PurposeThe pterygopalatine fossa is one of the most complex anatomical regions to understand. It is poorly visualized in cadaveric dissection and most textbooks rely on schematic depictions. We describe our approach to creating a low-cost, 3D model of the pterygopalatine fossa, including its associated canals and foramina, using an affordable “desktop” 3D printer.MethodsWe used open source software to create a volume render of the pterygopalatine fossa from axial slices of a head computerised tomography scan. These data were then exported to a 3D printer to produce an anatomically accurate model.ResultsThe resulting ‘negative space’ model of the pterygopalatine fossa provides a useful and innovative aid for understanding the complex anatomical relationships of the pterygopalatine fossa.ConclusionThis model was designed primarily for medical students; however, it will also be of interest to postgraduates in ENT, ophthalmology, neurosurgery, and radiology. The technical process described may be replicated by other departments wishing to develop their own anatomical models whilst incurring minimal costs.
Introduction Parotid masses causing facial palsy are highly indicative of malignancy. A significant number of cases describing benign parotid disease causing facial palsy have been reported. Materials and methods We performed a systematic review of the literature to establish the aetiology, clinical features, investigations and management undertaken during these presentations to assess how these factors differed from malignant presentations and to establish an evidence-based algorithm for their management. Results A total of 85 cases were identified from 78 articles. Cystadenolymphomas were the most common histopathological type (p = 0.034). Mean facial palsy recovery duration in neoplastic aetiology was longer than for infective aetiology (p = 0.033). A significant association existed between uncommon infective organisms and development of facial palsy (p = <0.0001). Conclusion Uncommon benign aetiologies are associated with facial palsy. Investigations and management should be guided by patients’ clinical presentations, avoiding excessive treatment. Complete facial palsy recovery rates are high, although not immediate.
ObjectivesThis study aimed to assess the published literature on non-technical skills in otolaryngology surgery and examine the applicability of any research to others’ practice, and to explore how the published literature can identify areas for further development and guide future research.MethodsA systematic review was conducted using the following key words: ‘otolaryngology’, ‘otorhinolaryngology’, ‘ENT’, ‘ENT surgery’, ‘ear, nose and throat surgery’, ‘head and neck surgery’, ‘thyroid surgery’, ‘parathyroid surgery’, ‘otology’, ‘rhinology’, ‘laryngology’ ‘skull base surgery’, ‘airway surgery’, ‘non-technical skills’, ‘non technical skills for surgeons’, ‘NOTSS’, ‘behavioural markers’ and ‘behavioural assessment tool’.ResultsThree publications were included in the review – 1 randomised, controlled trial and 2 cohort studies – involving 78 participants. All were simulation-based studies involving training otolaryngology surgeons.ConclusionLittle research has been undertaken on non-technical skills in otolaryngology. Training surgeons’ non-technical skill levels are similar across every tested aspect. The research already performed can guide further studies, particularly amongst non-training otolaryngology surgeons and in both emergency and elective non-simulated environments.
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