The New York Hall of Science (NYSCI) will develop, test, market, and disseminate an interactive graphic novel iBook that will use the interests of young people (ages 10–14) in animals and comics to engage them in learning about health and clinical research. Provisionally called “Transmission: Astonishing Tales of Human-Animal Diseases,” the project represents a new approach to engaging young people in biomedical science learning.
Graphic novels are one of the fastest growing categories in publishing and bookselling, and today, they are significantly more sophisticated than the comics that came before them. They are also enormously popular among young people. The proposed graphic novel iBook will focus on the diseases that humans and animals share and pass between them (sometimes to devastating consequences), from Ebola, bird flu, and West Nile disease to influenza, measles, and pneumonia. Moreover, like many other contemporary graphic novels, it will address a pressing issue of the day—amely, the growth of zoonotic and anthropozoonotic diseases.
The iBook will be developed in a digital, interactive format (a growing trend within the genre) and, like many graphic novel titles, will take a mystery and forensic crime approach to exploring its content. Ultimately, Transmission will become a national model for conveying biomedical understanding through the use of up-to-the-minute interactive iBook technologies and an engaging graphic novel format.
For public health to improve, all sectors of society much have access to the highest quality health science news and information possible. How that information is translated, packaged and disseminated is important: the stories matter. Our journalism and mentoring program will grow the health science literacy of the nation by building the next generation of science communicators, ensuring that cadre of youth from historically disadvantaged groups have the discipline, creativity and critical thinking skills needed to be successful health science-literate citizens and advocates within their own communities.
Using a combination of youth-generated videos, broadcast reporting and online curriculum resources, PBS NewsHour will engineer successful educational experiences to engage students from all backgrounds, and particularly underserved populations, to explore clinical, biomedical, and behavioral research. The PBS NewsHour’s Student Reporting Labs program, currently in 41 states, will create 10 health science reporting labs to produce unique news stories that view health and science topics from a youth perspective. We will incorporate these videos into lesson plans and learning tools disseminated to the general public, educators and youth media organizations. Students will be supported along the way with curricula and mentorship on both fundamental research and the critical thinking skills necessary for responsible journalism. This process will ensure the next generation includes citizens who are effective science communicators and self-motivated learners with a deep connection to science beyond the textbook and classroom.
PBS NewsHour will develop a STEM-reporting curriculum to teach students important research skills. The program will include activities that expose students to careers in research, highlight a diverse assortment of pioneering scientists as role models and promote internship opportunities. The resources will be posted on the PBS NewsHour Extra site which has 170,000 views per month and our partner sites on PBS Learning Media and Share My Lesson—the two biggest free education resource sites on the web—thus greatly expanding the potential scope of our outreach and impact.
NewsHour broadcast topics will be finalized through our advisory panel and the researchers interviewed for the stories will be selected for their expertise and skills as effective science communicators, as well as their diversity and ability to connect with youth. Finally, we will launch an outreach and community awareness campaign through strategic partnerships and coordinated cross promotion of stories through social media platforms.
People of color who live in low income, urban communities experience lower levels of educational attainment than whites and continue to be underrepresented in science at all educational and professional levels. It is widely accepted that this underrepresentation in science is related, not only to processes of historical exclusion and racism, but to how science is commonly taught and that investigating authentic, relevant science questions can improve engagement and learning of underrepresented students. Approaching science in these ways, however, requires new teaching practices, including ways of relating cross-culturally. In addition to inequity in science and broader educational outcomes, people of color from low income, urban communities experience high rates of certain health problems that can be directly or indirectly linked to mosquitoes. Recognizing that undertaking public health research and preventative outreach efforts in these communities is challenging, there is a critical need for an innovative approach that leverages local youth resources for epidemiological inquiry and education. Such an approach would motivate the pursuit of science among historically-excluded youth while, additionally, involving pre-service, in-service, and informal educators in joint participatory inquiry structured around opportunities to learn and practice authentic, ambitious science teaching and learning.
Our long-term goal is to interrupt the reproduction of educational and health disparities in a low-income, urban context and to support historically-excluded youth in their trajectories toward science. This will be accomplished through the overall objective of this project to promote authentic science, ambitious teaching, and an orientation to science pursuits among elementary students participating in a university-school-community partnership promise program, through inquiry focused on mosquitoes and human health. The following specific aims will be pursued in support of the objective:
1. Historically-excluded youth will develop authentic science knowledge, skills, and dispositions, as well as curiosity, interest, and positive identification with science, and motivation for continued science study by participating in a scientific community and engaging in the activities and discourses of the discipline. Teams of students and educators will engage in community-based participatory research aimed at assessing and responding to health and well-being issues that are linked to mosquitoes in urban, low-income communities. In addition, the study of mosquitoes will engage student curiosity and interest, enhance their positive identification with science, and motivate their continued study.
2. Informal and formal science educators will demonstrate competence in authentic and ambitious science teaching and model an affirming orientation toward cultural diversity in science. Pre-service, in-service, and informal educators will participate in courses and summer institutes where they will be exposed to ambitious teaching practices and gain proficiency, through reflective processes such as video study, in adapting traditional science curricula to authentic science goals that meet the needs of historically excluded youth.
3. Residents in the community will display more accurate understandings and transformed practices with respect to mosquitoes in the urban ecosystem in service of enhanced health and well-being. Residents will learn from an array of youth-produced, culturally responsive educational materials that will be part of an ongoing outreach and prevention campaign to raise community awareness of the interplay between humans and mosquitoes.
These outcomes are expected to have an important positive impact because they have potential for improving both immediate and long-term educational and health outcomes of youth and other residents in a low-income, urban community.
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TEAM MEMBERS:
Katherine Richardson BrunaLyric Colleen Bartholomay
Recruiting more research scientists from rural Appalachia is essential for reducing the critical public health disparities found in this region. As a designated medically underserved area, the people of Appalachia endure limited access to healthcare and accompanying public health education, and exhibit higher disease incidences and shorter lifespans than the conventional U.S. population (Pollard & Jacobsen, 2013). These health concerns, coupled with the fact that rural Appalachian adults are less likely to trust people from outside their communities, highlights the need for rural Appalachian youth to enter the biomedical, behavioral, and clinical research workforce. However, doing so requires not only the specific desire to pursue a science, technology, engineering, math, or medical science (STEMM) related degree, it also requires the more general desire to pursue post-secondary education at all. This is clearly not occurring in Tennessee’s rural Appalachian regions where nearly 75% of adults realize educational achievements only up to the high school level. Although a great deal of research and intervention has been done to increase students’ interest in STEMM disciplines, very little research has considered the unique barriers to higher education experienced by rural Appalachian youth. A critical gap in past interventions research is the failure to address these key pieces of the puzzle: combatting real and perceived barriers to higher education and STEMM pursuits in order to increase self-efficacy for, belief in the value of, and interest in pursuing an undergraduate degree. Such barriers are especially salient for rural Appalachian youth.
Our long-range goal is to increase the diversity of biomedical, clinical and behavioral research scientists by developing interventions that both reduce barriers to higher education and increase interest in pipeline STEMM majors among rural Appalachian high school students. Our objective in this application is to determine the extent to which a multifaceted intervention strategy combining interventions to address the barriers to and supports for higher education with interventions to increase interest in STEMM fields leads to increased intentions to pursue an undergraduate STEMM degree. Our hypothesis is that students who experience such interventions will show increases in important intrapersonal social-cognitive factors and in their intentions to pursue a postsecondary degree than students not exposed to such interventions. Based on the low numbers of students from this region who pursue post-secondary education and the research demonstrating the unique barriers faced by this and similar populations (Gibbons & Borders, 2010), we believe it is necessary to reduce perceived barriers to college-going in addition to helping students explore STEMM career options. In other words, it is not enough to simply offer immersive and hands-on research and exploratory career experiences to rural Appalachian youth; they need targeted interventions to help them understand college life, navigate financial planning for college, strategize ways to succeed in college, and interact with college-educated role models. Only this combination of general college-going and specific STEMM-field information can overcome the barriers faced by this population. Therefore, our specific aims are:
Specific Aim 1: Understand the role of barriers to and support for higher education in Appalachian high school students’ interest in pursuing STEMM-related undergraduate degrees. We will compare outcomes for students who participate in our interventions, designed to proactively reduce general college-going barriers while increasing support systems, to outcomes for students from closely matched schools who do not participate in these interventions to determine the extent to which such low-cost interventions, which can reach large numbers of students, are effective in increasing rural Appalachian youth’s intent to pursue STEMM-related undergraduate degrees.
Specific Aim 2: Develop sustainable interventions that decrease barriers to and increase support for higher education and that increase STEMM-related self-efficacy and interest. Throughout our project, we will integrate training for teachers and school counselors, nurture lasting community partnerships, and develop a website with comprehensive training modules to allow the schools to continue implementing the major features of the interventions long after funding ends.
This research is innovative because it is among the first to recognize the unique needs of this region by directly addressing barriers to and supports for higher education and integrating such barriers-focused interventions with more typical STEMM-focused interventions. Our model provides opportunities to assess college-going and STEMM-specific self-efficacy, outcome expectations, and barriers/supports, giving us a true understanding of how to best serve this group. Ultimately, this project will allow future researchers to understand the complex balance of services needed to increase the number of rural Appalachians entering the biomedical, behavioral, and clinical research science workforce.
Hexacago Health Academy (HHA) is a game-based science and health curriculum intervention. HHA engages high school students in learning about and addressing major sexual and reproductive health issues and risk behaviors. A board game, Hexacago, depicting the city of Chicago with an overlay of hexagons is the cornerstone of HHA. Students use the board design games and think critically about public health problems in the city of Chicago. HHA uses game-play, interaction with STEM science and health professionals, and mentoring to create a rich, game-based learning experience for high school students. The object of HHA is to improve academic performance, increase science and health career interest, and improve health behaviors among youth living in Chicago.
Public Television station WQED/Pittsburgh, in partnership with five medical research and clinical centers, proposes to develop, test and distribute a national biomedical video education program based on "The Universe Within," a planned PBS series. The project is intended to bring scientists and clinicians into closer contact with pre-college students to study human body systems and increase career interest in the life sciences. Designed to improve science education and literacy, the project will also enhance overall appreciation of achievements in biomedicine. Using advanced television, photographic and animation techniques, the project will create a collection of educational tools for use by science and health teachers as well as by scientific investigators and clinicians. These modules will demonstrate how most of the body's primary systems function and how they can be kept healthy. The approach will combine visual and print curriculum materials with the personal presence of medical scientists, thus providing an opportunity for students to develop interest, critical thinking and problem-solving skills. This flexible educational package can be updated as important new changes occur in medical science, thus extending the life of costly materials. In addition, through multiple narration tracks, the video elements can be customized for various levels of age and grade instruction.
Through "Addressing the Science of Really Gross Things: Engaging Young Learners in Biomedical Science Through a Fulldome Planetarium Show and Supporting Curricula," Morehead Planetarium and Science Center at the University of North Carolina at Chapel Hill, in close collaboration with NIH-funded researchers at the UNC and a leading children's book author, will develop an informal science education media project and a suite of hands-on, inquiry-based curricula based on the media project for use in science centers, museums and schools. This project will build the pipeline of future researchers and create awareness of NIH-funded research by generating interest and excitement among children age 9-13 in the health sciences and related careers and building their science content knowledge. To achieve the objective, the investigators will develop a fulldome planetarium show; create correlating curricula for summer camps, afterschool programs, scout programs, science center field trips, science clubs and schools; and produce a DVD highlighting careers in the health sciences. In addition, the project will use several methods to target populations traditionally underrepresented in the biomedical fields, including featuring professionals from underrepresented populations in the multimedia and curricula products, making outreach visits to counties with large populations traditionally underrepresented in health science research careers, and producing a Spanish-language version of the products. The use of a known brand, "Grossology," is an innovative way to connect to children in the target age range and to encourage the informal science education community to embrace health-science content in their fulldome theaters. In addition, the project's hub-and-spoke approach further encourages adoption of this programming by providing informal science venues with both an engaging experience (hub) and the supporting curricula (the spokes) that is necessary to extend the show's potential for having significant educational impact. A strong project team maximizes the project's likelihood for success. The team includes fulldome producers and educators from Morehead and NIH-funded researchers with expertise in appropriate science content areas. In addition, the investigators have created a network of consultants, advisory board members and evaluators that will create feedback loops designed to ensure high-quality, scientifically-accurate, educationally-effective products. The investigators will use a combination of free and revenue-based dissemination strategies to ensure that the products of this award are broadly distributed. These strategies hold significant promise for creating broad use of this project's products in the nation's science centers, museums and classrooms.
This Phase I SEPA proposal supports a consortium of science and education partners that will develop System Dynamics (SD) computer models to illustrate basic health science concepts. The consortium includes Oregon Health Sciences University (OHSU), Portland Public Schools (PPS), Saturday Academy, and the Portland VA Medical Center. SD is a computer modeling technique in which diagrams illustrate system structure and simulations illustrate system behavior. Desktop computers and commercial software packages allow SD to be applied with considerable success in K-12 education. NSF grants to Portland Public Schools have trained over 225 high school teachers in Portland and surrounding areas. Two magnet programs have been established with an emphasis on systems and at least five other schools offer significant systems curriculum. Major components of this project include (1) Annual summer research internships at OHSU for high school teachers and high school students, (2) Development of SD models relevant to each research project, (3) Ongoing interactions between high school science programs and OHSU research laboratories, (4) Development of curriculum materials to augment the use of the SD model in the high school classroom or laboratory setting, and (5) Development of video materials to support the classroom teacher. Content will focus on four fundamental models: linear input/exponential output, bi-molecular binding (association/dissociation), population dynamics, and homeostasis. Each of these models is very rich and may be extended to a broad variety of research problems. In addition these models may be combined, for example to illustrate the effect of drugs (binding model) on blood pressure (homeostasis model). System Dynamics is an exemplary tool for the development of materials consistent with National Science Education Standards. SD was specifically developed to emphasize interactions among system structure, organization, and behavior. Students use these material as part of inquiry-based science programs in which the teacher serves as a guide and facilitator rather than the primary source of all content information; technical writing by students is also encouraged. Finally, these SD materials will provide a coherent body of work to guide the ongoing professional development of the classroom science teacher.
Serial Passage: AIDS, Race, and Culture. is a 3-4 hour documentary film series and curriculum enhancement that examines the process of scientific inquiry in the development of the serial passage/contaminated needle theory of the origin of HIV/AIDS as well as the disproportionate impact of the pandemic upon Africans and African-Americans. The long term objective of the documentary film series/curriculum enhancement is to foster a heightened awareness of the need for HIV prevention among African-Americans, particularly teenagers, who are at high risk for contracting HIV, and who have often proved unresponsive to traditional HIV prevention messages. African-Americans constitute 12.1 % of the US population but account for almost 50% of the new HIV/AIDS cases. The documentary film series is being made with a small cohort of 20 inner-city African-American high school students in Pittsburgh, Pennsylvania. The students work on the documentary series as footage evaluators, apprentice filmmakers, and will ultimately be its narrative voice. They are also research subjects. An interim evaluation report showed a dramatic increase in the students' perceived knowledge of HIV/AIDS, and a substantial decrease in their reported sexual activity. A widespread and scientifically significant Phase II evaluation of this project would be conducted via pre and post anonymous surveys administered to African-American teenagers, (high school students), and matching control groups. The ABC and PBS networks have already agreed to screen the documentary series for broadcast consideration. The Phase II application proposes to 1) complete editing and postproduction of the documentary series, and 2) work with curriculum writers and an educational video distribution company on the development and dissemination of the documentary series/curriculum enhancement.
Serial Passage: AIDS, Race, and Culture is a multi-part documentary series. The Long-term goals are: 1) to produce a documentary series exploring the specific and devastating impact of H.I.V./AIDS upon Africans and African-Americans; and 2) to create a heightened understanding of the need for H.I.V. prevention among the high-risk group of young, inner-city African-Americans who've so far proved unresponsive to available public health information. Specific Aims: 1) To deconstruct the racial stigma of AIDS, and scientifically confront the conspiracy theories which are firmly linked to the disease in black America, and in Africa; and 2) to work with an inner-city high school science class, actively involving them in the making of the series. Research Design and Methods: 1) To document on film the process of scientific inquiry which led two prominent researchers to their theory on the origin of AIDS; 2) To document on film the social impact of H.I.V/AIDS upon specific African countries, including Uganda and South Africa, and upon African-American communities in the United States; 3) To periodically screen footage of the documentary for the high school class and conduct videotaped discussions between the students and the scientists throughout one academic year; and 4) To give the students a videotaped questionnaire at the beginning and end of the year designed to measure how much they learn about AIDS and its impact upon their particular community.
The primary purpose of the proposed grant is to support the dissemination and institutionalization of a model of educational partnerships among academic medical centers, undergraduate colleges, and local school systems. This model was created under the umbrella of AAMC's Project 3000 by 2000 . With support from SEPA, during 1994-1997 we will consolidate and extend the accomplishments we achieved under our original SEPA, 1991-1994 (SEPA-I). In 1991, the AAMC began Project 3000 by 2000 . The activities included in this proposal support Project 3000 by 2000 , but are not designed to only recruit students for medical school. Minority underrepresentation in medical schools largely is due to the same fundamental problem that causes minority underrepresentation in health-related Ph.D. programs: an insufficient number of minority students receive adequate academic preparation-especially in the sciences-prior to college. The projects proposed here are designed to address this basic problem and hence promote greater racial and ethnic diversity in all of the health sciences. Eight programmatic activities are proposed, five of which were initiated during SEPA I: (1) The annual publication of the Secondary School Science Minority Achievement Registry (S 3 MAR) , a directory of educational programs for minority students interested in the health sciences and a registry of the students participating in them; (2) NNHeSPA News , the quarterly newsletter of the National Network for Health Science Partnerships ( NNHeSPA) ; (4) An update of the Project 3000 by 2000 Technical Assistance Manual (Volume II); (5) Presentations to a wide variety of groups and strategically targeted customized data analysis. New projects include: (6) NNHeSPA On Line!, a computer bulletin board accessible through the Internet to facilitate ongoing communication among precollege, college and graduate health science educators in NNHeSPA ; (7) S 3 MAR Grapevine , a quarterly newsletter for high school stuents listed in the S 3 MAR ; (8) Intensive regional campaigns to promote health science partnerships in California, Texas, and the South-three areas of the country with large minority populations and severe problems of underrepresentation.
Goals: 1) Increase the number of Alaskans from educationally and/or economically disadvantaged backgrounds, particularly Alaska Natives, who pursue careers in health sciences and health professions and 2) Inform the Alaskan public about health science research and the clinical trial process so that they are better equipped to make healthier lifestyle choices and better understand the aims and benefits of clinical research. Objectives: 1) Pre-med Summer Enrichment program (U-DOC) at UAA (pipeline into college), 2) Statewide Alaska Student Scientist Corps for U-DOC, 3) students (pipeline into college), 4) Facility-based Student Science Guide program at Imaginarium Science Discovery Center, 5) Job Shadowing/Mentorship Program for U-DOC students and biomedical researchers, 6) Research-based and student-led exhibit, demonstration, and multi-media presentations, 7) Professional Development for educators, 8) North Star Website.