As a result of recent work-hours limitations and concerns for patient safety, innovations in extraclinical surgical simulation have become a desired part of residency education. Current simulation models, including cadaveric, animal, bench-top, virtual reality (VR) and robotic simulators are increasingly used in surgical training programs. Advances in telesurgery, three-dimensional (3D) printing, and the incorporation of patient-specific anatomy are paving the way for simulators to become integral components of medical training in the future.Evidence from the literature highlights the benefits of including simulations in surgical training; skills acquired through simulations translate into improvements in operating room performance. Moreover, simulations are rapidly incorporating new medical technologies and offer increasingly high-fidelity recreations of procedures. As a result, both novice and expert surgeons are able to benefit from their use. As dedicated, structured curricula are developed that incorporate simulations into daily resident training, simulated surgeries will strengthen the surgeon's skill set, decrease hospital costs, and improve patient outcomes.
Prostate cancer (PCa) is the most commonly diagnosed cancer among men in the United States. In this paper, we survey computer aided-diagnosis (CADx) systems that use multiparametric magnetic resonance imaging (MP-MRI) for detection and diagnosis of prostate cancer. We review and list mainstream techniques that are commonly utilized in image segmentation, registration, feature extraction, and classification. The performances of 15 state-of-the-art prostate CADx systems are compared through the area under their receiver operating characteristic curves (AUC). Challenges and potential directions to further the research of prostate CADx are discussed in this paper. Further improvements should be investigated to make prostate CADx systems useful in clinical practice.
Traumatic lower extremity fractures with compromised arterial flow are limb-threatening injuries. A retrospective review of 158 lower extremities with traumatic fractures, including 26 extremities with arterial injuries, was performed to determine the effects of vascular compromise on flap survival, successful limb salvage and complication rates. Patients with arterial injuries had a larger average flap surface area (255.1 vs 144.6 cm2, P = 0.02) and a greater number of operations (4.7 vs 3.8, P = 0.01) than patients without vascular compromise. Patients presenting with vascular injury were also more likely to require fasciotomy [odds ratio (OR): 6.5, confidence interval (CI): 2.3–18.2] and to have a nerve deficit (OR: 16.6, CI: 3.9–70.0), fracture of the distal third of the leg (OR: 2.9, CI: 1.15–7.1) and intracranial hemorrhage (OR: 3.84, CI: 1.1–12.9). After soft tissue reconstruction, patients with arterial injuries had a higher rate of amputation (OR: 8.5, CI: 1.3–53.6) and flap failure requiring a return to the operating room (OR: 4.5, CI: 1.5–13.2). Arterial injury did not correlate with infection or overall complication rate. In conclusion, arterial injuries resulted in significant complications for patients with lower extremity fractures requiring flap coverage, although limb salvage was still effective in most cases.
Background
Venous thromboembolism (VTE), including deep vein thrombosis and pulmonary embolism, represents a significant perioperative complication. However, the outcomes of lower extremity salvage in the setting of perioperative VTE are not well reported.
Methods
A retrospective review of lower extremity trauma patients requiring soft tissue reconstruction between July 2007 and December 2015 at an urban trauma center was performed. Patients with clinically apparent VTE during inpatient stay were identified. Outcomes compared included success of limb salvage, flap survival, and flap complications. Comorbidities, injury characteristics and perioperative data were also compared between patients with and without VTE.
Results
One hundred ninety patients with lower extremity injuries underwent local and free flap procedures, with 12 (6.3%) patients developing clinically apparent VTE during hospitalization. Nine VTEs (75.0%) were diagnosed prior to soft tissue reconstruction, and 3 (25.0%) VTEs were diagnosed postreconstruction. The limb salvage rate in patients with VTE was 100%. There were no flap losses in patients with VTE, and the overall flap complication rate was similar between VTE and non-VTE groups (P = 0.26). However, there was an increased risk of postoperative hematoma in patients undergoing free flap transfer with diagnosed VTE compared with patients receiving free flaps without VTE (40.0% vs 2.6%, P = 0.02). Additionally, 1 patient died as a result of pulmonary embolism, and another patient experienced an ischemic stroke from a paradoxical embolism.
Conclusions
These results suggest that successful limb salvage and flap survival may be achieved in the setting of perioperative VTE, although anticoagulation prophylaxis and treatment are critical in this population due to significant morbidity and mortality associated with VTE.
Background: Lower extremity trauma accounts for over 300,000 injuries annually. While soft tissue transfer is a well-accepted practice for open fracture coverage, functional outcomes remain unclear. Hypothesis: This study investigates functional outcomes following soft tissue reconstruction for open tibial fractures. Materials and methods: A retrospective review of a prospectively maintained database of open tibia fractures requiring soft tissue reconstruction was performed at an urban level 1 trauma center between October 2013 and March 2015. Outcomes: were evaluated using Pearson's chi square test with significant p value < 0.05. Results: In 30 patients, fractures were graded Gustilo-Anderson type I (3.3%), 30% type II, 3.3% type IIIa, 53.3% type IIIb, and 10% type IIIc. Fixation was 56.7% plate and screw, 20% intramedullary nail, and 16.7% external fixator. Definitive closure was achieved in 43.3% through local rotational flap (38.5% gastrocnemius, 61.5% soleus), and in 56.7% by free tissue transfer (29.4% latissimus, 23.5% rectus, 17.6% ALT, 17.6% gracilis). In 10 patients, 70% returned to full ambulation, 30% required an assistance device, and 50% achieved union in 6 months. Local flap use was predictive of ambulation at discharge. Discussion: Following lower extremity fracture, 70% of patients returned to pre-injury function. Use of a local tissue flap was associated with early ambulation.
Following complex, infected tibial fractures, salvage of the lower extremity may be attempted even when iIFH cannot be removed. Thorough debridement, antibiotics, and vascularized soft tissue may suppress infection long enough to facilitate osseous union and subsequent removal of iIFH.
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