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Virtual Reality (VR) simulators are playing an increasingly prominent role in orthopaedic training and education. Face-validity - the degree to which reality is accurately represented - underpins the value of a VR simulator as a learning tool for trainees. Despite the importance of tactile feedback in arthroscopy, there is a paucity for evidence regarding the role of haptics in VR arthroscopy simulator realism.

To assess the difference in face validity between two high fidelity VR simulators employing passive and active haptic feedback technology respectively.

38 participants were recruited and divided into intermediate and expert groups based on orthopaedic training grade. Each participant completed a 12-point diagnostic knee arthroscopy VR module using the active haptic Simbionix ARTHRO Mentor and passive haptic VirtaMed ArthroS simulators. Subsequently, each participant completed a validated simulator face validity questionnaire.

The ARTHRO Mentor active haptic system failed to achieve face validitrties of the knee joint provide a significantly more realistic training experience for both intermediate and expert arthroscopists.

Current active haptic technology which employs motors to simulate tactile feedback fails to demonstrate sufficient face-validity or match the sophistication of passive haptic systems in high fidelity arthroscopy simulators. Textured rubber phantoms that mirror the anatomy and haptic properties of the knee joint provide a significantly more realistic training experience for both intermediate and expert arthroscopists.

Cardiac arrest (CA) has been identified as a potential complication following Total Hip Arthroplasty (THA) and Total Knee Arthroplasty (TKA). This retrospective, case-controlled study aims to identify risk factors in order to improve the management of patients undergoing THA or TKA with known preoperative comorbidities.

CPT codes were used to investigate the American College of Surgeons National Surgical Quality Improvement Program (ACS-NSQIP) database for patients who underwent THA or TKA from 2010 to 2017. Patients were classified as having cardiac arrest (CA) by the NSQIP guidelines. Patient samples with all possible covariates were included for the multivariate logistic regression analysis and assessed for independent association.

Patients receiving perioperative transfusion, experiencing dyspnea with moderate exertion, dyspnea at rest, patients currently on dialysis, and patients aged ≥72 are all independently associated with increased rates of cardiac arrest (CA) following THA. Patients receiving f CA following THA and TKA to prevent this complication.

Patients sustaining hip fractures experience blood loss as a direct result the fracture independent of surgery. The objective of this study was to quantify the expected non-surgical blood loss for proximal femur fractures using hemoglobin values.

A retrospective chart review of patients at a level 1 trauma center sustaining proximal femur fractures between October 2015 and January 2018 was performed. Patients were ≥30 years of age, had sustained intertrochanteric, subtrochanteric, or femoral neck fractures and had hemoglobin values documented at admission and after 12h but before surgery. Patients with concomitant fractures, other hemorrhagic injuries, or blood transfusions before their second hemoglobin result were excluded. A multivariate linear regression model was constructed to evaluate the predictive ability of age, sex, BMI, number of comorbidities, fracture type, anticoagulation/antiplatelet therapy, admission hemoglobin, timing of surgical intervention and changes in electrolyte levels on subseqund increased time to surgery. The identification of demographic, fracture type, and treatment characteristics may help surgeons identify patients at the greatest risk for blood loss, and provide more effective perioperative care.

Proximal femur fractures cause a significant amount of blood loss prior to surgical intervention. Patients at particular risk include those with comorbidities, intertrochanteric fractures, low admission hemoglobin values, and increased time to surgery. The identification of demographic, fracture type, and treatment characteristics may help surgeons identify patients at the greatest risk for blood loss, and provide more effective perioperative care.Iatrogenic nerve injuries can cause patients and surgeons a great deal of distress and anxiety. To help prevent such injuries, surgeons should remain mindful for potential distortion of anatomy due to scarring and adhesions. Peripheral nerves are vulnerable to thermal injury, as well as mechanical injury by laceration and traction. Revision arthroplasty may involve removal of the implant and cement mantle. During this removal process, breaches in cortical bone can occur, with resultant cement extrusion within the soft tissues. Screw holes left vacant following screw removal may also allow for cement leakage. Thermal energy is released during the exothermic polymerisation process of cement curing. As a result, this thermal energy can also lead to injury to neural tissue. Tacrolimus ic50 In this article, we present three cases of radial nerve palsy associated with cement extrusion during revision arthroplasty, in order to highlight pitfalls and learning points in the management. In addition, we propose strategies to avoid such injuries. Surgeons are reminded to be vigilant for cortical breaches intraoperatively, and if recognised, steps should be taken to minimise the risk of nerve injury.

Spine is a rapidly growing branch with fully-dedicated peer-reviewed journals. Journal impact factor (JIF), speed of publication, and readership are some critical factors affecting the author's choice for submission. This study aimed to find the bibliometric data of spine journals.

Fourteen Spine journals in NCBI (National centre for Biotechnology information, USA) database, meeting the inclusion criterion were analyzed for original articles, collected via stratified sampling from each issue of the journal. The dates to submission (DS), acceptance (DA), and publication (DP), study design, corresponding author's details like-subject specialization and country of affiliation were recorded for each original article. Data on JIF, number of issues/years, open access availability (OA), article processing charges (APC) were also retrieved. Correlation and geographic plot were used to display the findings.

The median (interquartile range) time for submission to publication/total time (TT) in spine journals was 175 (120-313) days with a submission to acceptance time of 107 (66-168) days and acceptance to publication time of 54 (20-170).