MEDMYST: Dissemination Phase II A Phase I grant, The Reconstructors Investigate Medical Mysteries, from the National Center for Research Resources (R25 RR15295) funded the creation and field-test of innovative web-based materials targeted for middle school students. The product has come to be known as MEDMYST.It is an episodic adventure series with accompanying classroom activities focusing on infectious diseases and the microbes that cause them. The MEDMYST materials consist of: a) web adventures; b) classroom activities; c) MEDMYST Magazine--all designed to engage students in problem-solving activities not likely to be encountered elsewhere. Each of these components is available free of charge on the web site (http://medmyst.rice.edu) and all components are aligned with the National Science Education Content Standards. An extensive field test involving over 700 students from 9 different schools tested the efficacy of these materials. The results, accepted for publication in American Society for Microbiology's Microbiology Education journal, indicated significant learning gains with exposure to the Internet component of the materials. In this Phase II application, the goals are: 1) To create a network of MEDMYST Dissemination Partners and Lead Teachers whose expertise and training will continue beyond the SEPA funding. 2) To amplify teaching of Infectious Disease related concepts though MEDMYST in middle school classrooms by training a minimum of 1200 teachers, who will teach approximately 150,000 students over a two-year period. 3) To evaluate the impact of MEDMYST teacher training and document the adoption process in classrooms. 4) To continue to promote MEDMYST in a variety of educational settings, such as homes, after-school programs, museums, and with links from other web sites. To accomplish these goals, we have formed partnerships with the University of Washington Educational Outreach, The Minnesota Science Museum, the John P. McGovern Museum of Health ad Medical Science, and the American Society for Microbiology.
We propose to leverage the power of the Internet and the appeal of on-line gaming environments for middle school students to create a new type of learning resource in science. Case histories of medical discovery will be transformed into "problem- based" multimedia mysteries for students to solve. Through prior research we have developed and field tested a working model for an adventure series that engages middle school students. We propose to extend the model to new content. Assuming the on-line role of a Reconstructor who seeks lost medical knowledge from the past, students will unravel the origins of specific diseases or medical discoveries. The learning objectives for each episode will be multidisciplinary. The goal is to engage students in constructing their own knowledge by participating in virtual experiments, by helping them establish a context for the discoveries, and by understanding issues involved in forming public health policy. An experienced team representing medicine, biology, history of science, education, and information technology will oversee the project, assuring the integrity of the site content, and incorporating cutting edge technology. A process of iterative prototyping, focusing heavily on teachers and students will be employed to make the resource site exciting, educational, and useful in classrooms, in homes, and in museums. The field tests will be conducted in schools, representing a cross-section of the community, assuring appropriate presentation of materials to target populations.
1. Build stepwise a prototype -Virtual Clinical Research Center- (VCRC) for K-12 learners and mentors (diverse peers, experts, and patients) by accessing, mobilizing, and linking the human and physical resources of a prototype national network of Clinical Research Centers (CRC) and translational laboratories through state-of-the-art Telemedicine communication and collaborative technologies and featuring T3 or the 3Ts - Teams, Technologies, Translation - of the Clinical Research Enterprise); 2. Develop the Medical Ignorance Exploratorium (MIEx) as a hybrid K-12 cybercafe-health science museum with key features of a) navigable, game-like, 3D environment including -Isles of Medical Ignorance- and -Questionator,- b) Resource Library, c) Live Performance Theater; and d) Collaboration Space, all to stimulate and guide student-centered inquiry about medical breakthroughs, clinical topics, and sick patients (featuring cyber Q3 or the 3Qs-Questions, Questioning, and Questioners); 3. Evaluate the impact and effectiveness of the curricular and delivery resources and models in SA1 and 2 as well as the dissemination in SA4; 4. Disseminate, embed, and expand the refined Virtual CRC and Medical Ignorance Exploratorium in K-12 schools, the clinical research community, and beyond.
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TEAM MEMBERS:
Marlys WitteGrace WagnerMichael Bernas
The Internet, specifically the World Wide Web (WWW), has the potential to deliver science education materials directly to classrooms, media centers, libraries and homes. The current application seeks to use this new technology through a collaborative effort of an active scientist and a group of middle school science teachers to develop, disseminate and evaluate educational materials related to neuroscience for use in middle school science classes. This project attempts to introduce new technologies into the science classroom, extend science education to include the information superhighway and increase parental involvement in their children's education. Materials will be integrated with the existing middle school science curriculum and will include l) on-line and off-line experiments and activities covering a range of topics in neuroscience, 2) a "virtal neuroscience laboratory", 3) an Internet neuroscience resource list and 4) a "Neuroscientist Network" consisting of active neuroscientists around the world who will serve as experts answering student questions. All activities will be designed will attention to being self-paced, hands-on, entertaining and to involve Cooperative learning. Both quantitative and qualitative methods will be used to evaluate the usage of the Intemet Neuroscience Resource. It is hoped that this project will serve as a model to other scientists and teachers and to encourage them to develop Internet resources in their own areas of expertise for use in the classroom.
This project will disseminate neuroscience materials to secondary school science teachers via a CD-ROM. These materials will be evaluated to 1) determine changes in student attitudes toward science; 2) to assess changes in student knowledge of neuroscience concepts and 3) to quantify how students and teachers are using the Internet Neuroscience Resource ("Neuroscience for Kids"). The Scientific Attitude Inventory-II will be used to evaluate middle school student attitudes toward science before and after exposure to the Neuroscience Resource. Pretesting and posttesting of middle school students will be performed to evaluate content knowledge of neuroscience-related concepts and principles. Questions that comprise the content evaluation inventory will be based on the guidelines and benchmarks established by the American Association for the Advancement of Science, the National Research Council, and the National Science Teachers Association. Prior to general distribution, pretests and posttests for both attitude and content knowledge will be evaluated for validity and reliability with pilot group of middle school students. An Internet version of the Neuroscience Resource will continue to be developed.
Field trips to science museums can provide students with educational experiences, particularly when museum programs emphasize scientific inquiry skill building over content knowledge acquisition. We describe the creation and study of 2 programs designed to significantly enhance students' inquiry skills at any interactive science museum exhibit without the need for advanced preparation by teachers or chaperones. The programs, called Inquiry Games, utilized educational principles from the learning sciences and from visitor studies of museum field trips. A randomized experimental design compared
The Massachusetts Linking Experiences and Pathways Follow-on (M-LEAP2) is a three-year longitudinal empirical research study that is examining prospectively how early formal and informal STEM education experiences are related to gender-based differences in STEM achievement-related choices in middle and high school. M-LEAP2 serves as a complement to - and extension of - a prior NSF-funded study, M-LEAP, which was a largely quantitative research study that followed overlapping cohorts of 3rd - 6th grade female and male students for three years. M-LEAP surveyed over 1,600 students, 627 student-parent pairs, and 134 second parents in 8 diverse public schools across Massachusetts. In contrast, M-LEAP2 is a heavily qualitative three-year study using in-depth interviews with a diverse range of 72 of these students and their families to study how formal and informal science experiences shape the students' science-related beliefs, interests, and aspirations as they progress though middle and high school.
In this article Bell, Tzou, Bricker, and Baines describe how formal and informal educational experiences can merge through three case studies of youth engaged in science and technology. The theory of “cultural learning pathways” reframes our understanding of how, why, and where people learn over time and across spaces that have varying cultural values, everyday practices, and hierarchies of privilege and marginalization.
This Barron and Bell article provides a foundational overview for how “cross-setting learning” can equitably engage all youth across formal and informal educational contexts. The paper offers: 1) a review of research; 2) descriptions of supports and challenges to cross-setting learning, including learner interest and identity; and 3) suggestions for research and assessments that capture learning for underrepresented youth.
Educators in informal science are exploring data visualization as a way to involve learners in analyzing and interpreting data. However, designing visualizations of data for learners can be challenging, especially when the visualizations show more than one type of data. The Ainsworth three-part DeFT framework can help practitioners design multiple external representations to support learning.
This Stocklmayer, Rennie, and Gilbert article outlines current challenges in preparing youth to go into science careers and to be scientifically literate citizens. The authors suggest creating partnerships between informal and formal education to address these challenges in school.
BioRAP is a health science newsletter developed for 6th to 8th grade youngsters. It was developed by the Education Committee of Connecticut United for Research Excellence (CURE) Inc. The newsletter arose in response to increasing requests from school teachers to CURE-s speaker bureau for presentations on certain health related topics. The newsletter was envisioned as a way to efficiently deliver up-to-date health science information in an interesting fashion. BioRAP is meant to be a user friendly, intellectually honest vehicle to provide emerging information on health, science, the scientific method and health science careers to middle school youngsters. Issues are presented in a standard format on heavy duty recycled paper. The eight pages of each issue include standard columns (i.e., Today-s Research Laboratory, Career Rap), a full page cartoon presentation of information, word games (i.e., crossword puzzles, word hunts), activities for students to do and a column of questions from other readers.