motor and sensory) in two patients who presented initially with complete foot-drop. In the remaining 11 with foot-drop at presentation, including all nine with the double-crush lesion, there was no improvement in function at a mean follow-up of 4.3 years.