Introduction and Aims: Autologous chondrocyte implantation (ACI) is emerging as a leading technique for the treatment of articular cartilage defects. However, there exists some debate regarding which ACI technique is best able to regenerate hyaline cartilage. To this end, the development of a non-invasive technique enabling the examination of microstructure after ACI is essential. Method: In this study, we have developed a novel 2D Laser Scanning Confocal Arthroscope (LSCA) in the assessment of articular cartilage and examined the microstructure of knee articular cartilage from rabbits and patients with total knee arthroplasty. The LSCA system consists of the LSA handheld probe, a Launch and Detection Unit (LDU) with a built in 488nm–514nm Krypton Argon Laser and Master Control unit (MCU). Human and rabbit knee articular cartilage stained with Fluoroscein (5g/L) and Acriflavine (0.5g/L) were used to examine the microstructure of cartilage by LSCA. Results: By LSCA we have generated optical histology images of normal human and rabbit articular cartilage from the femoral condyle. Optical histology of normal articular cartilage tissue reveals typically smooth surface texture with relatively homogenous sub-surface distribution of viable chondrocyte cells. The general orientation of collagen fibres is occasionally visible in surface images. Optical histology of arthritic cartilage of humans showed clusters of round-shaped chondrocytes mixed with spindle-shaped cells. Surface cracking typically indicative of tissue damage is also evident by LSCA observation. Examination of rabbit knee six weeks after ACI showed high density of chondrocytes and homogeneous matrix on the site of the defect. Conclusion: In short, we have shown the efficacy of LSCA in the non-destructive assessment of articular cartilage in vivo. Further study is required to evaluate the clinical significance of optical histology of LSCA

Background. Whereas arthroscopic arthrodesis of the ankle is commonplace and of the subtalar joint is established, reports of arthroscopic talo-navicular fusion are a rarity. Aim. To review a case series to establish if arthroscopic talo-navicular arthrodesis is a feasible surgical option. Methods. Arthroscopic decortication of the talo-navicular joint is performed via x1-2 sinus tarsi portals and x1-2 accessory talo-navicular portals using a standard arthroscope and a 4.5 barrel burr. Internal fixation is by a 5mm screw from the navicular tuberosity and x2 headless compression screws introduced under image intensification from the dorsal navicular to the talar head. Between 2004 and 2017 a consecutive series of 164 patients underwent arthroscopic hindfoot arthrodeses of which 72 involved the talo-navicular joint. Only 13 procedures were of that joint alone in unsullied feet. The medical records of these 13 patients were reviewed to assess radiological fusion, complications and improvement of pre-operative state. Results. All Talo-navicular joints were successfully decorticated. All united radiologically by a mean 4.4 months (range 3–8). There were no major complications. All patients reported improvement to their pre-operative symptoms but one patient developed lateral column pain requiring fusion. Conclusions. Arthroscopic Talo-navicular arthrodesis is technically feasible with good rates of union. Complications were rare, making the technique attractive when encountering a poor soft tissue envelope. The surgery cannot be used if bone grafting is required. Long term discomfort can arise from adjacent joints. Accurate alignment is critical

The Latarjet procedure is a well described method to stabilize anterior shoulder instability. There are concerns of high complication rates, one of these being a painful shoulder without instability due to screw irritation. The arthroscopic changes in the shoulder at time of screw removal compared to those pre-Latarjet have not been described in the literature. We conducted a retrospective review of arthroscopic videos between 2015 and 2022 of 17 patients at the time of their Latarjet screw removal and where available (n=13) compared them to arthroscopic findings at time of index Latarjet. Instability was an exclusion criterion. X-rays prior to screw removal were assessed independently by two observers blinded to patient details for lysis of the graft. Arthroscopic assessment of the anatomy and pathological changes were made by two shoulder surgeons via mutual consensus. An intraclass correlation coefficient (ICC) was analyzed as a measure for the inter-observer reliability for the radiographs. Our cohort had an average age of 21.5±7.7 years and an average period of 16.2±13.1 months between pre- and post-arthroscopy. At screw removal all patients had an inflamed subscapularis muscle with 88% associated musculotendinous tears and 59% had a pathological posterior labrum. Worsening in the condition of subscapularis muscle (93%), humeral (31%) and glenoid (31%) cartilage was found when compared to pre-Latarjet arthroscopes. Three failures of capsular repair were seen, two of these when only one anchor was used. X-ray review demonstrated 79% of patients had graft lysis. Excellent inter-rater reliability was observed with an ICC value of 0.82. Our results show a high rate of pathological change in the subscapularis muscle, glenoid labrum and articular cartilage in the stable but painful Latarjet. 79% of patients had graft lysis with prominent screws on X-ray

Introduction: Knee arthroscopy is one of the most commonly performed orthopaedic procedures. All orthopaedic surgeons have heard anecdotal stories of thermal injury and drape combustion, yet a literature search has failed to find any papers reviewing the nature of such risks. Materials and methods: A thermocouple attached to a laptop computer was used to record the temperature at the arthroscope tip, the light cable end and the light source generator. All potentially flammable materials commonly used during arthroscopic surgery (various disposable drapes, cotton drapes, gowns, paper towels and swabs), were placed at measured distances from a) the light cable end and b) the arthroscope tip. Results: The arthroscope tip reached a maximum temperature of 41.90° in 200 seconds. The light cable tip reached 80° at 100 seconds and a maximum temperature of 110°C in 342 seconds. The light source generator reached a temperature of 153°C. All materials tested (except cotton swabs) underwent signs of combustion. The disposable drapes burnt most rapidly. None of the materials considered had any evidence of thermal damage when placed at distances of 2.5 cm beyond the light cable and 0.5 cm beyond the arthroscope tip. Combustion was most rapid at a distance of 5mm from the instruments. Most surgeons consider the arthroscope tip or light cable end to be the site most likely to induce combustion. Fuel, heat and oxygen are required to produce combustion. Direct contact with the tip results in greater exposure to heat but lower oxygen availability. The fasted combustion occurred at 5mm due to higher oxygen availability despite a lower temperature. Conclusions and Recommendations:. Disposable drapes will burn with the light cable and the arthroscope tip. The arthroscope tip and light cable end should not be left to rest against the drapes because thermal burns can occur within seconds. A kidney dish should be used to contain the instruments when not in the surgeon’s hands. The light source should be switched on only when the light cable is connected to the arthroscope. A retractable shield of 2.5mm is fitted to the light cable end

Introduction and Aims: Conventional histology requires the traumatic removal of tissue from its native environment. This is not only a destructive process but also leads to tissue preparation artefact. We report on a novel arthroscopic instrument, the laser scanning confocal arthroscope (LSCA), which can image tissues of the knee at depth without the need for a damaging tissue biopsy. Method: The new confocal arthroscope contains 4.4mm diameter with a 90-degree lens. Using three knee joints from two adult Merino sheep we imaged muscle, cartilage, ligament, tendon, synovium, meniscus and loose connective tissue. The knees were separately injected with three fluorophores (Acridine Orange, Acriflavine/Calcein-AM or Fluorescein) prior to imaging. Using a medial para-patellar incision, the contents of the knee were exposed and the confocal arthroscope was held directly on the tissue of interest. A second operator captured the images on a computer. Results: We were able to demonstrate the common histological features of normal sheep articular cartilage, meniscus, synovium, ligament, tendon and muscle. Tissues were imaged to depths of 200 microns. Articular cartilage was characterised by a layer of dense superficial cells surrounded by extracellular matrix. There was no visible orderly arrangement of cells in this layer. Meniscus was characterised by closely packed circumferential collagen fibres. Synovium demonstrated a dense collection of cells in a thin membrane, typical of this secretory tissue. Ligament and tendon were characterised by bundles of parallel collagen fibres interspersed by scattered cells. Muscle revealed a typical arrangement of muscle fibres surrounded by a loose connective tissue and separated by capillaries and nerves. Eccentric nuclei were seen, however striations were beyond the imaging resolution of the arthroscope. Conclusion: This study demonstrates the use of a novel arthroscopic instrument for the non-destructive examination of the components of the sheep knee joint. We foresee that the laser scanning confocal arthroscope will have future application in the assessment of cartilage grafting techniques and arthritis modifying drugs

Introduction. Decreases in trainees' working hours, coupled with evidence of worse outcomes when hip arthroscopies are performed by inexperienced surgeons, mandate the development of additional means of arthroscopic training. Though virtual reality simulation training has been adopted by other surgical specialities, its slow uptake in arthroscopic training is due to a lack of evidence as to its benefits. These benefits can be demonstrated through learning curves associated with simulator training – with practice reflecting measurable increases in validated performance metrics. Materials & Methods. Twenty-five medical students completed seven simulated arthroscopies of a healthy virtual hip joint in the supine position on a simulator previously shown to have construct validity. Twelve targets had to be visualised within the central compartment; six via the anterior portal, three via the anterolateral portal and three via the posterolateral portal. Eight students proceeded to complete seven probe examinations of a healthy virtual hip joint. Eight targets were probed via the anterolateral portal. Task duration, number of collisions with soft tissue and bone, and distance travelled by arthroscope were measured by the simulator for every session. Results. A learning curve was demonstrated by the students, with significant improvements in time taken (P<0.01), number of collisions (P<0.01), collision severity (P<0.01), and efficiency of movement (P<0.01). The largest difference between consecutive sessions was seen between sessions 1 and 2, with sessions thereafter showing only minimal rates of improvement. Similar improvements were found in the probe examination with students showing significant improvements in time taken (P<0.01), number of collisions (P<0.01), collision severity (P<0.01) and distance travelled by arthroscope (P<0.01). Conclusion. The results of this study demonstrate a learning curve for a previously validated hip arthroscopy simulator, confirming improved performance with repeated use. These results support the use of virtual reality as a potential means of developing basic hip arthroscopic skills

Background. Surgical simulators allow learner-focussed skills training, in controllable and reproducible environments suitable for assessment. Aim. To research the face validity (extent to which the simulator resembles reality, determined subjectively by subjects), and construct validity, (ability to objectively differentiate between subjects with varying levels of arthroscopic experience) of a virtual reality arthroscopy simulator, to validate its effectiveness as an educational tool. Methods. Using the simulator insightArthroVR®, 37 subjects were required to perform diagnostic knee arthroscopy, palpate anatomical landmarks and complete questionnaires. The simulator recorded objective data to assess proficiency: time to complete tasks, roughness in instrument handling, and path length covered by the arthroscope and palpation probe. Results. The simulator succeeded in proving face validity: 86.4% participants agreed the simulator provided insight into arthroscopy. Training met the expectations of 91.3% and showed improvement in novices in simulated diagnostic arthroscopy in completion time (p-value=0.036), roughness (p-value=0.026), and path length covered by the arthroscope (p-value=0.008). Furthermore, the simulator was able to discriminate between experts, intermediates and novices, proving construct validity: time of completion (p-value=0.009), the path length covered by the arthroscope (p-value=0.02) and the probe (p-value=0.028). Conclusions. Results demonstrate the simulator succeeds in emulating real arthroscopy and can discriminate between subjects according to arthroscopic experience, proving face and construct validity. Further research on transfer of skills to the operating room needs to be done. With surgery constantly modernising and increasing time constraints with the EWTD, training must be efficient and assessable without compromising patient safety. Simulators could allow trainees earlier exposure to procedures, a wider range of pathologies in a compressed period, practice outside the OR, and an acceleration of the learning curve. This study has taken a step forward in validating a VR simulator and thus a step towards the future of simulation becoming an indispensable adjunct to surgical training

The October 2014 Oncology Roundup. 360 . looks at: how best to reconstruct humeral tumours; not everything is better via the arthroscope; obesity and sarcoma; frozen autograft; en-bloc resection and metastatic disease; positive margins in soft-tissue injuries; lipomatous tumours explored; and what happens with recurrence of osteosarcoma

Generally, the sacroiliac joint is not considered accessible for arthroscopy under physiological conditions. The non-injured joint is not large enough for introduction of even the smallest arthroscope into the joint space. After traumatic injury however, or in the event of an inflammatory condition or tumour formation, it is theoretically possible to position an endoscope in the joint space. Study of the anatomy of the sacroiliac joint and knowledge of the anatomic relations, particularly the vascular and nervous relations, is a prerequisite for arthroscopic exploration of the sacroiliac joint space. The posterior approach must account for the bone configuration of the iliac wing and the orientation of the sacroiliac joint line. A cadaver study confirmed the feasibility of endoscopic exploration of the sacroiliac joint via a posterior percutaneous access. Based on this anatomic experience, we positioned an arthroscope in an injured sacroiliac joint and report the different phases. A technique for obtaining a biopsy of the anterior aspect under endoscopic control has already been described, but to our knowledge, there is no arthroscopic description of the sacroiliac joint via a posterior access. Indications for arthroscopy of the sacroiliac joint remain very limited. This technique can be used to remove osteocartilaginous fragments or foreign bodies incarcerated in the joint and to obtain biopsy material, drain collections and, in the near future, should allow avivement of the cartilage surfaces with the objective of a percutaneous arthrodesis

The August 2014 Shoulder & Elbow Roundup. 360 . looks at: Myofibroblasts perhaps not implicated in post-traumatic elbow stiffness; olecranon tip biomechanically sound for coranoid reconstruction; obesity and elbow replacement don’t mix; single column plating successful for extra-articular distal humeral fractures; satisfaction not predictable in frozen shoulder; tenodesis and repair both acceptable in Grade II SLAP tears; glenoid bone grafting is effective and glenohumeral articular lesions best seen with an arthroscope

Review of 133 cases of Anterior Cruciate Ligament (ACL) reconstruction, showed 91 cases had been arthroscoped twice. The incidence of meniscus pathology, at first arthroscopy was 71% and this fell to 63% at the second arthroscopy and reconstruction. 21% of recurrent tears were in previously undamaged menisci. The medial meniscus, was the most commonly damaged meniscus, at the time of the first arthroscopy. The incidence of lateral and bilateral meniscus pathology increased in the time period awaiting ACL reconstruction. The mean time between the two arthroscopies were 27 months. Damaged menisci continued to tear over the time period between first and second arthroscopies or new pathology occurred. The paper concludes that if ACL reconstruction is performed by a mini open technique then it should be re-arthroscoped immediately before the ACL reconstruction. This is essential to avoid missing meniscus pathology, even in previously arthroscoped knees

The December 2012 Foot & ankle Roundup. 360. looks at: correcting the overcorrected club foot; syndesmotic surgery; autograft for osteochondral defects; sesamoidectomy after fracture in athletes; complications in ankle replacement; the arthroscope as a treatment for ankle osteoarthritis; whether da Vinci was a modern foot surgeon; and a popliteal block in ankle fixation

Certain cases of patello-femoral maltracking can lead to articular surface wear. Though most can be treated non-operatively, where there is increasing wear surgical intervention may be necessary. Patellar tracking is difficult to assess and though several different types of maltracking or loading have been described, each case warrants precise assessment of the wear patterns. Without this knowledge a logical approach to realignment surgery is impossible. 60 consecutive cases (age range 18–50 years) presenting with anterior knee pain were arthroscoped over a 4 year period. These patients all had been selected with either patellar instability or surface wear indicated either clinically, a positive radiograph, bone scan or MRI. All patients were arthroscoped through standard anterolateral and antero-medial portals and also a superolateral and occasionally a supero-medial approach. The areas of articular damage were mapped on diagrams and recorded photographically. Patella views were taken in flexion and extension, and on passively stretching the patella medially and laterally. We found 6 distinct patterns of wear which appear to indicate 6 different maltracking abnormalities. The largest group, 46 patients, consisted of lateral trackers, with 21 patients demonstrating medial facet and lateral femoral condylar wear. Assessment of the articular surface of the patello-femoral groove from inferior portals is highly misleading and superior portals are needed for proper assessment. Medial facet wear can occur in lateral instability or medial compression. Lateral maltracking at engagement or distally are the commonest patterns

The purpose of this study was to determine arthroscopically the pathology following anterior shoulder dislocation and assess visually whether rotation of the arm affected the reduction of the capsulolabral complex in cases where this was detached. Over a sixteen month period from December 2000 to March 2002 we have arthroscoped and followed up prospectively a cohort of thirty patients. All patients were immobilised in a sling for four weeks and rehabilitated in a similar fashion with physiotherapy. The average age of the patients was 31 years and all patients were arthroscoped within six weeks of injury. The Hill Sachs lesion and capsulolabral complex injury were the most common pathology and were seen in two thirds of the patients. In the remaining group capsular tears and stretching were the most frequent injuries seen. Injuries to the capsulolabral complex were seen in 22 patients. In seventeen of these the capsulolabral complex was still mobile and the time to arthroscopy averaged 10.3 days (Range 0–25). In the remaining five patients the labrum had healed in a malreduced position. The average time to arthroscopy in these patients was 30.8 days (Range 19–42). In the patients where the capsulolabral complex had not reattached 14/17 (82%) patients demonstrated a better reduction of the labrum onto the glenoid with the arm in external rotation. Based on these findings we conclude that:. The traditional use of a sling with the arm internally rotated may contribute to the capsulolabral complex healing in a malreduced position. This may be a contributory factor to the high redislocation rates found in young adults. Splinting the arm in a position of external rotation for four weeks may allow better reduction of the capsulolabral complex onto the glenoid

Hip septic arthritis requires prompt surgical decompression. The aim of this study is to evaluate the advantages and effectiveness of hip arthroscopy in alternative to arthrotomy. Since 1996, 6 children affected by hip septic arthritis were treated by arthroscopy. The mean follow up was 7.5 years (8–7 years), 2 patients were female and 4 male, the mean age was 6.5 years (from 4 to 8). Time from onset of symptoms to operative treatment ranged from 24 h to 4 days. The surgical procedure was performed with the patient in the supine position and the leg in slight traction, by means of a sopratrocanteri c portal. A standard 4.5 mm arthroscope with a 70° optics was used. A sample or articular fluid was harvested for bacteriological and gram stain examination. The joint was then washed out with 8–10 litres of saline solution. No drain was left inside and all the patients were treated by a guided antibiotic therapy post-op. In all cases a grossly purulent fluid was aspirated. In 3 cases the gram stain showed a S. Aureus as responsible of the infection. No complications were attributable to the arthroscopy in the intra and post-op period. ESR, PCR and WBC count normalized after 3 days post-op in all cases. The mean period of hospitalisation was 8 days (from 5 to 13), the mean time of full recovery was 17 days (from 15 to 20). At 7 years of follow-up no recurrence was reported and the clinical evaluation showed no pain and no functional restriction of the operated hip. Early surgical drainage is the main treatment for septic arthritis of the hip. Hip arthroscopy allows to completely remove the purulent fluid from the inside of the hip joint, by means of a large volume lavage and direct suction. Hip arthroscopy demonstrated to be an excellent alternative to arthrotomy for treatment of septic arthritis in children old enough to be safely arthroscoped, with a significantly less morbidity

Introduction. While manual total knee arthroplasty (MTKA) procedures have demonstrated excellent clinical success, occasionally intraoperative damage to soft tissues can occur. Robotic-arm assisted technology is designed to constrain a sawblade in a haptic zone to help ensure that only the desired bone cuts are made. The objective of this cadaver study was to quantify the extent of soft tissue damage sustained during TKA through a robotic-arm assisted (RATKA) haptically guided approach and conventional MTKA approach. Methods. Four surgeons each prepared six cadaveric legs for CR TKA: 3 MTKA and 3 RATKA, for a total of 12 RATKA and 12 MTKA knees. With the assistance of an arthroscope, two independent surgeons graded the damage of 14 knee structures: dMCL, sMCL, posterior oblique ligament (POL), semi-membranosus muscle tendon (SMT), gastrocnemius muscle medial head (GMM), PCL, ITB, lateral retinacular (LR), LCL, popliteus tendon, gastrocnemius muscle lateral head (GML), patellar ligament, quadriceps tendon (QT), and extensor mechanism (EM). Damage was defined as tissue fibers that were visibly torn, cut, frayed, or macerated. Percent damage was averaged between evaluators, and grades were assigned: Grade 1) complete soft tissue preservation to ≤5% damage; Grade 2) 6 to 25% damage; Grade 3) 26 to 75% damage; and Grade 4) 76 to 100% damage. A Wilcoxon Signed Rank Test was used for statistical comparisons. A p-value <0.05 was considered statistically significant. Results. Significantly less damage occurred to the PCL in the RATKA than the MTKA specimens (p=0.004). RATKA specimens had less damage to the dMCL (p=0.186), ITB (p=0.5), popliteus (p=0.137), and patellar ligament (p=0.5). The sMCL, POL, SMT, GMM, GML, LR, LCL, QT, and EM were grade 1 in all MTKA and RATKA specimens. No intentional soft tissue releases were performed in either group to balance the knee. Discussion/Conclusion. The results of this study indicate that RATKA may result in less soft-tissue damage than MTKA, especially to the posterior cruciate ligament. This finding can potentially be attributed to RATKA using a haptic boundary to constrain the sawblade, which can help prevent unwanted soft-tissue damage. However, since any damage was post-operatively assessed and in a cadaveric model, further investigations on soft-tissue damage from patients with clinical outcomes should be performed

Hip arthroscopy is a rapidly expanding technique that has a steep learning curve. Simulation may have a role in helping trainees overcome this. However there is as yet no validated hip arthroscopy simulator. This study aimed to test the construct validity of a virtual reality hip arthroscopy simulator. Nineteen orthopaedic surgeons performed a simulated arthroscopic examination of a healthy hip joint in the supine position. Surgeons were categorized as either expert (those who had performed 250 hip arthroscopies or more) or novice (those who had performed fewer than this). Twenty-one targets were visualized within joint; nine via the anterior portal, nine via the anterolateral and three via the posterolateral. This was followed by a task testing basic probe examination of the joint in which a series of eight targets were probed via the anterolateral portal. Each surgeon's performance was evaluated by the simulator using a set of pre-defined metrics including task duration, number of soft tissue & bone collisions, and distance travelled by instruments. No repeat attempts at the tasks were permitted. Construct validity was then evaluated by comparing novice and expert group performance metrics over the two tasks using the Mann–Whitney test, with a p value of less than 0.05 considered significant. On the visualization task, the expert group outperformed the novice group on time taken (P=0.0003), number of collisions with soft tissue (P=0.001), number of collisions with bone (P=0.002) and distance travelled by the arthroscope (P=0.02). On the probe examination, the two groups differed only in the time taken to complete the task (P=0.025). Increased experience in hip arthroscopy was reflected by significantly better performance on the VR simulator across two tasks, supporting its construct validity. This study validates a virtual reality hip arthroscopy simulator and supports its potential for developing basic arthroscopic skills

Aims

Osteochondral lesions of the talus (OLT) are a common cause of disability and chronic ankle pain. Many operative treatment strategies have been introduced; however, they have their own disadvantages. Recently lesion repair using autologous cartilage chip has emerged therefore we investigated the efficacy of particulated autologous cartilage transplantation (PACT) in OLT.

Aims

In order to release the contracture band completely without damaging normal tissues (such as the sciatic nerve) in the surgical treatment of gluteal muscle contracture (GMC), we tried to display the relationship between normal tissue and contracture bands by magnetic resonance neurography (MRN) images, and to predesign a minimally invasive surgery based on the MRN images in advance.

Recent literature has demonstrated that conventional arthroscopic techniques do not adequately visualise areas of predilection of pathology of the long head of biceps (LHB) tendon and are associated with a 30–50% rate of missed diagnoses. The aim of this study was to evaluate the safety, effectiveness and ease of performing biceps tenoscopy as a novel strategy for reducing the rate of missed diagnoses. Five forequarter amputation cadaver specimens were studied. The pressure in the anterior compartment was measured before and after surgical evaluation. Diagnostic glenohumeral arthroscopy was performed and the biceps tendon was tagged to mark the maximum length visualised by pulling the tendon into the joint. Biceps tenoscopy was performed using 3 different techniques (1. Flexible video-endoscopy, 2. Standard arthroscopy via Neviaser portal. 3. Standard arthroscope via antero-superior portal with retrograde instrumentation). Each was assessed for safety, ease of the procedure and whether the full length of the extra-articular part of the LHB tendon could be visualised. The t-test was used to compare the length of the LHB tendon visualised at standard glenohumeral arthroscopy vs that visualised at biceps tenoscopy. An open dissection was performed after the arthroscopic procedures to evaluate for an iatrogenic injury to local structures. Biceps tenoscopy allowed visualisation to the musculotendinous junction in all cases. The mean length of the tendon visualised was therefore significantly greater at biceps tenoscopy (104 mm) than at standard glenohumeral arthroscopy (33 mm) (mean difference 71 mm, p<0.0001). Biceps tenoscopy was safe with regards to compartment syndrome and there was no difference between pre- and post-operative pressure measurements (mean difference 0 mmHg, p=1). No iatrogenic injuries were identified at open dissection. Biceps tenoscopy allows excellent visualisation of the entire length of the LHB tendon and therefore has the potential to reduce the rate of missed diagnoses. This study did not demonstrate any risk of iatrogenic injury to important local structures or any risk of compartment syndrome. Clinical evaluation is required to further validate this technique