Examining Differential Distractor Functioning in Reading Assessments for Students with Disabilities

Abedi, Jamal; Leon, Seth; Kao, Jenny C.

doi:10.1037/e642962011-001

Cited by 13 publications

(22 citation statements)

References 10 publications

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“…In this context, the concept of differential distractor functioning (DDF) is often used to describe conditions where individual distractors display different levels of attractiveness to the studied groups. However, the concept is not used consistently in the psychometric literature, sometimes referring to the differential functioning of a distractor relative to other distractors (e.g., Abedi, Leon, & Kao, 2007; Banks 2009; Green, Crone, & Folk, 1989), and in other places to differential functioning of a distractor relative to all response options, including the correct response (Dorans, Schmitt, & Bleistein, 1992; Penfield, 2008). Although both formulations can be practically useful, they are not equivalent.…”

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confidence: 99%

A Nested Logit Approach for Investigating Distractors as Causes of Differential Item Functioning

Suh

Bolt

2011

Journal of Educational Measurement

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In multiple‐choice items, differential item functioning (DIF) in the correct response may or may not be caused by differentially functioning distractors. Identifying distractors as causes of DIF can provide valuable information for potential item revision or the design of new test items. In this paper, we examine a two‐step approach based on application of a nested logit model for this purpose. The approach separates testing of differential distractor functioning (DDF) from DIF, thus allowing for clearer evaluations of where distractors may be responsible for DIF. The approach is contrasted against competing methods and evaluated in simulation and real data analyses.

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confidence: 99%

A Nested Logit Approach for Investigating Distractors as Causes of Differential Item Functioning

Suh

Bolt

2011

Journal of Educational Measurement

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“…As part of the PARA project, Abedi, Leon, and Kao (2007a, 2007b) examined test item characteristics that could cause or signal inappropriate barriers to successful test performance for students with disabilities. They compared the test performance of students with and without disabilities in terms of item bias.…”

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confidence: 99%

“…While the literature of DDF analysis is not very abundant (e.g., Abedi et al, 2007b; Banks, 2006; Green et al, 1989; Marshall, 1983; Middleton & Laitusis, 2007), there is some methodological variation such as the log‐linear approach (Green et al, 1989), the logistic regression approach (Abedi et al, 2007b), and the standardization approach (Dorans, Schmit, & Bleinstein, 1992). The log‐linear and logistic regression approaches specifically focused on DDF using incorrect responses only (e.g., Abedi et al, 2007b; Green et al, 1989). These approaches are appealing, because they enable simple interpretations, and including the correct response in the model sometimes overwhelms subtle DDF (Green et al, 1989).…”

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Differentials of a State Reading Assessment: Item Functioning, Distractor Functioning, and Omission Frequency for Disability Categories

Kato

Moen

Thurlow

2009

Educational Measurement

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Large data sets from a state reading assessment for third and fifth graders were analyzed to examine differential item functioning (DIF), differential distractor functioning (DDF), and differential omission frequency (DOF) between students with particular categories of disabilities (speech/language impairments, learning disabilities, and emotional behavior disorders) and students without disabilities. Multinomial logistic regression was employed to compare response characteristic curves (RCCs) of individual test items. Although no evidence for serious test bias was found for the state assessment examined in this study, the results indicated that students in different disability categories showed different patterns of DIF, DDF, and DOF, and that the use of RCCs helps clarify the implications of DIF and DDF.

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“…Although improvements have been made in this area, it remains the case that tests are most often made accessible to students with disabilities retrospectively, through the use of accommodations that may affect measurement of the construct and alter the meaning of resulting test scores. Second, a significantly higher proportion of students with learning disabilities fall into the lower tail of the proficiency distribution.Because state tests are usually designed to provide the most accurate measurement in the midrange of the ability scale, where the bulk of students are located, students with proficiencies on the low end of the scale may have no alternative but to guess randomly on many questions (Abedi, Leon, & Kao, 2007;Minnema, Thurlow, Bielinski, & Scott, 2000). Empirical evidence 2 of this was provided by Laitusis, Buzick, Cook, and Stone (2011, p. 293), in which the percentage of students with learning disabilities scoring at chance level on 4th-and 8th-grade mathematics and English-language arts assessments from one state ranged from 12-22%, while the percentage for students without disabilities ranged from 1-3% on the same tests.…”

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confidence: 99%

“…Because state tests are usually designed to provide the most accurate measurement in the midrange of the ability scale, where the bulk of students are located, students with proficiencies on the low end of the scale may have no alternative but to guess randomly on many questions (Abedi, Leon, & Kao, 2007;Minnema, Thurlow, Bielinski, & Scott, 2000). Empirical evidence 2 of this was provided by Laitusis, Buzick, Cook, and Stone (2011, p. 293), in which the percentage of students with learning disabilities scoring at chance level on 4th-and 8th-grade mathematics and English-language arts assessments from one state ranged from 12-22%, while the percentage for students without disabilities ranged from 1-3% on the same tests.…”

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confidence: 99%

Computer‐adaptive Testing for Students With Disabilities: A Review of the Literature

Stone

Davey

2011

ETS Research Report Series

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There has been an increased interest in developing computer-adaptive testing (CAT) and multistage assessments for K-12 accountability assessments. The move to adaptive testing has been met with some resistance by those in the field of special education who express concern about routing of students with divergent profiles (e.g., some students with math-based learning disabilities may have difficulty with basic computation but not high level problem solving) and poor performance on early test questions. This paper consists of a literature review focusing on adaptive testing issues for students with disabilities in the K-12 sector. While it is clear that there are issues that will present obstacles to administering accountability tests adaptively to students with disabilities, this synthesis of research and policy developments with respect to this topic will be useful both for development of research agendas and to inform states that are currently using or are considering moving to CAT.Keywords: accountability, computer-adaptive testing, CAT, disabilities, K-12ii to evaluate student proficiency and identify achievement deficits (primarily at the sub-group, school, and district levels) via approved assessments aligned with specific content-based standards. Policies related to the use of standardized testing for accountability have been criticized, particularly in the context of evaluating the proficiency of students with disabilities.Often, the criticisms have focused on exclusion of students with disabilities from state testing and the inappropriate difficulty level of the general test for some students. Students with disabilities typically have individualized education programs (IEPs) that describe under what specific conditions a particular student will be assessed. These conditions may involve accommodations on the general test form or administration of an alternate assessment of below- It has been argued that many state tests do not appropriately measure the proficiency of students with disabilities. Achievement gaps between these and other students would correspondingly be misrepresented as well. These arguments can be summarized as follows:First, state tests are not often deliberately assembled in accordance with principles of universal design (Johnstone, Altman, & Thurlow, 2006) that incorporate accessibility into the test development process from the start. Although improvements have been made in this area, it remains the case that tests are most often made accessible to students with disabilities retrospectively, through the use of accommodations that may affect measurement of the construct and alter the meaning of resulting test scores. Second, a significantly higher proportion of students with learning disabilities fall into the lower tail of the proficiency distribution.Because state tests are usually designed to provide the most accurate measurement in the midrange of the ability scale, where the bulk of students are located, students with proficiencies on the low end of the scale may have no a...

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Examining Differential Distractor Functioning in Reading Assessments for Students with Disabilities

Cited by 13 publications

References 10 publications

A Nested Logit Approach for Investigating Distractors as Causes of Differential Item Functioning

A Nested Logit Approach for Investigating Distractors as Causes of Differential Item Functioning

Differentials of a State Reading Assessment: Item Functioning, Distractor Functioning, and Omission Frequency for Disability Categories

Computer‐adaptive Testing for Students With Disabilities: A Review of the Literature

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