Science Club is an after school program created in partnership between Northwestern University and the Boys & Girls Clubs of Chicago. Every week throughout the academic year, middle school youth (grades 5-8) work in small groups with their graduate student mentors on challenging, hands-on experiments. The six Science Club curricular modules cover topics ranging from biomedical engineering to food science, all with the goals of helping youth to 1) improve their understanding of the scientific method, 2) develop scientific habits of mind, and 3) increase their interest in STEM fields, particularly health-related careers. Science Club serves 60 youth every quarter with the help of 30 trained scientist mentors. Science Club meets three days a week at the Pedersen-McCormick Boys & Girls Club in Chicago, IL.
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.
The Great Lakes Science Center, in collaboration with Case Western Reserve University (CASE), proposes to develop a permanent exhibition and related programs on biomedical engineering. The successful implementation of this project would allow CASE and GLSC to inform a broad constituency about select biomedical research advancements, applied technologies, and their relevance to society. When the project is completed, we will be able to expose many thousands of visitors each year to the updated exhibition - increasing their interest in and understanding of important science concepts underlying advancements in biomedical technology. The exhibition would encompass approximately 2000 square feet and feature approximately 20 exhibits, most of which would be interactive. The major audiences for the exhibition include families, school groups, and general museum visitors. The BioMedTech exhibition is located on the Science Center's main floor, which places an emphasis on the science and technology of particular importance to Northeast Ohio. The exhibition will be accompanied by educational programming, public programs, and wide dissemination around the region and within the Science Center world. When fully implemented, the project could reach many hundreds of thousands of visitors and garner national attention through dissemination efforts. Visitors to the exhibition and participants in related programs will come to a better understanding of the connections between biology and technology while learning of science and engineering's role in improving the quality of life in our society.
The American Museum of Natural History requests SEPA support for a five-year development and implementation project entitled "Human Health and 'Human Bulletins': Scientists and Teens Explore Health Sciences in the Museum and World At Large." The program has three complementary components: (1) the development of 7 new productions for the Museum's digital media/documentary exhibition program, Human Bulletins http://sciencebulletins.amnh.org) featuring the newest health-related research; (2) a mini-course, entitled Hot Topics in Health Research NOW, an intensive after school program covering genetics, epidemiology, human health and human evolution, including a section on ethics in research; and (3) A "drop-in" Human Bulletins Science Club, where students meet monthly to watch a Human Bulletin visual news program, engage in informal discussions with significant researchers in the fields of evolutionary science and human health. The main goals of this project are: (1) to inform young people about emerging health-related research by using the Human Bulletins as core content for programming and points of engagement; (2) to promote a life-long interest in science among participants by teaching them how health-related science research could potentially affect them or their families; (3) to empower teens to critically assess the science presented to them in the Museum and in the world at large by teaching them to break down the "information bytes" of the Human Bulletins and to analyze how stories are presented visually and how to find answers to questions raised by the Bulletins; (4) for the young people in the program to see themselves as participants in the Museum by developing "mentor" relationships with Museum staff. This will allow students to see AMNH as an enduring institution to be used as a resource throughout their education and careers; and (5) to give students the means to envision themselves with future careers in science, research and in museums (thus fostering new generation of culturally-diverse, culturally enriched scientific leaders) by introducing them to scientists in an informal setting where there are no consequences for making mistakes or asking questions. The students will be given "behind the scenes" looks at new career options through the scientists featured in the Bulletins and the NIH funded researchers on the Advisory Board presenting at the informal sessions. Ultimately, the project aims to give students to critically process the information they receive about public health, see the relevance of human health science to their lives and pursue careers in health science. All of these skills are measurable through formative and summative evaluation. This project will teach young people to understand information about public health that is presented to them through visual and popular media as well as through formal scientific texts. It will also teach them to think about how human health sciences impact their lives and how the decisions they make impact larger human health. Finally, the program will also encourage students to pursue careers and further information about public health.
Children's Hospital Oakland Research Institute (CHORI), in collaboration with the Hall of Health, a hands-on health museum, proposes a two year, Phase II SEPA project entitled Health and Biomedical Science for a Diverse Community. The purpose of this project is to disseminate (1) "Your Genes and Your Choices," a unique, interactive exhibit on social and genetic factors in health, and (2) a 4th and 5th grade health and biomedical science curriculum. The exhibit and curriculum were developed during Phase I. "Your Genes and Your Choices, "which has eight interactive stations and has been piloted at the Hall of Health, is designed for small science museums and health education centers. It will travel to four venues nationwide during Phase II and remain available to other venues after the grant ends. The innovative, activity based curriculum consists of eight instructional units that introduce students to scientific concepts and investigation in the context of the study of diseases and health conditions that disproportionately affect minority populations. The topics are: Fourth Grade: Unit 1: Nutrition: Balance and Imbalance (Obesity); Unit 2. Traumatic Brain Injuries; Unit 3. Infectious Diseases and Immunity; Unit 4. Environmental Toxics: Poisoning Prevention. Fifth Grade: Unit 1. Nutrition: Diabetes; Unit 2. Asthma and Lung Disease; Unit 3. Heart Disease; and Unit 4. Sickle Cell Anemia and Genetics. Each unit consists of five one hour lessons. The curriculum was piloted during Phase I, both in the classroom and in an after school science club, at two elementary schools serving predominantly minority children in Oakland, California. Now we propose to: (1) disseminate the curriculum via science clubs to ten elementary schools in Oakland and Berkeley; (2) offer a series of educator workshops to enhance the skills of teachers and after school personnel to teach scientific investigation and to incorporate the latest findings in biomedical science across the curriculum; and 3) hold family science festivals at each participating school to introduce parents to the topics of the science clubs. The festivals will include hands-on activities, talks by CHORI researchers, and focused discussions with healthcare providers on issues relating to minority health. This project involves clinical as well as basic science investigators, healthcare providers, teachers and health educators, high school and college students, and faculty from San Francisco State University and the University of California at Berkeley. The ultimate goals are to make science interesting and relevant to children who come from ethnically diverse, low income environments; to help them meet state and national objectives for learning in health, science, and scientific inquiry; to help them and their parents understand the relationship between science and health; and to foster their interest in science, so that they may consider future careers related to biomedical science. All project activities will be assessed through formative and summative evaluation. The science clubs will remain in place at the ten participating schools after Phase II funding ends, and the curriculum and evaluation tools will be posted on the internet, and thereby available to others.
Having developed the concept of near-peer mentorship at the middle school/high school level and utilized it in a summer science education enhancement program now called Gains in the Education of Mathematics and Science or GEMS at the Walter Reed Army Institute of Research (WRAIR), it is now our goal to ultimately expand this program into an extensive, research institute-based source of young, specially selected, near-peer mentors armed with kits, tools, teacher-student developed curricula, enthusiasm, time and talent for science teaching in the urban District of Columbia Public Schools (specific schools) and several more rural disadvantaged schools (Frederick and Howard Counties) in science teaching. We describe this program as a new in-school component, involving science clubs and lunch programs, patterned after our valuable summer science training modules and mentorship program. Our in-house program is at its maximum capacity at the Institute. Near-peer mentors will work in WRAIR's individual laboratories while perfecting/adapting hands-on activities for the new GEMS-X program to be carried out at McKinley Technology HS, Marian Koshland Museum, Roots Charter School and Lincoln Junior HS in DC, West Frederick Middle School, Frederick, MD and Folly Quarter Middle School and Glenelg HS, in Howard County, MD. Based on local demographics in these urban/rural areas, minority and disadvantaged youth, men and women, may choose science, mathematics, engineering and technology (SMET) careers with increasing frequency after participating, at such an early age, in specific learning in the quantitative disciplines. Many of these students take challenging courses within their schools, vastly improve their standardized test scores, take on internship opportunities, are provided recommendations from scientists and medical staff and ultimately are able to enter health professions that were previously unattainable. Relevance to Public Health: The Gains in the Education of Mathematis and Science (GEMS) program educates a diverse student population to benefit their science education and ultimately may improve the likelihood of successfully entry into a health or health-related professions for participating individuals. Medical education has been show to improve public health.
This project brings real scientific research into the public domain by establishing a research laboratory in a museum setting where visitors not only enroll in the study, they help shape it through their work as citizen scientists. Findings from the study will increase the public understanding of how genetic research translates into meaningful personal information that can be used to better understand personal health risks and opportunities. In a community-based participatory research laboratory, school-aged children and their families will participate in an authentic research project on the genetics of taste. In a series of simple but highly specific taste tests, participants will learn which gene variations they possess and how these variations influence how they taste foods. Taste function has been increasingly linked to human health, in that variability in taste sensation correlates with, and may in part be causal for, major health problems, including cardiovascular disease and obesity. Interactive exhibit components will inform participants about the scientific process, the principles of genetics, the human genome project and genetic variation. Teaching the public about their genetic profile and its influence on taste may have a positive impact on major health threats such as cardiovascular disease and obesity. The data collected from museum visitors who choose to enroll in the study will be sent to the museum's academic partners for further analysis and inclusion in their ongoing research analysis and publications. This laboratory experience not only engages and educates the public, but also advances the research enterprise and offers a vivid model for how to translate research into the public domain.
This project will introduce students ages 8-14, including underserved students; their teachers and families; and the general public to three biomedical research areas inspired by NIH's Roadmap for Medical Research: biological pathways, bioinformatics and nanomedicine. These areas are unfamiliar to many adults and are not introduced in science curricula. Using the metaphor of a hardware store (i.e., building materials, tools, parts, home repair projects), the project will introduce families, students and teachers to three ideas: (1) The body maintains and repairs itself at the molecular, cell, tissue, organ and system levels; (2) Biomedical researchers are uncovering new complexities at the molecular level that can increase our understanding of how the body works; and (3) Developments in nanomedicine can lead to discoveries and treatments. In a hardware store theater and workshop space and in a virtual hardware store, the project will develop and present demonstrations and basic- and intermediate-level labs (for 2nd- and 6th-grade students or families); train museum staff and interns to present the programs; offer orientation workshops to teachers from Title I schools; develop a teacher's guide; conduct outreach in middle schools; engage scientists to talk about their work and help them communicate with the public; and create a manual of materials and activities for other science centers. The evaluation plan will include formative research on activities and assessment of how well repair metaphors facilitate understanding of clinical issues. A team of scientists, museum staff, science teachers, and biology and medical students will guide the development of education components.
This cooperative effort among Purdue University, public schools in Indiana, and The Children's Museum of Indianapolis aims to develop, evaluate and disseminate educational programs for K-12 students, parents, teachers and the public about the science involved in keeping people healthy. Obesity prevention, cancer prevention and asthma will be emphasized. Fitness programs, research programs using animal models, K-12 outreach programs, professional development workshops and recruiting efforts will be networked to fill gaps in health science education, interest schoolchildren in health science research and improve public health. This project will develop and rigorously assess curricular modules for grades three, six and nine. The science behind health advances, the clinical trials process and the role of animals in developing drugs and medical devices will be addressed. In addition, the project will engage schoolchildren in becoming health science researchers by providing them with role models. Researchers will interact with K-12 students during classroom visits, camps and after-school programs. Finally, the project will involve and engage children, parents and the public in educational fitness activities and programs. Dogs will be incorporated into fitness programs as exercise companions. The program includes an interactive traveling exhibit, highlighting the science involved in keeping people healthy.
The Science Museum of Minnesota (SMM)--in collaboration with scientists at the University of Minnesota's Center for Infectious Disease Research and Policy and Academic Health Center; the Minnesota Department of Health, and the Minnesota Antibiotic Resistance Collaborative--requests a Phase 1/11five-year SEPA grant of $1,250,000 to develop a traveling museum exhibition and web site that highlight the fascinating science behind the outbreaks of emerging and re-emerging infectious diseases that are changing and shaping our way of life in the 21st century. Topics to be covered will include the emergence of new illnesses like SARS and Avian Influenza and the re-emergence of drug-resistant infections that were once curable but now can be fatal. An Infectious Disease Advisory Panel and Content Experts representing the collaborating institutions listed above and others will guide museum staff in the development of these exhibits and programs. EMERGING INFECTIOUS DISEASES will be a 1,500 square-foot special exhibition to be installed in SMM's Human Body Gallery in spring 2007. After an 18-month presentation, it will begin a tour to five medium size science centers over two years. In addition to the exhibition and its complementary web site, special programming will be targeted to reach specific audiences, including: K-12 school groups visiting the museum (a user guide with on-line pre- and post-visit activities aligned with state and National Science Education Standards); K-12 classroom teachers (Curriculum Enhancement Institutes); and outreach programs serving after-school programs for children in under-served inner-city neighborhoods. A focus on areas of ongoing research will be used to highlight how far we have come in understanding the complex world of infectious diseases and how far we must go in treatment or elimination of present day health threats.
Adolescents face many conflicting messages and influences related to high-risk behavior. Choices confronting middle school students often have the potential for adverse effects on their overall health and well being. Montshire Museum proposes to develop an educational outreach program to allow students an opportunity to learn about key health issues in a context that is based on high-quality research and offers hands-on inquiry and self-directed investigations. The proposed educational outreach program will serve students in grades 5-8 in rural Vermont and New Hampshire schools. The project team will create four health education modules, each one related to current NIH-supported research by faculty at Dartmouth Medical School (DMS). DMS researchers will collaborate with Montshire Museum's science educators in developing the modules, connecting with students and teachers, and providing support for all aspects of the project. For each module, the project team will support hands-on classroom investigations and independent research using materials, objects and exhibits developed specifically for the program. In addition, professional development institutes for middle school health and science educators will provide science content and instructional strategies needed to successfully implement health science lessons that are aligned with national and state standards for health and science education. The curriculum materials developed for school-based programming also create opportunities for broader public outreach. Montshire's educators will adapt them for special family activities and presentations within the museum setting. The educational curriculum will be designed to provide all participants with information that will assist in making personal health decisions in the subject areas; raise participants' awareness of the ways that culture and media affect their choices; and expose participants to the interesting and relevant research taking place locally, while increasing their understanding of the diversity of health science careers and research processes. A thorough process of formative and summative evaluation will enable the project team to take an iterative approach to curriculum development and to provide the best possible learning experience for participants.