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RTI: Academic Interventions for Difficult-to-Teach Students Jim Wright interventioncentral

RTI: Academic Interventions for Difficult-to-Teach Students Jim Wright www.interventioncentral.org. RTI and Interventions: Key Points. Reading Interventions. Math Interventions. Writing Interventions. Internet Resources to Support RTI Interventions. Workshop Agenda.

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RTI: Academic Interventions for Difficult-to-Teach Students Jim Wright interventioncentral

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  1. RTI: Academic Interventions for Difficult-to-Teach StudentsJim Wrightwww.interventioncentral.org

  2. RTI and Interventions: Key Points • Reading Interventions • Math Interventions • Writing Interventions • Internet Resources to Support RTI Interventions Workshop Agenda

  3. Building Teacher Capacity to Deliver Tier 1 Interventions: An 8-Step Checklist Jim Wrightwww.interventioncentral.org

  4. Team Activity: Building Tier 1 Capacity • At your tables: • Consider the eight steps to building Tier 1 teacher capacity to deliver effective classroom interventions. • Discuss the strengths and challenges that your school or district presents in promoting classroom teachers’ appropriate and effective use of Tier 1 interventions. • Be prepared to share your discussion with the larger group!

  5. Tier 2: Supplemental (Standard-Protocol Model) Interventions Tier 2 interventions are typically delivered in small-group format. About 15% of students in the typical school will require Tier 2/supplemental intervention support. Group size for Tier 2 interventions is limited to 4-6 students. Students placed in Tier 2 interventions should have a shared profile of intervention need. The reading progress of students in Tier 2 interventions are monitored at least 1-2 times per month. Source: Burns, M. K., & Gibbons, K. A. (2008). Implementing response-to-intervention in elementary and secondary schools. Routledge: New York.

  6. Tier 2: Supplemental Interventions • Decision Point: Building-wide academic screenings • Collaboration Opportunity: After each building-wide academic screening, ‘data teams’ meet (teachers at a grade level; building principal; reading teacher, etc.) At the meeting, the group considers how the assessment data should shape/inform core instruction. Additionally, the data team sets a cutpoint to determine which students should be recruited for Tier 2 group interventions. NOTE: Team may continue to meet every 5 weeks to consider student progress in Tier 2; move students into and out of groups. • Documentation: Tier 2 instructor completes a Tier 2 Group Assignment Sheet listing students and their corresponding interventions. Progress-monitoring occurs 1-2 times per month. • Decision Rules [Example]: Student is returned to Tier 1 support if they perform above the 25th percentile in the next school-wide screening. Student is referred to Tier 3 (RTI Team) if they fail to make expected progress despite two Tier 2 (group-based) interventions.

  7. Scheduling Elementary Tier 2 Interventions Option 3: ‘Floating RTI’:Gradewide Shared Schedule. Each grade has a scheduled RTI time across classrooms. No two grades share the same RTI time. Advantages are that outside providers can move from grade to grade providing push-in or pull-out services and that students can be grouped by need across different teachers within the grade. Anyplace Elementary School: RTI Daily Schedule Grade K Classroom 1 Classroom 2 Classroom 3 9:00-9:30 Grade 1 Classroom 1 Classroom 2 Classroom 3 9:45-10:15 Grade 2 Classroom 1 Classroom 2 Classroom 3 10:30-11:00 Grade 3 Classroom 1 Classroom 2 Classroom 3 12:30-1:00 Grade 4 Classroom 1 Classroom 2 Classroom 3 1:15-1:45 Grade 5 Classroom 1 Classroom 2 Classroom 3 2:00-2:30 Source: Burns, M. K., & Gibbons, K. A. (2008). Implementing response-to-intervention in elementary and secondary schools: Procedures to assure scientific-based practices. New York: Routledge.

  8. RTI Assumption: Struggling Students Are ‘Typical’ Until Proven Otherwise… RTI logic assumes that: • A student who begins to struggle in general education is typical, and that • It is general education’s responsibility to find the instructional strategies that will unlock the student’s learning potential Only when the student shows through well-documented interventions that he or she has ‘failed to respond to intervention’ does RTI begin to investigate the possibility that the student may have a learning disability or other special education condition.

  9. School Instructional Time: The Irreplaceable Resource “In the average school system, there are 330 minutes in the instructional day, 1,650 minutes in the instructional week, and 56,700 minutes in the instructional year. Except in unusual circumstances, these are the only minutes we have to provide effective services for students. The number of years we have to apply these minutes is fixed. Therefore, each minute counts and schools cannot afford to support inefficient models of service delivery.” p. 177 Source: Batsche, G. M., Castillo, J. M., Dixon, D. N., & Forde, S. (2008). Best practices in problem analysis. In A. Thomas & J. Grimes (Eds.), Best practices in school psychology V (pp. 177-193).

  10. Intervention Research & Development: A Work in Progress

  11. Tier 1: What Are the Recommended Elements of ‘Core Curriculum’?: More Research Needed “In essence, we now have a good beginning on the evaluation of Tier 2 and 3 interventions, but no idea about what it will take to get the core curriculum to work at Tier 1. A complicating issue with this potential line of research is that many schools use multiple materials as their core program.” p. 640 Source: Kovaleski, J. F. (2007). Response to intervention: Considerations for research and systems change. School Psychology Review, 36, 638-646.

  12. Schools Need to Review Tier 1 (Classroom) Interventions to Ensure That They Are Supported By Research There is a lack of agreement about what is meant by ‘scientifically validated’ classroom (Tier I) interventions. Districts should establish a ‘vetting’ process—criteria for judging whether a particular instructional or intervention approach should be considered empirically based. Source: Fuchs, D., & Deshler, D. D. (2007). What we need to know about responsiveness to intervention (and shouldn’t be afraid to ask).. Learning Disabilities Research & Practice, 22(2),129–136.

  13. What Are Appropriate Content-Area Tier 1 Universal Interventions for Secondary Schools? “High schools need to determine what constitutes high-quality universal instruction across content areas. In addition, high school teachers need professional development in, for example, differentiated instructional techniques that will help ensure student access to instruction interventions that are effectively implemented.” Source: Duffy, H. (August 2007). Meeting the needs of significantly struggling learners in high school. Washington, DC: National High School Center. Retrieved from http://www.betterhighschools.org/pubs/ p. 9

  14. RTI & Intervention: Key Concepts

  15. Essential Elements of Any Academic or Behavioral Intervention (‘Treatment’) Strategy: • Method of delivery (‘Who or what delivers the treatment?’)Examples include teachers, paraprofessionals, parents, volunteers, computers. • Treatment component (‘What makes the intervention effective?’)Examples include activation of prior knowledge to help the student to make meaningful connections between ‘known’ and new material; guide practice (e.g., Paired Reading) to increase reading fluency; periodic review of material to aid student retention.

  16. Core Instruction,Interventions, Accommodations & Modifications: Sorting Them Out • Core Instruction. Those instructional strategies that are used routinely with all students in a general-education setting are considered ‘core instruction’. High-quality instruction is essential and forms the foundation of RTI academic support. NOTE: While it is important to verify that good core instructional practices are in place for a struggling student, those routine practices do not ‘count’ as individual student interventions.

  17. Core Instruction, Interventions, Accommodations & Modifications: Sorting Them Out • Intervention. An academic intervention is a strategy used to teach a new skill, build fluency in a skill, or encourage a child to apply an existing skill to new situations or settings. An intervention can be thought of as “a set of actions that, when taken, have demonstrated ability to change a fixed educational trajectory” (Methe & Riley-Tillman, 2008; p. 37).

  18. Core Instruction,Interventions, Accommodations & Modifications: Sorting Them Out • Accommodation. An accommodation is intended to help the student to fully access and participate in the general-education curriculum without changing the instructional content and without reducing the student’s rate of learning (Skinner, Pappas & Davis, 2005). An accommodation is intended to remove barriers to learning while still expecting that students will master the same instructional content as their typical peers. • Accommodation example 1: Students are allowed to supplement silent reading of a novel by listening to the book on tape. • Accommodation example 2: For unmotivated students, the instructor breaks larger assignments into smaller ‘chunks’ and providing students with performance feedback and praise for each completed ‘chunk’ of assigned work (Skinner, Pappas & Davis, 2005).

  19. “Teaching is giving; it isn’t taking away.” (Howell, Hosp & Kurns, 2008; p. 356). “ ” Source: Howell, K. W., Hosp, J. L., & Kurns, S. (2008). Best practices in curriculum-based evaluation. In A. Thomas & J. Grimes (Eds.), Best practices in school psychology V (pp.349-362). Bethesda, MD: National Association of School Psychologists..

  20. Core Instruction,Interventions, Accommodations & Modifications: Sorting Them Out • Modification. A modification changes the expectations of what a student is expected to know or do—typically by lowering the academic standards against which the student is to be evaluated. Examples of modifications: • Giving a student five math computation problems for practice instead of the 20 problems assigned to the rest of the class • Letting the student consult course notes during a test when peers are not permitted to do so

  21. Big Ideas: The Four Stages of Learning Can Be Summed Up in the ‘Instructional Hierarchy’ pp. 2-3(Haring et al., 1978) Student learning can be thought of as a multi-stage process. The universal stages of learning include: • Acquisition: The student is just acquiring the skill. • Fluency: The student can perform the skill but must make that skill ‘automatic’. • Generalization: The student must perform the skill across situations or settings. • Adaptation: The student confronts novel task demands that require that the student adapt a current skill to meet new requirements. Source: Haring, N.G., Lovitt, T.C., Eaton, M.D., & Hansen, C.L. (1978). The fourth R: Research in the classroom. Columbus, OH: Charles E. Merrill Publishing Co.

  22. Increasing the Intensity of an Intervention: Key Dimensions Interventions can move up the RTI Tiers through being intensified across several dimensions, including: • Type of intervention strategy or materials used • Student-teacher ratio • Length of intervention sessions • Frequency of intervention sessions • Duration of the intervention period (e.g., extending an intervention from 5 weeks to 10 weeks) • Motivation strategies Source: Burns, M. K., & Gibbons, K. A. (2008). Implementing response-to-intervention in elementary and secondary schools. Routledge: New York. Kratochwill, T. R., Clements, M. A., & Kalymon, K. M. (2007). Response to intervention: Conceptual and methodological issues in implementation. In Jimerson, S. R., Burns, M. K., & VanDerHeyden, A. M. (Eds.), Handbook of response to intervention: The science and practice of assessment and intervention. New York: Springer.

  23. RTI Interventions: What If There is No Commercial Intervention Package or Program Available? “Although commercially prepared programs and the subsequent manuals and materials are inviting, they are not necessary. … A recent review of research suggests that interventions are research based and likely to be successful, if they are correctly targeted and provide explicit instruction in the skill, an appropriate level of challenge, sufficient opportunities to respond to and practice the skill, and immediate feedback on performance…Thus, these [elements] could be used as criteria with which to judge potential tier 2 interventions.” p. 88 Source: Burns, M. K., & Gibbons, K. A. (2008). Implementing response-to-intervention in elementary and secondary schools. Routledge: New York.

  24. Research-Based Elements of Effective Academic Interventions • ‘Correctly targeted’: The intervention is appropriately matched to the student’s academic or behavioral needs. • ‘Explicit instruction’: Student skills have been broken down “into manageable and deliberately sequenced steps and providing overt strategies for students to learn and practice new skills” p.1153 • ‘Appropriate level of challenge’: The student experiences adequate success with the instructional task. • ‘High opportunity to respond’: The student actively responds at a rate frequent enough to promote effective learning. • ‘Feedback’: The student receives prompt performance feedback about the work completed. Source: Burns, M. K., VanDerHeyden, A. M., & Boice, C. H. (2008). Best practices in intensive academic interventions. In A. Thomas & J. Grimes (Eds.), Best practices in school psychology V (pp.1151-1162). Bethesda, MD: National Association of School Psychologists.

  25. Interventions: Potential ‘Fatal Flaws’ Any intervention must include 4 essential elements. The absence of any one of the elements would be considered a ‘fatal flaw’ (Witt, VanDerHeyden & Gilbertson, 2004) that blocks the school from drawing meaningful conclusions from the student’s response to the intervention: • Clearly defined problem. The student’s target concern is stated in specific, observable, measureable terms. This ‘problem identification statement’ is the most important step of the problem-solving model (Bergan, 1995), as a clearly defined problem allows the teacher or RTI Team to select a well-matched intervention to address it. • Baseline data. The teacher or RTI Team measures the student’s academic skills in the target concern (e.g., reading fluency, math computation) prior to beginning the intervention. Baseline data becomes the point of comparison throughout the intervention to help the school to determine whether that intervention is effective. • Performance goal. The teacher or RTI Team sets a specific, data-based goal for student improvement during the intervention and a checkpoint date by which the goal should be attained. • Progress-monitoring plan. The teacher or RTI Team collects student data regularly to determine whether the student is on-track to reach the performance goal. Source: Witt, J. C., VanDerHeyden, A. M., & Gilbertson, D. (2004). Troubleshooting behavioral interventions. A systematic process for finding and eliminating problems. School Psychology Review, 33, 363-383.

  26. RTI: Best Practicesin MathematicsInterventionsJim Wrightwww.interventioncentral.org

  27. National Mathematics Advisory Panel Report13 March 2008

  28. Math Advisory Panel Report at:http://www.ed.gov/mathpanel

  29. 2008 National Math Advisory Panel Report: Recommendations • “The areas to be studied in mathematics from pre-kindergarten through eighth grade should be streamlined and a well-defined set of the most important topics should be emphasized in the early grades. Any approach that revisits topics year after year without bringing them to closure should be avoided.” • “Proficiency with whole numbers, fractions, and certain aspects of geometry and measurement are the foundations for algebra. Of these, knowledge of fractions is the most important foundational skill not developed among American students.” • “Conceptual understanding, computational and procedural fluency, and problem solving skills are equally important and mutually reinforce each other. Debates regarding the relative importance of each of these components of mathematics are misguided.” • “Students should develop immediate recall of arithmetic facts to free the “working memory” for solving more complex problems.” Source: National Math Panel Fact Sheet. (March 2008). Retrieved on March 14, 2008, from http://www.ed.gov/about/bdscomm/list/mathpanel/report/final-factsheet.html

  30. An RTI Challenge: Limited Research to Support Evidence-Based Math Interventions “… in contrast to reading, core math programs that are supported by research, or that have been constructed according to clear research-based principles, are not easy to identify. Not only have exemplary core programs not been identified, but also there are no tools available that we know of that will help schools analyze core math programs to determine their alignment with clear research-based principles.” p. 459 Source: Clarke, B., Baker, S., & Chard, D. (2008). Best practices in mathematics assessment and intervention with elementary students. In A. Thomas & J. Grimes (Eds.), Best practices in school psychology V (pp. 453-463).

  31. Math Intervention Planning: Some Challenges for Elementary RTI Teams • There is no national consensus about what math instruction should look like in elementary schools • Schools may not have consistent expectations for the ‘best practice’ math instruction strategies that teachers should routinely use in the classroom • Schools may not have a full range of assessment methods to collect baseline and progress monitoring data on math difficulties

  32. Profile of Students With Significant Math Difficulties • Spatial organization. The student commits errors such as misaligning numbers in columns in a multiplication problem or confusing directionality in a subtraction problem (and subtracting the original number—minuend—from the figure to be subtracted (subtrahend). • Visual detail. The student misreads a mathematical sign or leaves out a decimal or dollar sign in the answer. • Procedural errors. The student skips or adds a step in a computation sequence. Or the student misapplies a learned rule from one arithmetic procedure when completing another, different arithmetic procedure. • Inability to ‘shift psychological set’. The student does not shift from one operation type (e.g., addition) to another (e.g., multiplication) when warranted. • Graphomotor. The student’s poor handwriting can cause him or her to misread handwritten numbers, leading to errors in computation. • Memory. The student fails to remember a specific math fact needed to solve a problem. (The student may KNOW the math fact but not be able to recall it at ‘point of performance’.) • Judgment and reasoning. The student comes up with solutions to problems that are clearly unreasonable. However, the student is not able adequately to evaluate those responses to gauge whether they actually make sense in context. Source: Rourke, B. P. (1993). Arithmetic disabilities, specific & otherwise: A neuropsychological perspective. Journal of Learning Disabilities, 26, 214-226.

  33. “Mathematics is made of 50 percent formulas, 50 percent proofs, and 50 percent imagination.” –Anonymous

  34. The Elements of Mathematical Proficiency: What the Experts Say…

  35. 5 Strands of Mathematical Proficiency • Understanding • Computing • Applying • Reasoning • Engagement • 5 Big Ideas in Beginning Reading • Phonemic Awareness • Alphabetic Principle • Fluency with Text • Vocabulary • Comprehension Source: Big ideas in beginning reading. University of Oregon. Retrieved September 23, 2007, from http://reading.uoregon.edu/index.php Source: National Research Council. (2002). Helping children learn mathematics. Mathematics Learning Study Committee, J. Kilpatrick & J. Swafford, Editors, Center for Education, Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press.

  36. Five Strands of Mathematical Proficiency • Understanding: Comprehending mathematical concepts, operations, and relations--knowing what mathematical symbols, diagrams, and procedures mean. • Computing: Carrying out mathematical procedures, such as adding, subtracting, multiplying, and dividing numbers flexibly, accurately, efficiently, and appropriately. • Applying: Being able to formulate problems mathematically and to devise strategies for solving them using concepts and procedures appropriately. Source: National Research Council. (2002). Helping children learn mathematics. Mathematics Learning Study Committee, J. Kilpatrick & J. Swafford, Editors, Center for Education, Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press.

  37. Five Strands of Mathematical Proficiency (Cont.) • Reasoning: Using logic to explain and justify a solution to a problem or to extend from something known to something less known. • Engaging: Seeing mathematics as sensible, useful, and doable—if you work at it—and being willing to do the work. Source: National Research Council. (2002). Helping children learn mathematics. Mathematics Learning Study Committee, J. Kilpatrick & J. Swafford, Editors, Center for Education, Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press.

  38. Table Activity: Evaluate Your School’s Math Proficiency… • As a group, review the National Research Council ‘Strands of Math Proficiency’. • Which strand do you feel that your school / curriculum does the best job of helping students to attain proficiency? • Which strand do you feel that your school / curriculum should put the greatest effort to figure out how to help students to attain proficiency? • Be prepared to share your results. Five Strands of Mathematical Proficiency(NRC, 2002) • Understanding: Comprehending mathematical concepts, operations, and relations--knowing what mathematical symbols, diagrams, and procedures mean. • Computing: Carrying out mathematical procedures, such as adding, subtracting, multiplying, and dividing numbers flexibly, accurately, efficiently, and appropriately. • Applying: Being able to formulate problems mathematically and to devise strategies for solving them using concepts and procedures appropriately. • Reasoning: Using logic to explain and justify a solution to a problem or to extend from something known to something less known. • Engaging: Seeing mathematics as sensible, useful, and doable—if you work at it—and being willing to do the work.

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