Future Interventional Radiologists and Where to Find Them-Insights from Five UK Interventional Radiology Symposia for Junior Doctors and Medical Students.

BACKGROUND: The interventional radiology (IR) trainee recruitment in the UK is lagging behind the pace of service expansion and is potentially hindered by underrepresented undergraduate curricula. Understanding the contributing factors that encourage junior doctors and medical students to consider an IR career will help the IR community to better focus the efforts on recruiting and nurturing the next generation. METHODS: Anonymised questionnaires on undergraduate and postgraduate IR exposure were distributed to attendees of five UK IR symposia between 2019 and 2020. RESULTS: 220 responses were received from 103 (47%) junior doctors and 117 (53%) medical students. Prior IR exposure strongly correlates with individuals' positive views towards an IR career (Pearson's R = 0.40, p < 0.001), with involvement in clinical activities as the most important independent contributor (OR 3.6, 95%CI 1.21-10.50, p = 0.021). Longer time spent in IR (especially as elective modules) and IR-related portfolio-building experiences (such as participating in research, attending conferences and obtaining career guidance) demonstrate strong association with willingness to pursue an IR career for the more motivated (p values < 0.05). The symposia had overall positive effects on subjective likelihood to pursue an IR career, particularly among junior doctors who face near-term career choices (p < 0.001). CONCLUSION: Our study, focusing on a self-selected cohort, identified contributing factors to individuals' willingness to pursue an IR career. Symposia have additional recruitment effects in extra-curricular settings. Active engagement with junior doctors and medical students through clinical activities and non-clinical portfolio-related experiences are key to generate informed and motivated candidates for the future of IR.

Response to: The Importance of Conscious Sedation for Life-Saving Valve Procedures in Patients With Rheumatic Heart Disease From Low- to Middle-Income Countries.

A response to Alcici et al., 2019 - thinking about how using conscious sedation for percutaneous mitral commissurotomy may improve outcomes in other areas.

Geometrically complex 3D-printed phantoms for diffuse optical imaging.

Tissue-equivalent phantoms that mimic the optical properties of human and animal tissues are commonly used in diffuse optical imaging research to characterize instrumentation or evaluate an image reconstruction method. Although many recipes have been produced for generating solid phantoms with specified absorption and transport scattering coefficients at visible and near-infrared wavelengths, the construction methods are generally time-consuming and are unable to create complex geometries. We present a method of generating phantoms using a standard 3D printer. A simple recipe was devised which enables printed phantoms to be produced with precisely known optical properties. To illustrate the capability of the method, we describe the creation of an anatomically accurate, tissue-equivalent premature infant head optical phantom with a hollow brain space based on MRI atlas data. A diffuse optical image of the phantom is acquired when a high contrast target is inserted into the hollow space filled with an aqueous scattering solution.