Habitable Worlds: Delivering on the Promises of Online Education.

Critical thinking and scientific reasoning are central to higher education in the United States, but many courses (in-person and online) teach students information about science much more than they teach the actual process of science and its associated knowledge and skills. In the online arena specifically, the tools available for course construction exacerbate this problem by making it difficult to build the types of active learning activities that research shows to be the most effective. Here, we present a report on Habitable Worlds, offered by Arizona State University for 12 semesters over the past 6 years. This is a unique online course that uses an array of novel technologies to deliver an active, inquiry-driven learning experience. Learning outcomes and quantitative data from more than 3000 students demonstrate the success of our approach but also identify several remaining challenges. The design and development of this course offers valuable lessons for instructional designers and educators who are interested in fully capitalizing on the capabilities of 21st-century technology to achieve educational goals. Key Words: Online education-Active learning-SETI-Astrobiology-Teaching. Astrobiology 17, 86-99.

Cytopathology whole slide images and virtual microscopy adaptive tutorials: A software pilot.

BACKGROUND: The constant growth in the body of knowledge in medicine requires pathologists and pathology trainees to engage in continuing education. Providing them with equitable access to efficient and effective forms of education in pathology (especially in remote and rural settings) is important, but challenging. METHODS: We developed three pilot cytopathology virtual microscopy adaptive tutorials (VMATs) to explore a novel adaptive E-learning platform (AeLP) which can incorporate whole slide images for pathology education. We collected user feedback to further develop this educational material and to subsequently deploy randomized trials in both pathology specialist trainee and also medical student cohorts. Cytopathology whole slide images were first acquired then novel VMATs teaching cytopathology were created using the AeLP, an intelligent tutoring system developed by Smart Sparrow. The pilot was run for Australian pathologists and trainees through the education section of Royal College of Pathologists of Australasia website over a period of 9 months. Feedback on the usability, impact on learning and any technical issues was obtained using 5-point Likert scale items and open-ended feedback in online questionnaires. RESULTS: A total of 181 pathologists and pathology trainees anonymously attempted the three adaptive tutorials, a smaller proportion of whom went on to provide feedback at the end of each tutorial. VMATs were perceived as effective and efficient E-learning tools for pathology education. User feedback was positive. There were no significant technical issues. CONCLUSION: During this pilot, the user feedback on the educational content and interface and the lack of technical issues were helpful. Large scale trials of similar online cytopathology adaptive tutorials were planned for the future.

Evaluation of an adaptive virtual laboratory environment using Western Blotting for diagnosis of disease.

BACKGROUND: Providing large numbers of undergraduate students in scientific disciplines with engaging, authentic laboratory experiences is important, but challenging. Virtual laboratories (vLABs) are a potential means to enable interactive learning experiences. A vLAB focusing on Western Blotting was developed and implemented in a 3rd year undergraduate Pathology course for science students to facilitate learning of technical molecular laboratory skills that are linked to development of diagnostic skills. Such skills are important for undergraduates in building a conceptual understanding of translation of laboratory techniques to changes in human biology due to disease. METHODS: The Western Blotting vLAB was developed and deployed using the Adaptive eLearning Platform (AeLP) developed by Smart Sparrow (https://www.smartsparrow.com/). The vLAB was evaluated to assess students' perceptions of their laboratory skills relevant to the diagnosis of Muscular Dystrophy. A blended learning rotation model was applied in which wet laboratory and vLAB environments for Western Blotting were both delivered to three consecutive cohorts of 3rd year science undergraduates undertaking a Muscle Diseases practical class. Evaluation questionnaires were administered at the completion of the practical classes. RESULTS: Students indicated in online questionnaires that the Western Blotting vLAB was at least equivalent to the real lab in their perceived development of concepts, laboratory skills and diagnosis of disease. CONCLUSIONS: vLABs have great potential for improving students' development of diagnostic skills. Further studies are required to determine the impact of vLABs on student learning.