a cross-battery approach to assessment of psychological processing disorders milton j. dehn, ed.d....
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A Cross-Battery Approach to Assessment of Psychological
Processing Disorders
Milton J. Dehn, Ed.D. Winter 2011
Schoolhouse Educational Services
Copyright Notice; Copyright, 2010
The content of this PowerPoint presentation and accompanying handouts is copyrighted by Schoolhouse Educational Services, LLC and Milton J. Dehn. It is not to be reprinted, copied, or electronically disseminated without permission. To obtain permission, contact Milton J. Dehn at [email protected]
Workshop Topics
1. Processing overview and MN’s criteria
2. Processing and learning
3. Organizing a processing assessment
4. Cross-battery testing and analysis
5. Interpreting results
6. Determining eligibility
7. Evidence-based interventions overview
What is psychological processing?
1. Brain’s processes, operations, functions
2. Any time mental contents are operated on
3. When information is perceived, transformed, manipulated, stored, retrieved, expressed
4. Whenever we think, reason, problem-solve
5. Can’t learn and perform without processing
6. Doesn’t include knowledge base, skills, or what is stored in long-term memory
7. Topic limited academic learning processes
Problems with Past Processing Assessment
1. Not enough known about processing2. Not sure how to test processing3. Assessment too informal (grad. example)4. Over emphasis on low level processes5. Memory seldom assessed6. Some ineffective interventions
Now Is the Time
1. Better understanding of psych processes and their relations with specific academics
2. Neuroscience and neuropsychological evidence on brain and learning
3. Neuropsychological influence on assessment
4. Research on processing, memory, academics
5. More assessment of memory
6. New research on interventions
7. Better assessment options
Why Processing Assessment is a Good Idea
1. Process. deficits underlie (“cause”) SLD2. Identifying a processing deficit
differentiates SLD & slow learning3. Understanding of the learner4. Interventions for the processing deficits 5. Identifying processing deficits provides
direction for academic interventions6. Assessment benefits the learner
Processing and RTI Compatibility
1. RTI purists are not current; too behavioral
2. Processing model consistent with problem-solving and early intervention
3. Evidence-based processing interventions
4. Why do “blind” general academic interventions
5. Different causes of disabilities
6. Processing and academics are compatible
7. Which academic interventions succeed?1. Those that address processing problems
“Resistance” to Intervention
• Successful achievement depends on adequate psychological processes
• Process deficits impede learning• A processing deficit can cause an academic
intervention to fail---example– When severe; When not addressed– When intervention options limited
• Processing testing can determine whether failure to respond to RTI is due to a processing deficit, adding more support for LD placement
Processes and IQ
1. Processes underlie intelligence
2. Processing versus content (e.g. verbal)
3. Global IQ versus specific processes
4. Processing problems can pull down IQ
IQ-Achievement Discrepancy Model and Processing
• Discrepancy model misses some SLD• Deficient processing “pulls down” IQ• Poor achievement “pulls down” IQ• With processing, use a consistency
approach, not a discrepancy approach– Low process + low academic skill = SLD– NOT high process + low academic skill
Psychological Processing Model
1. Cognitive psychology theory of learning
2. Input – output memory model of processing Link
3. More parallel, complex, and integrated than can be represented
4. Neuroscience supports model: these are brain-based processes
5. Memory functioning is the core
Psychological Processing, General Characteristics
• There’s a flow of information• Mostly automated• Parallel, complex, and integrated• Executive functions exert control;
affected by effortful, conscious control• Some input is internal from memory• Neuroscience supports cognitive model
Link
What the Brain Needs for Learning
• Attention• Organized information
to input• Both visual and
auditory• Metacognition and
strategies• Repetition• Sleep, glucose,
oxygen
Brain Lobes and Processes
• Frontal Lobes: Attention, Exec. Functions, Fluid Reasoning, Working Memory
• Temporal Lobes: Long-Term Memory, Auditory, Short-Term Memory
• Parietal Lobes: Fine motor, Working Memory, Auditory, Phonological,
• Occipital Lobes: Visual• The Hippocampus, absolutely essential for
learning
MN SLD Definition
“Specific learning disability means a disorder in one or more of the basic psychological processes involved in understanding or in using language, spoken or written, that may manifest itself in the imperfect ability to listen, speak, read, write, spell, or do mathematical calculations, including conditions such as perceptual disabilities, brain injury, minimal brain dysfunction, dyslexia, and developmental aphasia”
MN Processing Criteria
“The child has a disorder in one or more of the basic psychological processes which includes an information processing condition that is manifested in a variety of settings by behaviors such as inadequate …. (next slide)
MN Processing Criteria
….acquisition of information; organization; planning and sequencing; working memory, including verbal, visual, or spatial; visual and auditory processing; speed of processing; verbal and nonverbal expression; transfer of information; and motor control for written tasks.”(list is not exhaustive; essentially covers all major aspects of information processing) See Handout
Minnesota SLD Criteria
• A basic psychological processing deficit must be documented across multiple settings using a variety of sources under the IQ severe discrepancy option or the inadequate rate of progress (RTI) option
• Two prior interventions required• Observation required
Dehn’s Recommended Processes for SLD Assessment
1. Attention2. Auditory Processing3. Executive Functions4. Fine motor Control5. Fluid Reasoning6. Language Processes 7. Long-Term Memory Recall8. Phonological Processing9. Processing Speed10.Visual-Spatial Processing11. Working Memory (See Handout)
Attention
• Frontal lobes• Cognitive levels of attention; not arousal• Types: Selective, focused, divided, sustained• Necessary for acquisition• The problem is attentional control• Lack of inhibition• Under executive control• Interest of material is a factor• Attention weakness often part of SLD• Learning: A necessary prerequisite for all learning and
memory
Auditory Processing
• Ability to perceive, analyze, synthesize, and discriminate auditory stimuli, e.g. speech
• Phonological processing may be a subtype
• Learning: Perceiving and comprehending instruction; being able to understand words with background noise
Executive Functions
• More to do with performance than skills• Involves management of cognitive functions and
psychological processes and also skills• Complex; difficult to assess as a whole• Includes planning (easiest to assess)• Organization depends on executive functions• Effectiveness depends on self-monitoring, self-
regulation, and metacognition• Related to use of learning strategies• Learning: Knowing how much you need to study
material
Executive Control Processes
• Self awareness (metacognition)– Awareness of strengths and weaknesses– Awareness of the task requirements– Awareness of which strategies work
• Self regulation (metacognition)– Monitoring; evaluating; planning– Detecting errors, problems– Deciding which strategy to use– Fixing the problem
Fine Motor Control
• Is it perceptual or motor?• Seems related to attention• Does it interfere with learning or just
written performance?• Interventions for it do not improve learning
but may improve performance• Learning: Be able to copy letters
accurately
Fluid Reasoning
• A higher level process (close to IQ)• Inductive and deductive reasoning• Learning: problem-solving, math
reasoning, comprehension
Language Processes
• Not the content (vocabulary) or the written output but the oral processes
• May acquire knowledge but have difficulty expressing it
• Retrieval may be part of the problem• Learning: Oral expression of thoughts,
ideas
Long-Term Memory
• Not specifically part of MN criteria but important part of info. processing & learning
• Some students learn well initially but can’t retain; others learn poorly but retain well
• Difficult to measure– Not known what has been learned– Intervals in tests not long enough
• Deficits due to hippocampal damage
Rapid Automatic Naming (RAN)
• Naming facility for commonly known objects
• Highly predictive of early reading achievement
• May be associated with slow long-term retrieval speed or slow processing speed
Phonological Processing
• Processing of phonemes, e.g. blending• Phonemic awareness is part of • Related to language and literacy
development• Related to phonological short-term
memory• Learning: Recognizing rhyming words,
segmenting words into phonemes
Processing Speed
• How quickly information flows through the processing system; a matter of efficiency
• Too slow: info. lost, process not completed• Speed increases significantly until adolescence
– Adolescents 2x faster than 8 year olds, 3x than 4 years
• Related to retrieval speed, RAN• Learning: Rapidly computing and retrieving the
answer to simple math calculation, reading fluency
• Case example
Visual-Spatial Processing
• Ability to perceive, analyze, synthesize, manipulate & think with visual patterns
• A strength in most LD cases• Visual and spatial can be differentiated• Not that correlated with academic learning
in general• Orthographic is stronger• Learning: Distinguishing between shapes
Orthographic Processing
• A subtype of visual processing• Has to do with processing of letters,
symbols, and words• Should be assessed
– For example, PALS
Working Memory
• Includes short-term memory• Processing while retaining information• Four units of information at a time• Very important for learning & performance• About half of LD students have a deficit • Involves executive functions• Needed for language development (ESL?)See monkey video
Working Memory
• Includes auditory and visual processing• Includes sequencing • Related with processing speed• Is the interface between input and storage• Some information in working memory is
retrieved from long term memory• The most common processing weakness• Automaticity increases capacity
Types of Working Memory
• Verbal Link• Visuospatial• Executive • Episodic
Activated long-term memory items
Learning: Being able to take notes while listening
Long-Term Memory Systems
• Episodic: memory for events, Link autobiographical, context, details– Learning is initially episodic, then semantic
• Semantic: facts, knowledge, vocabulary– Abstracted from episodes
• When tested, divided into visual and verbal (both episodic during standardized memory testing)
• Implicit: unconscious, includes procedural
Long-Term Memory Processes
• Encoding• Consolidation• Storage• Retrieval---most directly measureable• Learning: Knows a fact but can’t recall
when needed without prompting
Forgetting
• Fast at first, then slows down• 50% forgotten within 24 hours• Some retain well within 30 minutes or 1st
day but then have very poor retention afterwards
• Is it lost, or not retrievable at moment?• Interference: proactive and retroactive• Recognition versus free recall
Consolidation
1. Often ignored2. Evidence from TBI and amnesia3. Takes time4. Unconscious mostly5. Movement from medial temporal
lobe/hippocampus to cortical areas6. Episodic to semantic7. Much of it occurs during sleep
Strategy or Processing Deficit
1. Effective strategies enhance processing2. LD students are deficient in use of
strategies3. Difficult to assess and differentiate4. Learning and using strategies requires
more processing until they become automated (WM Catch 22)
5. LD due more to processing deficits than lack of strategies
Development of Processes
• Early gradual development followed by long-term plateau: auditory processing, visual processing, long-term memory
• Rapid early development followed by gradual decline after age 25: processing speed, short-term memory
• Basic functions develop earlier; higher level, such as executive (frontal lobes), later
Processing the Workshop Info.
• Explain to a parent what psychological processing is, in general
• Then explain one of the 10 processes to a parent
Processes and Academic Learning
• See Chart• Relationships established through
research• During assessment look at processes
related to area of academic concern• Discuss these evidence-based links in
your reports to justify placement
Highest Influence of Processes on Academics by Grade
• Early elementary: Phonological, visual, auditory, rapid automatic naming, STM, sequencing, fine motor control
• Late elementary and beyond: Executive, working memory, long-term memory, planning
• All grades: Processing speed, attention, verbal expression
SLD by Processing Subtypes
• Visual-Spatial Deficits: Math calculation and math problem solving
• Processing Speed Deficits: Reading comprehension, written expression
• Working Memory Deficit: Math calculation, Written expression
• Attention: Written expression• Source: Hain, Hale, Kendorski
WISC-IV Profile for Reading Disabled Sample
Perceptual Reasoning 94.4
Processing Speed 92.5
Verbal Comprehension 91.9
Working Memory 87.0
WISC-IV Profile for Math Disabled Sample
• Verbal Comprehension 93.2• Working Memory 92.9• Processing Speed 90.6• Perceptual Reasoning 87.7
What is a Processing Disorder?
Disorder---a group of symptoms involving abnormal behaviors or a disruption in physiological functioning
Not many official processing disorders E.g. CAPD, aphasia, amnesia, dyspraxia
A disorder involves deficits Deficit---a lack or shortage of something• Weakness---lacking normal ability
Evidence of a Processing Deficit
• It’s not specific to one environment• Both an intra-individual weakness and a
normative weakness (deficit per Dehn)• A normative weakness is a score below 90• Intra-individual: score is 12 or more points lower
than IQ or mean of assessed processes• A low score in a process is not necessarily a
deficit indicative of LD, unless it’s also an intra-individual weakness– E.g., very low IQ have inherent processing problems
Deficits Indicate Disabilities
1. Deficits (double weakness) are rare2. They have an underlying neurological basis3. They impair learning4. Students with below average IQ are less likely
to have5. Deficits more predictive of need for LD than an
ipsative weakness alone. 6. Below average processing (normative
weakness) is still a processing weakness that impacts learning and benefits from intervention
When Does a Processing Deficit Support an SLD Diagnosis?
• When it’s a double weakness deficit• When the process is one that is related to
the academic skill deficiency• When a process is significantly higher than
related academics, it’s not SLD but some other cause of poor skills (example)
• When both the academic skill and process are similarly low (consistency approach)
Consistency Approach
• With processing, use a consistency approach, not a discrepancy approach
– Low process + low academic skill = SLD
– NOT high process + low academic skill
Normative Weaknesses Only
• Normative weaknesses that are not also ipsative deficits may still be indicative of processing deficits that are impeding academic learning and causing a learning disability, as long as there is a pattern of strengths and weaknesses
• Normative weaknesses that are not ipsative weaknesses should targeted for intervention
Discussion: Processing the Workshop Information
1. How would you explain to a parent what psychological processes have to do with learning
1. For example, what is working memory and why is it important for learning
2. Pick 2 or 3 processes that you consider the most important for academic learning, in general, and explain why
Processing Assessment Challenges
1. Connecting to academic concerns
2. Interrelated processes
3. Informal methods lack validity
4. Not found in one convenient battery
5. Doing it efficiently
6. Having enough expertise
7. Connecting with interventions
Records Review
1. Any medical or health conditions
2. Developmental delays
3. Look for indications of same behaviors that could be observed
1. Difficulty memorizing arithmetic facts could be a working memory deficit
2. Difficulty blending could be phonological proc.
3. Low fluency could be processing speed problem
Interviews
1. From middle school up, do interviews1. E.g., “Do you often forget what was just
said?”
2. Teachers: Ask about observable behaviors, then ask their hypothess
3. With parents, use home environment examples
1. “Does your child have difficulty rhyming?”See examples
Observations
1. Some processes more observable than others, e.g. memory is more observable
2. There’s no one-to-one correspondence between a behavior and a process
3. Each behavior depends on multiple processes; try to narrow it down
1. E.g., poor organization could be due several(organization is not a specific brain process)See examples
Observations of Working Memory
• Abandonment of activity• Reserved in group activities• Short attention spans• Poor monitoring of work quality• Loses place in complicated tasks• Examples of evidence-based behaviors
associated with WM deficiencies Link• See also LTM observations
Observations During Testing
• Corroborates scores• Examples:
– Speed– Retrieval– Needing directions repeated– Attention– Fine motor
Cross-Battery Method
1. Administer specific subtests/factors only2. Mix tests/batteries to cover all the
processes (at least those of concern)1. Limit to 2 or 3 batteries2. Should be normed about the same time
3. Avoid redundancies4. Ideally, 2 subtests per process5. Analyze results together by computing a
cross-battery mean
Cross-Battery Criticisms
1. Only some subtests are administered
2. Tests may have been normed at different times
3. Different subtests with same names measure different tasks & vice versa
4. There are no norms for the cross-battery mean
5. It relies mainly on subtest analysis
Dehn’s Approach to Cross Battery versus Flanagan’s
1. Not limited to CHC factors1. CHC factors are too broad; some processes
need to be differentiated, e.g., phonological from auditory and visuospatial short-term memory from visuospatial
2. Not Quantitative reasoning, and crystallized
2. Analyze scores at the factor (two-subtest) level whenever possible
3. Use a hand computation analysis sheet4. A more neuropsychological approach
Hypothesis Testing Approach
1. Collect preliminary data1. Records review, observation, interview
2. Identify referral concerns
3. Generate processing hypotheses (suspected processing problems)
4. Select batteries/tests/subtests1. Cover all hypotheses
2. Avoid redundancies
Selective Testing
1. Not necessary to administer entire battery
2. Focus most on hypothesized deficits
3. Know the factors/subtests that measure processes
4. Apply a cross-battery approach
5. See selective testing table for cog. & ach.
Completing the Processing Assessment Planner
1. Enter academic learning referral concerns
2. Look at Table 1: Processes and learning
3. Enter hypothesized, suspected processes
4. Select assessment method
5. Look at selective testing tables
6. Select battery
7. Select specific subtest or factor
Planner
Case Study: Hannah
• Concerns:– Struggles in math, reading comprehension,
and written expression– Does poorly on classroom exams– Difficulty learning new concepts
• Background: adopted; slow speech dev.; retained in K; learning problems since K
• Strengths: Oral expression, vocabulary• Completed Planner Example
Cross-Battery Analysis of Scores
1. See Processing Analysis Worksheet2. Get factor scores from test manual when
possible3. Exclude non-processing factors and subtests4. Compute clinical factor scores by averaging
1. First convert scaled scores to 100/15 metric5. Compute processing mean or use IQ6. Calculate difference scores7. Determine weaknesses and deficits8. Do pairwise comparisons
Examples of Logical Processing Pairs
• Visual vs auditory• STM vs LTR• Phonological vs STM• Attention vs Executive• Auditory vs verbal expression• Verbal expression vs fine motor control• WM vs STM• WM vs LTR
Case Study Hannah’s Results
• Full Scale IQ = 89• Basic Reading Skills = 95• Reading Comprehension = 81• Mathematics Reasoning = 82
Case Study: Hannah
1. (finish example)
2. Identify normative weaknesses/strengths
3. Identify ipsative weaknesses/strengths
4. Identify deficits and assets
5. Which processing hypotheses are supported and which are not?
1. Look back at planning sheet
Case Study: Hannah
1. Use Hannah’s data2. What are her processing deficits?3. Do they link with her learning and
achievement problems?4. Does her processing profile explain her
academic learning problems?5. Does she qualify for the processing
component of LD?6. Does she qualify for LD overall?
Assessing Processing with Wechslers
• Processes assessed by Wechslers– Processing speed– Visual processing---compute clinical factor– Working memory (not WPPSI-III)
• Need to supplement with other scales• Processing interpretation will be based on
processing factors only; exclude Verbal Comprehension Index
Wechsler GAI Score
• General Ability Index• A traditional measure of IQ based on 6
core subtests• Recommended for IQ-Ach discrepancy
when processing speed or working memory are pulling down FSIQ
• However, do not use for determining processing strengths and weaknesses
WISC-IV Integrated
1. 16 additional process subtests
2. Requires regular WISC-IV administration
3. Based on Kaplan neuropsych approach
4. To parse out the cognitive processes that underlie subtest performance
5. Select subtests based on hypotheses
6. Emphasizes subtest and intrasubtest interpretation
WISC-IV Integrated
• Best for in-depth working memory testing• Processes measured by process subtests:
– Visual processing– Planning/executive processing– Long-term retrieval– Short-term memory (registration)– Working memory (manipulation)
• Visual• Auditory
WISC-IV Integrated Interpretation
1. Compute clinical factor scores1. Short-Term Memory
2. Visual Short-Term Memory
3. Auditory Short-Term Memory
4. Working Memory
5. Visual Working Memory
6. Auditory Working Memory Link
2. Use processing analysis worksheet
WJ III Cog.
• Ideal: measures several processes Link• Works well as CB supplement to other
tests• Has at least 2 subtests for most processes• Processing analysis worksheet needed
less• Co-normed with WJ III achievement
WJ III COG Interpretation Options
1. Use Compuscore Intra-Cog. Discrepancy 1. Use 1 SD as ipsative significance indicator
2. Use Predicted Achievement/Achievement Discrepancy
1. Predicted achievement is based on the processes that are most related to the skill
2. The process scores are weighted3. Look for consistency or even lower achievement
3. Use processing analysis worksheet if other tests
1. Omit Comprehension-Knowledge
Assessing Memory
• Should be a priority with LD referrals
• Intellectual/cognitive scales not enough
• Many different types of long-term memory– Semantic is primary for academic learning
WRAML-2
• Authors: Adams and Sheslow• Published by Wide Range, 2003• Ages 5-90• Has a new Working Memory Composite• In 1990, WRAML was 1st well normed test
battery for memory assessment in children• Normed on sample of 1200• Assess memory subcomponents
WRAML-2 Composites
• General Memory• Verbal Memory• Visual Memory• Attention/Concentration• Working Memory• Verbal Recognition• Visual Recognition• General Recognition
NEPSY-II
• Neuropsychological test (SPs with training)
• 2007, Pearson• Authors: Korkman, Kirk, and Kemp• Ages 3-16:11• 34 subtests across 6 domains• Based on Lurian tradition of looking for
subcomponents that may underlie impairment of system
NEPSY-II Processes in 6 Domains
1. Attention and executive functioning
2. Language
3. Memory and learning
4. Sensorimotor
5. Social perception
6. Visuospatial processing
Testing Processes with Achievement Tests
• WJ III Achievement• KTEA-II• WIAT-III
Link
The BRIEF
• Behavior Rating Inventory of Executive Function
• Parent, Teacher, and Student Forms• Ages 5-18; 86 items• Normed in the state of Maryland only• Has a global executive composite score• Two Indexes: Behavioral Regulation and
Metacognition
The Brief’s Scales
• Inhibit• Shift• Emotional Control• Initiate• Working Memory (weak scale)• Plan/Organize• Organization of Materials• Monitor
Children’s Psychological Processes Scale (Dehn)
• Available fall of 2011• Scaled score for each of the 11 processes
discussed today • Teacher rating scale, about 130 items• Entirely online, except manual• Will provide documentation of patterns of
strengths and weaknesses • More MN subjects needed
Other Tests
• Includes rating scales, self-report scales, specialized process tests, etc.
• Learning Efficiency Tests (LET-II): Memory• See List
General Interpretative Guidelines for Processing Assessment
1. A deviation from a reference point1. IQ2. Cross-Battery mean3. Related pairing (not best evidence of deficit)
2. Normative versus ipsative1. With both, impairments more likely
3. Qualitative information4. Corroborating information
Interpretative Guidelines
5. Go beyond test labels; reclassify6. Consider disability profiles7. Link to achievement deficit8. Consider influence of related processes9. Consider strategy deficiencies10.Okay to focus on subtests/subprocesses11. Consider interventions12.Consider other causes
The Influence of Other Factors on Process Test Performance
• Poor processing performance maybe due to lack of strategy development
• May be due to lack of exposure and opportunities, e.g. phonemic awareness lower in lower SES
• Temporary medical conditions, e.g. concussion
• Brain process may be deteriorating
Report Writing Recommendations
1. Do not report on a test-by-test basis; rather process by process
1. Integrate data from other sources
2. Explain how the processing results were analyzed, including processing mean
3. Distinguish between normative and ipsative weaknesses
4. Define each process See Example
Case Study: “Jacob”
• Age 13; 7th grade• Foster care; special ed placement• 3 months premature; failure to thrive• Early elementary IQ of 70; recent IQ of 95• ADHD diagnosis; poor organization• Social skills problems• Difficulty completing homework• Moderately high test anxiety
Case Study Continued
• Likes to read• Struggles with Math and Written Lang. • Reading Composite – 106• Math Composite – 88• Wr. Lang. Composite – 73• Oral Lang Composite - 87• List your processing hypotheses to account for
low achievement and background factors
Case Study Continued
• Finish Jacob’s Proc. Analysis Worksheet• What are his processing deficits?• What are his processing strengths?• Do his processing deficits link to his low
achievement areas?• Does his processing profile explain his learning
difficulties?• Does he qualify for SLD in processing?• What else should be tested?
Determining Psych. Processing Deficits for MN’s SLD Criteria
1. Use Jacob’s data
2. See MN worksheet; go through steps
3. What are his processing deficits?
4. Do they link with his learning and achievement problems?
5. Complete other steps.
Case Study Continued
• Discuss how you will explain to Jacob’s parents and teachers how his processing deficits are impacting his academic learning
• What strengths does Jacob have that might be utilized during interventions?
• Which processing areas are most in need of intervention?
Conclusions About Processing Assessment
• It can be done well but there are challenges
• Professional judgment is necessary• Selective, cross-battery testing necessary• Test the processes associated with the
academic deficiency• Use the consistency approach• Explain the link
Interventions
• Should be brain-based; change the brain• Strengthen weakness when possible• Teach strategies• Some are content specific• Some are similar to study skills• Metacognitive aspect is important• Can be part of effective instru
Group Discussion
1. Which assessment procedures do you plan to use?
2. What recommendations do you plan to take back to your district for processing assessment?
3. How do you view the processing assessment-intervention link?