Contributions of Neuroscience Knowledge to Teachers and Their Practice.

While neuroscience has elucidated the mechanisms underpinning learning and memory, accurate dissemination of this knowledge to teachers and educators has been limited. This review focuses on teacher professional development in neuroscience that harnessed the power of active-learning strategies and best educational practices resulting in increased teacher and student understanding of cognition and brain function. For teachers, the experience of learning a novel subject in an active manner enabled them to subsequently teach using similar strategies. Most important, participants viewed neuroscience as a frame for understanding why active-learning pedagogies work to engage and motivate students. Teachers themselves made connections applying neuroscience concepts to understand why learner-centered pedagogies are effective in promoting higher order thinking and deep learning in their students. Teachers planned and embraced pedagogies involving modeling, experimentation, discussion, analysis, and synthesis, increasing classroom cognitive engagement. Comprehending that everyone is in charge of changing their own brains is a tremendously powerful idea that may motivate science and non-science teachers to provide students opportunities to actively engage with content. Neuroscience courses for preservice and in-service teachers, provided as collaborations between scientists and teacher educators, can result in improved science education, pedagogy, and understanding of neuroscience.

Neuroscience in middle schools: a professional development and resource program that models inquiry-based strategies and engages teachers in classroom implementation.

The Department of Neuroscience at the University of Minnesota and the Science Museum of Minnesota have developed and implemented a successful program for middle school (grades 5-8) science teachers and their students, called Brain Science on the Move. The overall goals have been to bring neuroscience education to underserved schools, excite students about science, improve their understanding of neuroscience, and foster partnerships between scientists and educators. The program includes BrainU, a teacher professional development institute; Explain Your Brain Assembly and Exhibit Stations, multimedia large-group presentation and hands-on activities designed to stimulate student thinking about the brain; Class Activities, in-depth inquiry-based investigations; and Brain Trunks, materials and resources related to class activities. Formal evaluation of the program indicated that teacher neuroscience knowledge, self-confidence, and use of inquiry-based strategies and neuroscience in their classrooms have increased. Participating teachers increased the time spent teaching neuroscience and devoted more time to "inquiry-based" teaching versus "lecture-based teaching." Teachers appreciated in-depth discussions of pedagogy and science and opportunities for collegial interactions with world-class researchers. Student interest in the brain and in science increased. Since attending BrainU, participating teachers have reported increased enthusiasm about teaching and have become local neuroscience experts within their school communities.