Science reporting in Accra, Ghana: sources, barriers and motivational factors.

In Ghana, as in many other developing countries, most science reporting is done by general reporters. However, few studies have investigated science reporting in such a situation. To understand better the dynamics of science reporting in such context, we surveyed 151 general reporters in Ghana. Respondents' demographic characteristics resembled those found in studies elsewhere. Respondents perceived health professionals and scientists as very important sources of information for reporting science. There was an inverse correlation between journalism experience and the number of science feature stories reported in the past 12 months (p=.017). Most respondents indicated that science journalism training would motivate them to report science more. Likewise, most reported that easier access to research findings would do so. We identify characteristics of reporters, media, scientific, and training institutions that are important influences of Ghanaian reporters' coverage of science. We provide recommendations for advancing science reporting in Ghana.

Short-Term Training with Basic Science Research Literature Advances Medical Students' Skills for Adaptive Expertise.

Physicians must adapt their learning and expertise to the rapid evolution of healthcare. To train for the innovation-efficient demands of adaptive expertise, medical students need to acquire the skill of adaptive self-regulated learning, which includes accessing, interpreting, and synthesizing emerging basic and translational research to support patient care. In response, we developed the course Medical Student Grand Rounds (MSGR). It engages all pre-clerkship students at our institution with self-regulated learning from translational basic research literature. In this report, we describe MSGR's methodology and important outcomes. Students found, interpreted, critically assessed, and presented basic research literature about self-selected clinically relevant topics. In less than one semester and mentored by basic science researchers, they completed eight milestones: (a) search research literature databases; (b) choose a clinical topic using searching skills; (c) outline the topic's background; (d) outline a presentation based on the topic's mechanistic research literature; (e) attend translational research-oriented grand rounds by faculty; (f) learn to prepare oral presentations; (g) write an abstract; and (h) present at Grand Rounds Day, emphasizing their topic's research literature. Graded milestones and end-of-course self-assessments indicated students became proficient in interpreting research articles, preparing and delivering presentations, understanding links among basic and translational research and clinical applications, and pursuing self-regulated learning. Qualitative analysis of self-assessment surveys found most students thought they progressed toward the learning objectives: find scientific information about a research topic (56% positive responses), interpret and critically assess scientific information (64%), and prepare and deliver a scientific presentation (50%). Milestones improve time management and provide a scaffolded method for presenting focused research topics. MSGR equips students with critical thinking skills for lifelong, adaptive, self-regulated learning-a foundation for adaptive expertise. The master adaptive learner cycle of planning, learning, assessing, and adjusting is a conceptual framework for understanding students' MSGR learning experiences.

Guiding Preclinical Medical Students in Finding, Synthesizing, and Communicating Translational Basic Research Literature: Roles for Basic Science Research Mentors.

PROBLEM: Understanding and communicating medical advances driven by basic research, and acquiring foundational skills in critically appraising and communicating translational basic research literature that affects patient care, are challenging for medical students to develop. APPROACH: The authors developed a mandatory course from 2012 to 2018 at Texas A&M University College of Medicine to address this problem. Medical Student Grand Rounds (MSGR) trains first-year students to find, critically assess, and present primary research literature about self-selected medically relevant topics. With basic science faculty mentoring, students completed milestones culminating in oral presentations. Students learned to search literature databases and then choose a clinical subject using these skills. They outlined the clinical subject area background and a mechanistic research topic into a clinical problem based on deeper evaluation of primary research literature. "Mechanistic" was defined in this context as providing experimental evidence that explained the "how" and "why" underlying clinical manifestations of a disease. Students received evaluations and feedback from mentors about discerning the quality of information and synthesizing information on their topics. Finally, students prepared and gave oral presentations, emphasizing the primary literature on their topics. OUTCOMES: In the early stages of the course development, students had difficulty critically assessing and evaluating research literature. Mentored training by research-oriented faculty, however, dramatically improved student perceptions of the MSGR experience. Mentoring helped students develop skills to synthesize ideas from basic research literature. According to grades and self-evaluations, students increased proficiency in finding and interpreting research articles, preparing and delivering presentations, and understanding links among basic and translational research and clinical applications. NEXT STEPS: The authors plan to survey fourth-year students who have completed MSGR about their perceptions of the course in the context of clinical experiences in medical school to guide future refinements.

Choosing a Journal for Submission: Don't Fall Prey.

The column in this issue is supplied by Barbara Gastel, MD, MPH, who is professor of veterinary integrative biosciences and of humanities in medicine at Texas A&M University, where she coordinates the graduate program in communicating science. Dr. Gastel obtained her medical and public health degrees from Johns Hopkins University. She is first author of the current edition of How to Write and Publish a Scientific Paper (ABC-CLIO, 2016).