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Exploring a New Application of Construct Specification Equations (CSEs) and Entropy : A Pilot Study with Balance Measurements

Melin, Jeanette ; Fridberg, Helena ; Hansson, Eva Ekvall LU ; Smedberg, Daniel LU and Pendrill, Leslie (2023) In Entropy 25(6).
Abstract

Both construct specification equations (CSEs) and entropy can be used to provide a specific, causal, and rigorously mathematical conceptualization of item attributes in order to provide fit-for-purpose measurements of person abilities. This has been previously demonstrated for memory measurements. It can also be reasonably expected to be applicable to other kinds of measures of human abilities and task difficulty in health care, but further exploration is needed about how to incorporate qualitative explanatory variables in the CSE formulation. In this paper we report two case studies exploring the possibilities of advancing CSE and entropy to include human functional balance measurements. In case study I, physiotherapists have... (More)

Both construct specification equations (CSEs) and entropy can be used to provide a specific, causal, and rigorously mathematical conceptualization of item attributes in order to provide fit-for-purpose measurements of person abilities. This has been previously demonstrated for memory measurements. It can also be reasonably expected to be applicable to other kinds of measures of human abilities and task difficulty in health care, but further exploration is needed about how to incorporate qualitative explanatory variables in the CSE formulation. In this paper we report two case studies exploring the possibilities of advancing CSE and entropy to include human functional balance measurements. In case study I, physiotherapists have formulated a CSE for balance task difficulty by principal component regression of empirical balance task difficulty values from Berg’s Balance Scale transformed using the Rasch model. In case study II, four balance tasks of increasing difficulty due to diminishing bases of support and vision were briefly investigated in relation to entropy as a measure of the amount of information and order as well as physical thermodynamics. The pilot study has explored both methodological and conceptual possibilities and concerns to be considered in further work. The results should not be considered as fully comprehensive or absolute, but rather open up for further discussion and investigations to advance measurements of person balance ability in clinical practice, research, and trials.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
metrology, Rasch model, task difficulty, validation
in
Entropy
volume
25
issue
6
article number
940
publisher
MDPI AG
external identifiers
  • pmid:37372284
  • scopus:85163886265
ISSN
1099-4300
DOI
10.3390/e25060940
language
English
LU publication?
yes
id
df885520-1c36-480c-a94a-e45a44e4b432
date added to LUP
2023-09-15 11:53:41
date last changed
2024-04-19 00:52:44
@article{df885520-1c36-480c-a94a-e45a44e4b432,
  abstract     = {{<p>Both construct specification equations (CSEs) and entropy can be used to provide a specific, causal, and rigorously mathematical conceptualization of item attributes in order to provide fit-for-purpose measurements of person abilities. This has been previously demonstrated for memory measurements. It can also be reasonably expected to be applicable to other kinds of measures of human abilities and task difficulty in health care, but further exploration is needed about how to incorporate qualitative explanatory variables in the CSE formulation. In this paper we report two case studies exploring the possibilities of advancing CSE and entropy to include human functional balance measurements. In case study I, physiotherapists have formulated a CSE for balance task difficulty by principal component regression of empirical balance task difficulty values from Berg’s Balance Scale transformed using the Rasch model. In case study II, four balance tasks of increasing difficulty due to diminishing bases of support and vision were briefly investigated in relation to entropy as a measure of the amount of information and order as well as physical thermodynamics. The pilot study has explored both methodological and conceptual possibilities and concerns to be considered in further work. The results should not be considered as fully comprehensive or absolute, but rather open up for further discussion and investigations to advance measurements of person balance ability in clinical practice, research, and trials.</p>}},
  author       = {{Melin, Jeanette and Fridberg, Helena and Hansson, Eva Ekvall and Smedberg, Daniel and Pendrill, Leslie}},
  issn         = {{1099-4300}},
  keywords     = {{metrology; Rasch model; task difficulty; validation}},
  language     = {{eng}},
  number       = {{6}},
  publisher    = {{MDPI AG}},
  series       = {{Entropy}},
  title        = {{Exploring a New Application of Construct Specification Equations (CSEs) and Entropy : A Pilot Study with Balance Measurements}},
  url          = {{http://dx.doi.org/10.3390/e25060940}},
  doi          = {{10.3390/e25060940}},
  volume       = {{25}},
  year         = {{2023}},
}