Bio


My research explores teachers’ instructional practices, the process of learning to teach, the impact of teacher professional development programs on teachers and students, and the preparation of professional development leaders. My current projects include partnerships with local school districts to improve teaching and professional development in mathematics and science, and to build capacity within the school districts to prepare and support professional development leaders, with a focus on enduring robust learning opportunities for all students.

Academic Appointments


Boards, Advisory Committees, Professional Organizations


  • Professor, School of Education, Stanford University (2007 - Present)
  • Professor/Associate Professor, School of Education, University of Colorado, Boulder, CO (1991 - 2007)
  • Associate Professor, Department of Curriculum and Instruction, College of Education, University of Maryland, College Park, MD (1985 - 1991)
  • Associate/Assistant Professor, Division of Curriculum and Instruction, College of Education, Virginia Polytechnic Institute and State University, Blacksburg, VA (1980 - 1985)
  • Educational Evaluator, System Development Corporation, Santa Monica, CA (1978 - 1980)

Professional Education


  • Ph.D., University of California, Los Angeles, Educational Psychology (1978)
  • M.A., University of California, Los Angeles, Philosophy of Education (1973)
  • B.A., University of California, Los Angeles, Psychology (1971)
  • Teaching Credential, University of Southern California, California State Elementary Teaching Credential, specialization in Mental Retardation (1972)

Research Interests


  • Math Education
  • Professional Development
  • Science Education
  • Teachers and Teaching

Current Research and Scholarly Interests


Toward a Scalable Model of Mathematics Professional Development: A Field Study of Preparing Facilitators to Implement the Problem-Solving Cycle

The Problem-Solving Cycle (PSC) model of mathematics professional development encourages teachers to become part of a collaborative and supportive learning community. As they participate in the PSC, teachers think deeply about both mathematics content and instruction, and they explore their instructional practices with their colleagues through the use of video and other classroom artifacts. One iteration of the PSC consists of three interconnected professional development workshops, all organized around a rich mathematical task. During Workshop 1, teachers collaboratively solve the mathematical task and develop plans for teaching it to their own students. Shortly after the workshop, the teachers implement the problem with their own students and their lessons are videotaped. In Workshop 2 teachers explore the role they played in implementing the problem. In Workshop 3 teachers critically examine students’ mathematical reasoning.

The Problem-Solving Cycle model provides a structure for mathematics teachers to work together and share a common mathematical and pedagogical experience. Our previous research suggests that it is a promising model for enhancing teachers’ knowledge and supporting changes in classroom practice.

In our current project, initiated in Fall 2007, we are working with a group of middle school mathematics teachers in a large urban district to foster their leadership capacity, and specifically to prepare them to facilitate the Problem-Solving Cycle. We will provide 2½ years of preparation and support for teachers who have been designated as “mathematics instructional leaders.” These instructional leaders will in turn implement the PSC with the mathematics teachers in their schools. We will document the range and quality of the instructional leaders’ implementation of the PSC. We will also analyze the impact of the professional development process on the mathematical knowledge and classroom teaching of the instructional leaders and the mathematics teachers with whom they work. In addition, we will analyze the impact on their students’ mathematics achievement. By the conclusion of the project, we anticipate that the participating schools will have the infrastructure and capacity to carry out the PSC indefinitely, using their own resources. In addition, the project will produce a highly refined set of PSC facilitation materials—with a strong emphasis on supporting a linguistically and culturally diverse student population—that can be widely disseminated.

Stanford Advisees


All Publications


  • The indispensable role of the goal construct in understanding and improving teaching practice PROFESSIONAL DEVELOPMENT IN EDUCATION Janssen, F., Westbroek, H., Borko, H. 2023
  • Teachers' engagement with student mathematical agency and authority in school-based professional learning TEACHING AND TEACHER EDUCATION Dyer, E. B., Jarry-Shore, M., Fong, A., Deutscher, R., Carlson, J., Borko, H. 2023; 121
  • Leveraging portfolios in professional development for middle school science teachers' assessment and data-use practice SCIENCE EDUCATION Kloser, M., Borko, H., Wilsey, M., Rafanelli, S. 2022

    View details for DOI 10.1002/sce.21712

    View details for Web of Science ID 000769624200001

  • TEACHER FACILITATION OF ELEMENTARY SCIENCE DISCOURSE AFTER A PROFESSIONAL DEVELOPMENT INITIATIVE ELEMENTARY SCHOOL JOURNAL Borko, H., Zaccarelli, F., Reigh, E., Osborne, J. 2021

    View details for DOI 10.1086/714082

    View details for Web of Science ID 000645265000001

  • Learning to Lead: an Approach to Mathematics Teacher Leader Development INTERNATIONAL JOURNAL OF SCIENCE AND MATHEMATICS EDUCATION Borko, H., Carlson, J., Deutscher, R., Boles, K. L., Delaney, V., Fong, A., Jarry-Shore, M., Malamut, J., Million, S., Mozenter, S., Villa, A. 2021
  • Middle School Science Teachers' Conceptions of Assessment Practice Throughout a Year-long Professional Development Experience EDUCATIONAL ASSESSMENT Wilsey, M., Kloser, M., Borko, H., Rafanelli, S. 2020; 25 (2): 136–58
  • Impacts of a Practice-Based Professional Development Program on Elementary Teachers' Facilitation of and Student Engagement With Scientific Argumentation AMERICAN EDUCATIONAL RESEARCH JOURNAL Osborne, J. F., Borko, H., Fishman, E., Gomez Zaccarelli, F., Berson, E., Busch, K. C., Reigh, E., Tseng, A. 2019
  • The role of video-based discussion in model for preparing professional development leaders. International journal of STEM education Borko, H., Carlson, J., Mangram, C., Anderson, R., Fong, A., Million, S., Mozenter, S., Villa, A. M. 2017; 4 (1): 29

    Abstract

    This paper describes the Problem-Solving Cycle model of professional development and the Mathematics Leadership Preparation model of PD leader preparation. These models form the backbone of our current research-practice partnership project in which we are working with a large urban district to adapt these models to develop district capacity to support the implementation of a middle school mathematics curriculum aligned with Common Core State Standards (CCSS). We highlight the central role of video in the Problem-Solving Cycle and our approach to preparing teacher leaders to use video-based discussions to understand student thinking and instructional practices.The first phase of the research was designed to identify how the models were adapted to support the district goals for implementing their new CCSS mathematics curriculum and to understand the reasons for the adaptations. The analysis of multiple data sources revealed two overarching categories of adaptations that we made to refine the models to better support the district goals: addressing district priorities and addressing teacher leaders' limited experience. We made adaptations such as incorporating the district curriculum, addressing the needs of English learners, integrating the teacher leaders' learning of the Problem-Solving Cycle model into the leadership preparation session, increasing the emphasis on what it means to be an instructional leader, strengthening the role of modeling and debriefing activities to support leadership development, scaffolding the selection of video clips, and incorporating the use of rehearsals and debriefing activities to support leadership development.The implications of this work illustrate the need for researchers to be responsive to the context of their school partners if they expect their work to be meaningful. Using the frame of design-based implementation research proved to be an effective strategy for working with the district STEM leadership team and teacher leaders to adapt the Problem-Solving Cycle and Mathematics Leadership Preparation models to support district implementation of a new curriculum that necessitates shifts in teacher practices and for determining how to make video-based discussions more productive activities in the models.

    View details for DOI 10.1186/s40594-017-0090-3

    View details for PubMedID 30631685

    View details for PubMedCentralID PMC6310394

  • Evidence of Middle School Science Assessment Practice From Classroom-Based Portfolios SCIENCE EDUCATION Kloser, M., Borko, H., Martinez, J. F., Stecher, B., Luskin, R. 2017; 101 (2): 209-231

    View details for DOI 10.1002/sce.21256

    View details for Web of Science ID 000394903000002

  • A Practice-Based Professional Development Program to Support Scientific Argumentation From Evidence in the Elementary Classroom JOURNAL OF SCIENCE TEACHER EDUCATION Fishman, E. J., Borko, H., Osborne, J., Gomez, F., Rafanelli, S., Reigh, E., Tseng, A., Million, S., Berson, E. 2017; 28 (3): 222–49
  • The role of video-based discussion in model for preparing professional development leaders International Journal of STEM Education Borko, H., Carlson, J., Mangram, C., Anderson, R., Fong, A., Million, S., Mozenter, S., Villa, A. M. 2017; 4 (1)
  • Methodological contributions to video-based studies of classroom teaching and learning: a commentary ZDM-MATHEMATICS EDUCATION Borko, H. 2016; 48 (1-2): 213-218
  • THE ROLE OF VIDEO-BASED DISCUSSIONS IN PROFESSIONAL DEVELOPMENT AND THE PREPARATION OF PD LEADERS DIGITAL VIDEO FOR TEACHER EDUCATION: RESEARCH AND PRACTICE Borko, H., Virmani, R., Khachatryan, E., Mangram, C., Calandra, B., Rich, P. 2015: 89-108
  • Examining novice teacher leaders' facilitation of mathematics professional development JOURNAL OF MATHEMATICAL BEHAVIOR Borko, H., Koellner, K., Jacobs, J. 2014; 33: 149-167
  • Facilitating Video-Based Professional Development: Planning and Orchestrating Productive Discussions TRANSFORMING MATHEMATICS INSTRUCTION: MULTIPLE APPROACHES AND PRACTICES Borko, H., Jacobs, J., Seago, N., Mangram, C., Li, Y., Silver, E. A., Li, S. 2014: 259-281
  • Five research-based heuristics for using video in pre-service teacher education JOURNAL FOR EDUCATIONAL RESEARCH ONLINE-JERO Blomberg, G., Renkl, A., Sherin, M., Borko, H., Seidel, T. 2013; 5 (1): 90-114
  • Measuring instructional practice in science using classroom artifacts: lessons learned from two validation studies JOURNAL OF RESEARCH IN SCIENCE TEACHING Martinez, J. F., Borko, H., Stecher, B. M. 2012; 49 (1): 38-67

    View details for DOI 10.1002/tea.20447

    View details for Web of Science ID 000298262500002

  • Measuring Classroom Assessment Practice Using Instructional Artifacts: A Validation Study of the QAS Notebook EDUCATIONAL ASSESSMENT Felipe Martinez, J., Borko, H., Stecher, B., Luskin, R., Kloser, M. 2012; 17 (2-3): 107-131
  • Using video representations of teaching in practice-based professional development programs ZDM-MATHEMATICS EDUCATION Borko, H., Koellner, K., Jacobs, J., Seago, N. 2011; 43 (1): 175-187
  • Culture Currents INTERNATIONAL JOURNAL OF LEADERSHIP IN EDUCATION Borko, H., Bowers, C. 2010; 13 (2): 235-238
  • Humility and Wisdom Necessary Ingredients to Reverse the Widget Effect JOURNAL OF TEACHER EDUCATION Borko, H., Liston, D., Whitcomb, J. 2009; 60 (4): 361-363
  • Growing Talent Promising Professional Development Models and Practices JOURNAL OF TEACHER EDUCATION Whitcomb, J., Borko, H., Liston, D. 2009; 60 (3): 207-212
  • The End of Education in Teacher Education Thoughts on Reclaiming the Role of Social Foundations in Teacher Education JOURNAL OF TEACHER EDUCATION Liston, D., Whitcomb, J., Borko, H. 2009; 60 (2): 107-111
  • Wicked Problems and Other Thoughts on Issues of Technology and Teacher Learning JOURNAL OF TEACHER EDUCATION Borko, H., Whitcomb, J., Liston, D. 2009; 60 (1): 3-7
  • Classroom Assessment Practices, Teacher Judgments, and Student Achievement in Mathematics: Evidence from the ECLS EDUCATIONAL ASSESSMENT Martinez, J., Stecher, B., Borko, H. 2009; 14 (2): 78-102
  • Teachers, Teaching, and Teacher Education: Comments on the National Mathematics Advisory Panel's Report EDUCATIONAL RESEARCHER Borko, H., Whitcomb, J. A. 2008; 37 (9): 565-572
  • Conversations in Search of a Common Denominator JOURNAL OF TEACHER EDUCATION Liston, D., Borko, H., Whitcomb, J. 2008; 59 (5): 383-388
  • Why teach? - Part II JOURNAL OF TEACHER EDUCATION Whitcomb, J., Borko, H., Liston, D. 2008; 59 (4): 267-272
  • An education president for the 21st century: Introducing eight letters to the 44th president of the United States JOURNAL OF TEACHER EDUCATION Borko, H., Whitcomb, J., Liston, D. 2008; 59 (3): 207-211
  • The teacher educator's role in enhancing teacher quality JOURNAL OF TEACHER EDUCATION Liston, D., Borko, H., Whitcomb, J. 2008; 59 (2): 111-116
  • Why teach? JOURNAL OF TEACHER EDUCATION Whitcomb, J. A., Borko, H., Liston, D. 2008; 59 (1): 3-9
  • PROVIDING FEEDBACK TO TEACHER CANDIDATES FOR NATIONAL BOARD CERTIFICATION: A STUDY OF TEACHER PREFERENCES AND LEARNING ASSESSING TEACHERS FOR PROFESSIONAL CERTIFICATION Wolf, K., Davis, A., Borko, H., Stake, R. E., Kushner, S., Ingvarson, L., Hattie, J. 2008; 11: 413-436
  • Artifact Packages for Characterizing Classroom Practice: A Pilot Study EDUCATIONAL ASSESSMENT Borko, H., Stecher, B. M., Alonzo, A. C., Moncure, S., McClam, S. 2005; 10 (2): 73-104