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The Prevention and Identification of Math Disability Using RTI

The Prevention and Identification of Math Disability Using RTI. Lynn Fuchs Vanderbilt University September 18, 2008. This Presentation. Part 1 : Brief Review of RTI Framework Part 2 : Screening and Progress Monitoring within RTI Part 3 : Example of Secondary Tutoring at First Grade

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The Prevention and Identification of Math Disability Using RTI

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  1. The Prevention and Identification of Math Disability Using RTI Lynn Fuchs Vanderbilt University September 18, 2008

  2. This Presentation Part 1: Brief Review of RTI Framework Part 2: Screening and Progress Monitoring within RTI Part 3: Example of Secondary Tutoring at First Grade Part 4: Example of Secondary Tutoring at Third Grade

  3. Responsiveness-To-Intervention (RTI) • RTI integrates assessment and intervention within a multi-level prevention system to identify and reduce risk for academic failure.

  4. Primary Prevention • All children receive the universal, core instructional program. • All children are tested once in the fall to identify students as potentially at-risk for academic failure. • The progress of potentially at-risk students is monitored for 6-8 weeks to (dis)confirm risk and identify students for secondary prevention. Typical RTI Procedure

  5. Typical RTI Procedure • Secondary Prevention • For at-risk students, a second level of prevention is implemented using standard research-validated tutoring protocols. • Student progress is monitored throughout intervention, and students are re-tested following intervention. • Growth/performance is dichotomized as responsive or unresponsive. • Students who respond well return to this primary prevention, with ongoing progress monitoring.

  6. Typical RTI Procedure • Tertiary Prevention • Those who do not respond receive a multidisciplinary team evaluation and are identified for individualized programming in special education. • Tertiary prevention represents a reformed special education where • Individual student goals are set ambitiously. • Ongoing progress monitoring is used in a formative and recursive way to formulate individualized programs that are effective. • Ongoing progress monitoring is also used to identify when students have met benchmarks that permit flexible return to secondary or primary prevention (with progress monitoring so re-entry to tertiary prevention occurs as needed), making special education a flexible service.

  7. Health Care Analogy • High blood pressure (HBP) can lead to heart attacks or strokes (like academic failure can produce serious long-term negative consequences). • At the annual check-up (primary prevention), HBP screening (like annual fall screening for low reading or math scores). • If screening suggests HBP, then monitoring over 6-8 weeks occurs to verify HBP (like PM to ([dis]confirm risk). • If HBP is verified, secondary prevention occurs with relatively inexpensive diuretics, which are effective for vast majority, and monitoring continues (like small-group secondary preventive tutoring, using a standard treatment protocol, with PM to index response). • For patients who fail to respond to secondary prevention (diuretics), then tertiary prevention occurs—experimentation with more expensive medications (e.g., ACE inhibitors, beta blockers), with ongoing monitoring to determine which drug or combination of drugs is effective (like individualized instructional programs inductively formulated with progress monitoring).

  8. Part 2:Progress Monitoring:An Essential Form of Assessment within RTI To screen students as at risk for failure. To determine whether students respond. For students who fail to respond, to build individualized instructional programs.

  9. Progress Monitoring • Teachers assess students’ academic performance, using brief measures, on a frequent basis • CBM is the scientifically validated form of progress monitoring.

  10. Research Shows • CBM produces accurate, meaningful information about students’ academic levels and their rates of improvement. • CBM is sensitive to student improvement. • CBM corresponds well with high-stakes tests. • When teachers use CBM to inform their instructional decisions, students achieve better.

  11. Most Progress Monitoring: Mastery Measurement CBM is NOT Mastery Measurement

  12. MASTERY MEASUREMENT Tracks Mastery of Short-term Instructional Objectives • Determines the sequence of skills in an instructional hierarchy • For each skill, develops a criterion-referenced test To implement Mastery Measurement, the teacher

  13. Hypothetical Fourth-Grade Math Computation Curriculum • Multidigit addition with regrouping • Multidigit subtraction with regrouping • Multiplication facts, factors to 9 • Multiply 2-digit numbers by a 1-digit number • Multiply 2-digit numbers by a 2-digit number • Division facts, divisors to 9 • Divide 2-digit numbers by a 1-digit number • Divide 3-digit numbers by a 1-digit number • Add/subtract simple fractions, like denominators • Add/subtract whole number and mixed number

  14. Multidigit Addition Mastery Test

  15. Hypothetical Fourth-Grade Math Computation Curriculum • Multidigit addition with regrouping • Multidigit subtraction with regrouping • Multiplication facts, factors to 9 • Multiply 2-digit numbers by a 1-digit number • Multiply 2-digit numbers by a 2-digit number • Division facts, divisors to 9 • Divide 2-digit numbers by a 1-digit number • Divide 3-digit numbers by a 1-digit number • Add/subtract simple fractions, like denominators • Add/subtract whole number and mixed number

  16. Multidigit Subtraction Mastery Test

  17. Problems with Mastery Measurement • Hierarchy of skills is logical, not empirical. • Performance on single-skill assessments can be misleading. • Assessment does not reflect maintenance or generalization. • Assessment is designed by teachers or sold with textbooks, with unknown reliability and validity. • SO THAT, the number of objectives mastered does not relate well to performance on high-stakes tests.

  18. CBM was designed to address these problems. An Example of CBM: Math Computation

  19. Hypothetical Fourth-Grade Math Computation Curriculum Multidigit addition with regrouping Multidigit subtraction with regrouping Multiplication facts, factors to 9 Multiply 2-digit numbers by a 1-digit number Multiply 2-digit numbers by a 2-digit number Division facts, divisors to 9 Divide 2-digit numbers by a 1-digit number Divide 3-digit numbers by a 1-digit number Add/subtract simple fractions, like denominators Add/subtract whole number and mixed number

  20. Each weekly test incorporates the same problems types, but problems are not the same and are in a different order.

  21. Donald’s Progress in Digits Correct Across the School Year

  22. Name _______________________________ Date ________________________ Test 4 Page 1 Applications 4 Column A Column B (1) (5) Write a number in the blank. Write the letter in each blank. 1 week = _____ days • (A) line segment Z • • line (B) K L (6) Vacation Plans for Summit School Students • • (C) point M N Summer (D) ray School Camp (2) Look at this numbers.: Travel 356.17 Stay home Which number is in the hundredths place? 0 10 20 30 40 50 60 70 80 90 100 Number of Students (3) Use the bar graph to answer the questions. Solve the problem by estimating the sum or difference to the nearest ten. The P.T.A. will buy a Summit School T-Shirt for each student who goes Jeff wheels his wheelchair for 33 hours to summer school. Each shirt costs a week at school and for 28 hours a week $4.00. How much money will the $ .00 in his neighborhood. About how many P.T.A. spend on these T shirts? hours does Jeff spend each week wheeling How many students are planning to his wheelchair? travel during the summer? How many fewer students are planning to go to summer school than planning (4) to stay home? Write the number in each blank. (7) 3 ten thousands, 6 hundreds, 8 ones To measure the distance of the bus ride from school to your house you would use (A) meters 2 thousands, 8 hundreds, 4 tens, 6 ones (B) centimeters (C) kilometers D One page of a 3-page CBM in math concepts and applications (24 total problems)

  23. Sampling performance on year-long curriculum for each CBM • Avoids need to specify a skills hierarchy • Avoids single-skill tests • Automatically assesses maintenance/generalization • Permits standardized procedures for sampling the curriculum, with known reliability and validity • SO THAT: CBM scores relate well to performance on high-stakes tests

  24. CBM in RTI:Primary Prevention • CBM is used to screen all students in the class to identify those potentially at risk for poor outcomes at the end of the year. • For students identified as potentially at risk, CBM is administered weekly. CBM slope (weekly rate of improvement) is used to quantify response to primary prevention. If slope is inadequate, then student moves to secondary prevention.

  25. Primary Prevention:Screening for Possible Math Risk Note: These figures may change pending additional RTI research.

  26. Primary Prevention:Confirming Risk Status With PM • At the end of 6 to 8 weeks, student risk status is confirmed or disconfirmed. Note: These figures may change pending additional RTI research.

  27. CBM in RTI: Secondary Prevention • CBM is administered weekly throughout tutoring. • If CBM slope and/or projected year-end level are adequate, student returns to primary prevention, but weekly CBM continues. • If CBM neither slope nor projected year-end level is inadequate, then student moves to tertiary prevention.

  28. Secondary Prevention:Determining Response in Math Note: These figures may change pending additional RTI research.

  29. CBM in RTI:Tertiary Prevention • Set ambitious goals • Distinguish the intensity of secondary vs. tertiary prevention • Tertiary prevention is reserved for students who fail to respond to standard forms of instruction (i.e., validated, standard tutoring protocols) and who therefore need a nonstandard (individualized) form of instruction. • Begin tertiary prevention with a validated protocol, but implement more frequently, and/or with longer sessions, with smaller group size. Collect CBM weekly to systematically experiment with instructional components that individually tailor the protocol to match the student’s needs and ensure its effectiveness for that student. • Use flexible exit/re-entry decisions, based on student progress, to rely on tertiary prevention as needed and to maximize time in primary/secondary prevention as possible.

  30. Part 3:Secondary Tutoring at First Grade Lynn Fuchs, Don Compton, Doug Fuchs, Kim Paulsen, Joan Bryant, and Carol Hamlett Vanderbilt University Journal of Educational Psychology, 2005 Funded by OSEP Grant #H324U010004 National Research Center on Learning Disabilities

  31. Sample • 41 1st-grade teachers in 6 Title 1 and 4 non-Title 1 schools (92% consented students) • Conducted weekly CBM Computation • Using CBM Computation level and slope over 5 weeks, identified the 139 lowest performing students (21% of 667 consented students) as AR; randomly assigned these AR to control or tutoring • NAR: 528 remaining students with consent • Of 528 NAR: • All weekly CBM Computation • 180 sampled for individual and group pre/posttesting • 348 group pre/posttested

  32. Pretreatment ScoresNAR > AR Control, AR Tutored • IQ • Various aspects of mathematics performance • Various aspects of reading performance

  33. Tutoring Small groups of 2-3 3 times per week outside classrooms for 16 weeks 40 minutes per session

  34. First 30 Minutes • Concrete-representational-abstract model, which relies on concrete objects to promote conceptual understanding(e.g., base-10 blocks for place value instruction) • 17 scripted topics addressing number concepts, numeration, computation, story problems (e.g., not geometry, measurement, charts/figures, money) • Clear rules for mastery of topics • Cumulative review as each new topic is introduced • Each session audiotaped; tapes sampled and coded for fidelity, which was high

  35. Last 10 Minutes Two Ways to Answer a Basic Facts Problem • Know it - Adding and subtracting 1 or 0 - Doubles - Pulling known facts from long-term memory • Count - Count in for addition - Count up for subtraction

  36. Count In for Addition Terminology: smaller number and bigger number. Open hand to show smaller number. Say bigger number and count in raised fingers. Answer is last number counted. • 3+2=? • Open hand to show 2 fingers. • Say 3 and count: 4 (lower 1 finger), 5 (lower 1 finger). • Answer: last number counted (5)

  37. Count Up for Subtraction • Terminology: minus number and other number. • Close hand. • Say the minus number and count up to the other number. • Answer is number of fingers used to count up. • 6-2=4 • Say 2 and count: 3 (raise 1 finger), 4 (raise 1 finger) 5 (raise 1 finger), 6 (raise 1 finger) • Answer: number of raised fingers (6)

  38. Know It or Count-Up Practice • “Round Robin” timed practice • Shuffle deck of basic fact flashcards (sums 0-9; minuends 0-9) • Each student • Has 1 minute; when errors occur, immediately asked to count up (uses time) • Has another minute to “beat own score”

  39. Purpose 1: Tutoring Efficacy Improvement • Weekly CBM Computation Slope • AR tutored = NAR > AR control • WJ III Calculation • AR tutored > NAR and AR • Grade 1 Concepts/Applications • AR tutored > NAR and AR control • Story Problems • NAR > AR tutored > AR control • First-grade tutoring enhances outcomes.

  40. Purpose 1: Tutoring Efficacy Did tutoring decrease MD prevalence? Yes, across identification options, tutoring substantially decreased prevalence. e.g., Final Low Achievement (<10th percentile) on Grade 1 Concepts/Applications, prevalence went from 9.75% without tutoring to 5.14% with tutoring. ~ 2.5 million fewer children identified MD One year later, at end of grade 2, AR tutored students were half as less likely to qualify as MD (compared to AR control students).

  41. Part 4: Secondary Tutoring at Third Grade Lynn Fuchs, Sarah Powell, Pamela Seethaler, Paul Cirino, Jack Fletcher, Doug Fuchs, Carol Hamlett, and Rebecca Zumeta Vanderbilt University and University of Houston Journal of Educational Psychology, in press Grant #P01046261 National Institute of Child Health and Human Development

  42. Participants • Screened 924 students in 63 classrooms in 18 schools at 2 sites on calculations and word problem measures • To participate, students had to be low performing on calculations or word problems • 133 students eligible for participation

  43. Examined Efficacy of Two Tutoring Protocols Both Tutoring Protocols • Delivered individually • 48 sessions: 3 per week for 16 weeks • 20-30 minutes per session • Scripted lessons, which tutors studied (not read) • Motivational system to ensure on-task behavior and hard, accurate work • Each session audiotaped; tapes sampled and coded for fidelity, which was high for both tutoring conditions

  44. Examined Efficacy of Two Tutoring Protocols • The exclusive focus of Math Flash was math fact deficits • The primary focus of Pirate Math was word problem deficits, but it also addressed foundational skills (math facts, procedural calculations, and algebra skills)

  45. Math Facts (MF) Tutoring: Math Flash • First, +/-1, +/-0, doubles 0-6, +/-2 • Then, counting strategies: min for adding, missing addend for subtracting (students taught to “Know It or Count Up) • Then, MFs families through 18 and doubles through 20 • Stay on a MFs category at least 1 day, until mastery or maximum of 4 days (to ensure content coverage)

  46. MF Tutoring: Math Flash Activities in Each Session • Flash card warm up (all 200 MFs): Know It or Count Up • Conceptual and strategic instruction • Lesson-specific MFs “repeated” practice: Know It or Count Up • Computerized practice to build fluency (while assessing mastery of lesson-specific MFs) • Paper-pencil review (15 lesson-specific MFs; 15 review number MFs)

  47. Word-Problem (WP) Tutoring • Unit 1: Skills foundational to WPs • Counting up (different than 1st grade) • Double-digit calculations • Solving X in simple algebraic equations • Checking WP work • Unit 2: Total Problems • Unit 3: Difference Problems • Unit 4: Change Problems • Across Units 2-4, cumulative review; irrelevant information; charts/graphs

  48. WP Tutoring Following Unit 1, four activities per session 1. Flash-card warm up (identical to MF tutoring): Know It or Count Up 2. Conceptual/strategic instruction using schema-broadening instruction 3. Problem-type flash card practice on identifying problem types 4. Paper/pencil review (10 MFs; 4 double-digit calculations; one WP)

  49. Results: Fluency with MFs • Both tutoring conditions effected superior improvement compared to control group • No difference between tutoring conditions • Notable, because MF tutoring spent 20-30 minutes per session on MFs whereas WP tutoring spent 4-6 minutes per session on MFs

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