Curriculum Guidelines for Graduate and Undergraduate Virology Courses.

Curriculum guidelines for virology are needed to best guide student learning due to the continuous and ever-increasing volume of virology information, the need to ensure that undergraduate and graduate students have a foundational understanding of key virology concepts, and the importance in being able to communicate that understanding to both other virologists and nonvirologists. Such guidelines, developed by virology educators and the American Society for Virology Education and Career Development Committee, are described herein.

Retos actuales a la enseñanza de la virología para enfrentar enfermedades emergentes / Current challenges to the teaching of virology to face emerging diseases

En los últimos años los microorganismos han generado múltiples evoluciones, provocando enfermedades y problemas agudos de salud pública. Para poder controlar las virosis es necesario conocer su biología y epidemiología, establecer tratamiento y profilaxis adecuada para su control. Para ello, es indispensable comenzar con la formación de los profesionales de la salud, en particular, los estudiantes de medicina, es necesario potenciar el desarrollo de sus habilidades y competencias, no solo dominio del conocimiento científico, si no también pueda promoverlo, transferirlo y aplicarlo con impacto en la salud colectiva y que vaya a la par de los avances tecno-científicos. Es por ello, que surge la inquietud del fórum, discusión acerca del análisis de la enseñanza de la virología para enfrentar enfermedades emergentes en función de perfil del egresado. Se realizó encuesta a los estudiantes de los últimos diez años de la carrera de medicina de UNIANDES, sobre la biología, epidemiologia, respuesta inmunológica y diagnóstico, para mencionadas áreas de conocimiento se obtuvo, tanto en la evaluación objetiva estructurada y evaluación práctica, un nivel altamente satisfactorio. En la pirámide de Miller, se alcanzó nivel tres con conocimiento y desarrollo de habilidades, destrezas y actitudes del egresado satisfactorias. Sin embargo, los profesores de Virología están de acuerdo con innovar en la docencia integrando los contenidos transversalmente a las áreas de conocimiento: enfermedades infecciosas, clínicas, patologías, epidemiología y salud pública, lo que permitirá un aprendizaje integral para realizar abordaje adecuado de caso positivos de las virosis, además de tener capacidades para establecer vigilancia epidemiológica(AU)

In recent years, microorganisms have generated multiple evolutions, causing diseases and acute public health problems. In order to control virosis, it is necessary to know their biology and epidemiology, establish adequate treatment and prophylaxis for their control. For this, it is essential to start with the training of health professionals, in particular, medical students, it is necessary to promote the development of their skills and competencies, not only mastery of scientific knowledge, but also be able to promote it, transfer it and apply it with an impact on collective health and that goes hand in hand with techno-scientific advances. That is why the concern of the forum arises, a discussion about the analysis of the teaching of virology to face emerging diseases based on the profile of the graduate. A survey was conducted to the students of the last ten years of the UNIANDES medical career, on biology, epidemiology, immunological response and diagnosis, for mentioned areas of knowledge it was obtained, both in the objective structured evaluation and practical evaluation, a level highly satisfactory. In the Miller pyramid, level three was reached with satisfactory knowledge and development of abilities, skills and attitudes of the graduate. However, Virology professors agree with innovating in teaching by integrating the content transversally to the areas of knowledge: infectious diseases, clinics, pathologies, epidemiology and public health, which will allow comprehensive learning to carry out an adequate approach to positive cases of virosis, in addition to having the capacity to establish epidemiological surveillance(AU)

Virology in the Classroom: Current Approaches and Challenges to Undergraduate- and Graduate-Level Virology Education.

The pervasive effects of the current coronavirus disease 2019 pandemic are but one reason for educators to refocus their efforts on virology teaching. Additionally, it is critical to understand how viruses function and to elucidate the relationship between virus and host. An understanding of current virology education may improve pedagogical approaches for educating our students and trainees. Faculty who teach undergraduate microbiology indicate that approximately 10% of the course content features viruses; stand-alone virology courses are infrequently offered to undergraduates. Fortunately, virology taught to undergraduates includes foundational material; several approaches for delivery of lecture- and lab-based content exist. At the graduate education level, there is growing appreciation that an emphasis on logic, reasoning, inference, and statistics must be reintroduced into the curriculum to create a generation of scientists who have a greater capacity for creativity and innovation. Educators also need to remove barriers to student success, at all levels of education.

Novel primary literature-based alternative to comprehensive final examination for undergraduate virology course.

A novel approach is described using primary literature manuscripts for the final examination of an upper level undergraduate course in virology. This innovative technique was applied as an alternative to a core comprehensive final examination. A recent primary literature paper in virology was assigned several weeks before the end of the semester. Students were instructed to procure the electronic version of the manuscript, and to thoroughly read, highlight and outline the manuscript in advance. The examination was administered with an open book format and students were encouraged to bring laptops to access information as needed to answer questions. This primary literature-based examination format is presented here as an alternative to a comprehensive final exam. By comparing student examination scores for both final examination formats over a period of 11 years, it was determined that student performance was strong and not statistically different when compared to conventional comprehensive final examinations. Thus, the examination format described here was a useful assessment tool that provided students with valuable exposure to the discipline specific primary literature. While this article describes an application to an undergraduate virology course, the same examination techniques could be successfully applied to examinations in undergraduate or graduate classes in any areas of biochemistry and molecular biology.

Global Reach of an Online COVID-19 Course in Multiple Languages on OpenWHO in the First Quarter of 2020: Analysis of Platform Use Data.

BACKGROUND: At the onset of the coronavirus outbreak, the World Health Organization's (WHO) Health Emergencies Learning and Capacity Development Unit, together with the WHO's health technical lead on coronaviruses, developed a massive open online course within 3 weeks as part of the global response to the emergency. The introductory coronavirus disease (COVID­19) course was launched on January 26, 2020, on the health emergencies learning platform OpenWHO.org. OBJECTIVE: The aim of this paper is to investigate the geographic reach of different language courses accessed by a worldwide audience seeking information on COVID-19. Users' professional identities and backgrounds were explored to inform course owners on the use case. The course was developed and delivered via the open-access learning platform OpenWHO.org. The self-paced resources are available in a total of 13 languages and were produced between January 26 and March 25, 2020. METHODS: Data were collected from the online courses' statistical data and metrics reporting system on the OpenWHO platform. User patterns and locations were analyzed based on Google Analytics and the platform's own statistics capabilities, and data sets were overlaid. This analysis was conducted based on user location, with the data disaggregated according to the six WHO regions, the top 10 countries, and the proportion of use for each language version. Data included affiliation, gender, age, and other parameters for 32.43% (52,214/161,007) of the users who indicated their background. RESULTS: As of March 25, 2020, the introductory COVID-19 course totaled 232,890 enrollments across all languages. The Spanish language course was comprised of more than half (n=118,754, 50.99%) of all course enrollments, and the English language course was comprised of 38.21% (n=88,988) of enrollments. The WHO's Region of the Americas accounted for most of the course enrollments, with more than 72.47% (138,503/191,130) enrollment across all languages. Other regions were more evenly distributed with less than 10% enrollment for each. A total of 32.43% (52,214/161,007) of users specified a professional affiliation by choosing from the 12 most common backgrounds in the OpenWHO user profiles. Before the COVID-19 pandemic, users were spread over the 11 distinct affiliations, with a small fraction of users identifying themselves as "Other." With the COVID-19 introductory course, the largest number of users selected "Other" (16,527/52,214, 31.65%), suggesting a large number of users who were not health professionals or academics. The top 10 countries with the most users across all languages were Argentina, Chile, Colombia, Ecuador, India, Mexico, Peru, Spain, the United Kingdom, and the United States. CONCLUSIONS: The online course has addressed a worldwide learning need by providing WHO's technical guidance packaged in simple formats for access and use. The learning material development was expedited to meet the onset of the epidemic. Initial data suggest that the various language versions of the course, in particular Spanish, have reached new user groups, fulfilling the platform's aim of providing learning everywhere to anyone that is interested. User surveys will be carried out to measure the real impact.

Virus goes viral: an educational kit for virology classes.

BACKGROUND: Viruses are the most numerous entities on Earth and have also been central to many episodes in the history of humankind. As the study of viruses progresses further and further, there are several limitations in transferring this knowledge to undergraduate and high school students. This deficiency is due to the difficulty in designing hands-on lessons that allow students to better absorb content, given limited financial resources and facilities, as well as the difficulty of exploiting viral particles, due to their small dimensions. The development of tools for teaching virology is important to encourage educators to expand on the covered topics and connect them to recent findings. Discoveries, such as giant DNA viruses, have provided an opportunity to explore aspects of viral particles in ways never seen before. Coupling these novel findings with techniques already explored by classical virology, including visualization of cytopathic effects on permissive cells, may represent a new way for teaching virology. This work aimed to develop a slide microscope kit that explores giant virus particles and some aspects of animal virus interaction with cell lines, with the goal of providing an innovative approach to virology teaching. METHODS: Slides were produced by staining, with crystal violet, purified giant viruses and BSC-40 and Vero cells infected with viruses of the genera Orthopoxvirus, Flavivirus, and Alphavirus. Slides with amoebae infected with different species of giant viruses and stained with hemacolor reagents were also produced. RESULTS: Staining of the giant viruses allowed better visualization of the viral particles, and this technique highlights the diversity in morphology and sizes among them. Hemacolor staining enabled visualization of viral factories in amoebae, and the staining of infected BSC-40 and Vero cell monolayers with crystal violet highlights plaque-forming units. CONCLUSIONS: This kit was used in practical virology classes for the Biological Sciences course (UFMG, Brazil), and it will soon be made available at a low-cost for elementary school teachers in institutions that have microscopes. We hope this tool will foster an inspiring learning environment.

A Summary of the Fourth Annual Virology Education HIV Microbiome Workshop.

Each year, a growing international collection of researchers meets at the NIH to share and discuss developments in the microbiome HIV story. This past year has seen continued progress toward a detailed understanding of host-microbe interactions both within and outside the field of HIV. Commensal microbes are being linked to an ever-growing list of maladies and physiologic states, including major depressive disorder, chronic kidney disease, and Parkinson disease. PubMed citations for "microbiome" are growing at an exponential rate with over 11,000 in 2018. Various microbial taxa have been associated with HIV infection, and some of these taxa associated with HIV infection have also been associated with systemic markers of inflammation in HIV infected individuals. Causality remains unclear however as environmental and behavioral factors may drive HIV risk, inflammation, and gut enterotype. Much of the work currently being done addresses potential mechanisms by which gut microbes influence immune and inflammatory pathways. No portion of the microbiome landscape has grown as rapidly as study of the interplay between gut microbes and response to cancer immunotherapy. As Dr. Wargo discussed in her keynote address, this area has opened the door to better understanding on how commensal microbes interact with the human immune system.

Tips for a Successful Global Health Sabbatical.

There is a high demand for global health experiences among medical students. However, creating and engaging successful global health experiences for students is not without significant challenges for faculty. Lack of broad global health knowledge, first hand experiences in a variety of global health settings, and limited faculty engagement in global health activities at their home institutions may limit overall effectiveness. Thus, sabbaticals may provide unique opportunities for faculty reinvigoration and development of new teaching and/or research activities in global health. This viewpoint stems from my sabbatical experiences in South Africa and Botswana during the 2016-17 academic year and includes important tips for ensuring a successful global health sabbatical.

A biosafety level 2 virology lab for biotechnology undergraduates.

Medical, industrial, and basic research relies heavily on the use of viruses and vectors. Therefore, it is important that bioscience undergraduates learn the practicalities of handling viruses. Teaching practical virology in a student laboratory setup presents safety challenges, however. The aim of this article is to describe the design and implementation of a virology laboratory, with emphasis on student safety, for biotechnology undergraduates. Cell culture techniques, animal virus infection, quantification, and identification are taught at a biosafety level 2 for a diverse group of undergraduates ranging from 20 to 50 students per group. © 2017 by The International Union of Biochemistry and Molecular Biology, 45(6):537-543, 2017.

Virtual virus, a semester-long interdisciplinary project on the crossroads of creativity and knowledge integration.

Virtual virus is a semester-long interdisciplinary project offered as part of upper level elective course in virology. Students are challenged to apply key concepts from multiple biological sub-disciplines to 'synthesize' a plausible virtual virus. The project is executed as a scaffolded series of hands-on sessions and mini-projects that are integrated into continuous story leading to mock conference presentation and comprehensive report modeling article publication. It complements classroom instruction helping students to meet overarching learning targets traditionally associated undergraduate virology courses such as viral structure and function, mode of viral propagation and flow of genetic information and virus/host interactions on the cellular and organismal level. Formal instructor and informal peer feedback were used as tools to prompt reflection and guide revisions of the final report. Student learning gains and attitudes toward the approach were studied by evaluating project work product and end of the semester survey. Outcome analysis demonstrated that students exit the course with elaborated conceptual understanding of viruses and ownership of their work. The project can be viewed as an approach to model the process of scientific discovery in fast-forward mode by combining active learning, creativity and problem solving to assemble and communicate a virtual virus story.

Problem-based learning in laboratory medicine resident education: a satisfaction survey.

Theoretical knowledge in biology and medicine plays a substantial role in laboratory medicine resident education. In this study, we assessed the contribution of problem-based learning (PBL) to improve the training of laboratory medicine residents during their internship in the department of virology, Strasbourg University Hospital, France. We compared the residents' satisfaction regarding an educational program based on PBL and a program based on lectures and presentations. PBL induced a high level of satisfaction (100%) among residents compared to lectures and presentations (53%). The main advantages of this technique were to create a situational interest regarding virological problems, to boost the residents' motivation and to help them identify the most relevant learning objectives in virology. However, it appears pertinent to educate the residents in appropriate bibliographic research techniques prior to PBL use and to monitor their learning by regular formative assessment sessions.

Roots, Not Parachutes: Research Collaborations Combat Outbreaks.

Recent infectious disease epidemics illustrate how health systems failures anywhere can create disease vulnerabilities everywhere. We must therefore prioritize investments in health care infrastructure in outbreak-prone regions of the world. We describe how "rooted" research collaborations can establish capacity for pathogen surveillance and facilitate rapid outbreak responses.

Isolation and genetic analysis of an environmental bacteriophage: A 10-session laboratory series in molecular virology.

Bacterial viruses, otherwise known as bacteriophage (or phage), are some of the most abundant viruses found in the environment. They can be easily isolated from water or soil and are ideal for use in laboratory classrooms due to their ease of culture and inherent safety. Here, we describe a series of 10 laboratory exercises where students collect, isolate, and purify the genome of an environmental phage. Once the genome has been extracted, students then clone a fragment of their isolated phage genome into a plasmid and analyze its sequence to identify the phage in their original isolate. These exercises have been carefully designed to apply foundational concepts that will expose students to basic skills in microbiology, molecular biology, and bioinformatics.

Careers in virology: teaching at a primarily undergraduate institution.

A faculty position at a primarily undergraduate institution requires working with undergraduates in both the classroom and the research lab. Graduate students and postdoctoral fellows who are interested in such a career should understand that faculty at these institutions need to teach broadly and devise research questions that can be addressed safely and with limited resources compared to a research I university. Aspects of, and ways to prepare for, this career will be reviewed herein.