[RECURRENT AND VIRTUAL EDUCATION FOR ALL DISCIPLINES AND OCCUPATIONS IN THE ALLERGY REALM : A SURVEY OF THE PARTICIPANTS FROM THE INITIATIVE 'OUTREACH LECTURES' TO CREATE EDUCATIONAL OPPORTUNITIES].

BACKGROUND: In the enhancement of allergy care involving multidisciplinary and multiple medical departments, there is a perceived need for education that targets not only specialists but also non-specialists. However, research on the need for and methods of such education remains inadequate. OBJECTIVE: To design a remote allergy care education program for all medical practitioners and to validate its necessity and utility. METHODS: The Empowering Next Generation Allergist/immunologist toward Global Excellence Task Force (ENGAGE-TF), supported by the Japanese Society of Allergology, initiated a virtual educational program called 'Outreach Lectures' in collaboration with Keio University and Fukui University. This initiative was widely promoted through social media and various institutions, and a survey was conducted through its mailing list. RESULTS: 1139 responses were obtained. More than half were physicians from non-allergy specialties, representing a diverse range of healthcare professions. Over 70% expressed being 'very satisfied,' and over 60% found the difficulty level 'appropriate.' Free-form feedback revealed differences in learning focus based on profession and learning approach based on years of experience. CONCLUSION: The high participation rate (90%) of non-specialist physicians underscores the demand for addressing allergic conditions in primary care. The effectiveness of virtual / recurrent education, particularly for healthcare professionals with over 11 years of experience, was implied. Further follow-up investigation focusing on quantitative and objective assessment of educational effectiveness is indispensable.

Ten promotion and tenure tips for microbiologists and immunologists.

In this editorial, I share advice and general principles based on recent experiences as a mentor and evaluator for early-career microbiology and immunology faculty seeking promotion and tenure. I outline 10 recommendations covering research, service, teaching, and mentoring. In addition, I encourage nuanced conversations with colleagues to strategically navigate the unique promotion and tenure processes at different institutions. I hope that these practical tips will assist early-career faculty in attaining promotion and tenure, contributing to long-term scientific and career advances.

The γδ T Cell Club: bringing a global scientific community together in the age of Zoom.

Immunologists are very social people-they love to meet other immunologists and talk about immunology (and immunologists). Constantly! γδ T-cell researchers are no exception. On the contrary, as there are not so many of them compared to, say, researchers working on dendritic cells, they especially crave frequent interactions with like-minded scientists. This is where the technological solutions being developed during the coronavirus disease 2019 (COVID-19) pandemic come into play that have, almost overnight, allowed researchers to hold meetings and lectures online. We here describe how we set up the virtual 'γδ T Cell Club', a monthly webinar series that aims to bring the field closer together, and present our musings about what we have learned from this experience, which we hope is useful for other researchers interested in connecting online.

Canales dominantes de percepción del conocimiento. Influencia en la evaluación del aprendizaje de la inmunología / Knowledge Perception Dominant Channels. Influence of the Evaluation of Immunology Learning

Introducción: Los estilos de aprendizaje según canales de percepción dominante del conocimiento de los estudiantes influyen en su aprendizaje. Su uso por los docentes puede favorecer o no a estudiantes con un canal específico. Objetivo: Describir la ubicación según los canales de percepción dominante del conocimiento de los estudiantes de medicina y la relación de estos con el resultado de las evaluaciones frecuentes en la asignatura Sangre y Sistema Inmune. Métodos: Se realizó una investigación en 234 estudiantes y 30 profesores de la carrera de medicina en los cursos 2020-2021 y 2022. Los estudiantes se clasificaron según los resultados de un cuestionario para identificar el predominio del canal de percepción (visuales-auditivos-kinestésicos) y a los profesores se les realizó una encuesta para determinar su percepción sobre el uso de estrategias de enseñanza diferenciales para cada canal. El procesamiento se realizó en programa SPSS 25, a través de números, porcentaje y prueba de ji al cuadrado. Resultados: Predominó el canal visual con el 48 por ciento. Existió asociación con el sexo con p = 0,0016; en varones prevaleció el canal auditivo y en hembras el visual. La relación entre los canales de percepción dominante y el rendimiento académico fue significativa con p = 0,000. Conclusiones: Prevaleció el canal de percepción dominante visual. La distribución de cada canal se asoció con el sexo y el rendimiento académico; así se lograron mejores resultados por los estudiantes con percepción dominante visual. Esto último estuvo relacionado con el predominio de acciones por parte de los docentes que potencian este canal de percepción(AU)

Introduction: Learning styles according to dominant perception channels of students' knowledge influence their learning. Their use by professors may or may not favor students with a specific channel. Objective: To describe the location according to the dominant knowledge perception channels of medical students and their relationship with the results of frequent evaluations in the subject Blood and Immune System. Methods: A research was conducted with 234 students and 30 professors of the Medicine major during the academic years 2020-2021 and 2022. The students were classified according to the results of a questionnaire to identify the perception channel predominance (visual-auditory-kinesthetic), while the professors were surveyed to determine their perception on the use of differential teaching strategies for each channel. Processing was performed in SPSS 25, using numbers, percentages and the chi-squared test. Results: The visual channel predominated, accounting for 48 percent. There was an association with sex (p=0.0016); the auditory channel prevailed among males, while the visual channel prevailed among females. The relationship between dominant perception channels and academic performance was significant (p=0.000). Conclusions: The visual dominant perception channel prevailed. The distribution of each channel was associated with sex and academic performance; thus, better results were achieved by students with visual dominant perception. The latter was related to the predominance of actions by professors that enhance this perception channel(AU)

ChatGPT's performance in dentistry and allergyimmunology assessments: a comparative study.

Large language models (LLMs) such as ChatGPT have potential applications in healthcare, including dentistry. Priming, the practice of providing LLMs with initial, relevant information, is an approach to improve their output quality. This study aimed to evaluate the performance of ChatGPT 3 and ChatGPT 4 on self-assessment questions for dentistry, through the Swiss Federal Licensing Examination in Dental Medicine (SFLEDM), and allergy and clinical immunology, through the European Examination in Allergy and Clinical Immunology (EEAACI). The second objective was to assess the impact of priming on ChatGPT's performance. The SFLEDM and EEAACI multiple-choice questions from the University of Bern's Institute for Medical Education platform were administered to both ChatGPT versions, with and without priming. Performance was analyzed based on correct responses. The statistical analysis included Wilcoxon rank sum tests (alpha=0.05). The average accuracy rates in the SFLEDM and EEAACI assessments were 63.3% and 79.3%, respectively. Both ChatGPT versions performed better on EEAACI than SFLEDM, with ChatGPT 4 outperforming ChatGPT 3 across all tests. ChatGPT 3's performance exhibited a significant improvement with priming for both EEAACI (p=0.017) and SFLEDM (p=0.024) assessments. For ChatGPT 4, the priming effect was significant only in the SFLEDM assessment (p=0.038). The performance disparity between SFLEDM and EEAACI assessments underscores ChatGPT's varying proficiency across different medical domains, likely tied to the nature and amount of training data available in each field. Priming can be a tool for enhancing output, especially in earlier LLMs. Advancements from ChatGPT 3 to 4 highlight the rapid developments in LLM technology. Yet, their use in critical fields such as healthcare must remain cautious owing to LLMs' inherent limitations and risks.

An Analysis of Factors That Influence Students to Pursue Immunology.

One considers many factors before choosing a career path, such as interest, accessibility of resources, academic ability, and social network support. As employment around the world in science, technology, engineering, and math (STEM) disciplines continues to increase, there is a need to understand why students select specific majors in an effort to increase overall enrollment and retention of STEM majors. The purpose of this study was to elucidate how undergraduate and graduate students were introduced to immunology, a STEM discipline, and how these experiences influenced their desire to pursue immunology as a major. The findings from this study show that a majority of both immunology and nonimmunology majors were initially exposed to immunology through an educational experience compared with a personal experience. Our data also indicate that the timing of the experience is critical, such that an educational experience at an advanced academic level, for example, in college, or a personal experience as a teen or young adult correlated with the decision to pursue an immunology degree. Moreover, graduate students studying immunology report that having research experiences and/or an experience with a mentor positively influenced their decision to pursue immunology. Overall, the findings from this research highlight the type and timing of exposures that influence individuals to major in the field of immunology, and these data can be used in the future to increase the number of immunology graduates.

Black in Immuno Week: Who We Are, What We Did, and Why It Matters.

Our organization, Black in Immuno (@BlackInImmuno), was formed in September 2020 to celebrate, support, and amplify Black voices in immunology when social media campaigns like #BlackInTheIvory illuminated the shared overt and covert issues of systemic racism faced by Black researchers in all facets of science, technology, engineering, art, and mathematics. Black in Immuno was cofounded by a group of Black immunology trainees working at multiple institutions globally: Joël Babdor, E. Evonne Jean, Elaine Kouame, Alexis S. Mobley, Justine C. Noel, and Madina Wane. We devised Black in Immuno Week, held November 22-28, 2020, as a global celebration of Black immunologists. The week was designed to advocate for increased diversity and accessibility in immunology, amplify Black excellence in immunology, and create a community of Black immunologists who can support each other to flourish despite barriers in academia and other job sectors. The week contained live panels and scientific talks, a casual networking mixer, online advocacy and amplification sessions, and a series of wellness events. Our live-streamed programs reached over 300 individuals, and thousands of people kept the conversations going globally using #BlackInImmuno and #BlackInImmunoWeek on social media from five continents. Below, we highlight the events and significant takeaways of the week.

Supporting the Next Generation of Scientists to Lead Cancer Immunology Research.

Recent success in the use of immunotherapy for a broad range of cancers has propelled the field of cancer immunology to the forefront of cancer research. As more and more young investigators join the community of cancer immunologists, the Arthur L. Irving Family Foundation Cancer Immunology Symposium provided a platform to bring this expanding and vibrant community together and support the development of the future leaders in the field. This commentary outlines the lessons that emerged from the inaugural symposium highlighting the areas of scientific and career development that are essential for professional growth in the field of cancer immunology and beyond. Leading scientists and clinicians in the field provided their experience on the topics of scientific trajectory, career trajectory, publishing, fundraising, leadership, mentoring, and collaboration. Herein, we provide a conceptual and practical framework for career development to the broader scientific community.

American Association of Immunologists Recommendations for an Undergraduate Course in Immunology.

Identifying the "essential" components of an undergraduate immunology lecture course can be daunting because of the varying postgraduate pathways students take. The American Association of Immunologists Education Committee commissioned an Ad Hoc Committee, representing undergraduate, graduate, and medical institutions as well as the biotechnology community, to develop core curricular recommendations for teaching immunology to undergraduates. In a reiterative process involving the American Association of Immunologists teaching community, 14 key topics were identified and expanded to include foundational concepts, subtopics and examples, and advanced subtopics, providing a flexible list for curriculum development and avenues for higher-level learning. Recommendations for inclusive and antiracist teaching that outline opportunities to meet the needs of diverse student populations were also developed. The consensus recommendations can be used to accommodate various course settings and will bridge undergraduate and graduate teaching and prepare diverse students for subsequent careers in the biomedical field.

Reimagining laboratory-based immunology education in the time of COVID-19.

The pandemic has brought challenges to teaching lab and research skills. Here Nigel Francis and colleagues explore the diverse approaches taken to replace lab-based immunology teaching, explain how networks of educators have driven this innovation and discuss the importance of retaining best practice into the future.