The incidence of empyema is increasing worldwide, which, coupled with the aging global population, makes the non-surgical management of pleural space infections increasingly important. Despite this, there remains no consensus for management of chronic empyema in those patients who are not surgical candidates and do not get adequate source control with chest tube and intra-pleural lytic therapy, particularly for patients with non-expandable lungs. We reviewed the literature regarding non-surgical management of chronic empyema and present two cases that support the use of pleuroscopy in conjunction with tunneled pleural catheters for management of chronic empyema in non-surgical candidates.

BACKGROUND: For procedural education, the shift from the traditional apprenticeship model to simulation-based mastery has become increasingly accepted as the gold standard and has underscored the importance of high-fidelity, cost-effective training options. However, cost-effective pleural procedure simulators providing both realistic haptic feedback and ultrasound compatibility are lacking. OBJECTIVE: We aimed to create a pleural procedure simulator with characteristics of human tissue, at low cost and with ultrasound compatibility. METHODS: This work used design-based research principles and a collaborative rapid iteration approach in collaboration with the University of California, San Francisco, Makers Lab and design-based researchers at the University of California, Berkeley, which led to the creation of a three-dimensionally printed pleural procedure simulator. RESULTS: The needs assessment indicated significant discomfort with pleural procedures and a request for more accessible simulation opportunities. Iterative prototyping resulted in a three-dimensionally printed rib cage and a series of innovations in the fluid pocket and skin layers to provide realistic tactile feedback and ultrasound imaging compatibility. The final model costs significantly less than commercial simulators, with durable components and replaceable parts that can be reused multiple times. CONCLUSION: The development of a low-cost, high-fidelity pleural procedure simulator addresses the current limitations of commercially available pleural simulators. By integrating three-dimensional printing technology and easily accessible materials, we were able to produce a simulator that closely replicates the feel of human tissue, allows ultrasound use, and is adaptable for different patient anatomies and clinical scenarios. This novel simulator is a scalable solution to elevate the standard of procedural education and ultimately positively affect patient care.

Prerecorded video content in medical education has become more common. Increasingly accessible technology coupled with the COVID-19 pandemic and subsequent need for distanced learning has greatly increased the interest in and need for high-quality video content. The use of short educational videos to augment other teaching methods has been shown to improve learners' experiences, knowledge retention, and understanding of content. Multiple studies have demonstrated that video education can be a highly effective tool for learning, particularly for hard-to-visualize processes and for procedural education. Videos allow learners to view content at their own pace and revisit materials on demand. In addition, well-designed videos can be repurposed by educators, ultimately reducing time needed to create high-quality educational content. Currently available technology allows educators to create high-quality videos at minimal cost and with a modest investment of time. This article details practical tips for creating high-yield educational videos.