A multilevel structural equation model for assessing a drug effect on a patient‐reported outcome measure in on‐demand medication data
A multilevel structural equation model for assessing a drug effect on a patient‐reported outcome measure in on‐demand medication data
We analyze data from a clinical trial investigating the effect of an on-demand drug for women with low sexual desire. These data consist of a varying number of measurements/events across patients of when the drug was taken, including data on a patient-reported outcome consisting of five items measuring an unobserved construct (latent variable). Traditionally, these data are aggregated prior to analysis by composing one sum score per event and averaging this sum score over all observed events. In this paper, we explain the drawbacks of this aggregating approach. One drawback is that these averages have different standard errors because the variance of the underlying events differs between patients and because the number of events per patient differs. Another drawback is the implicit assumption that all items have equal weight in relation to the latent variable being measured. We propose a multilevel structural equation model, treating the events (level 1) as nested observations within patients (level 2), as alternative analysis method to overcome these drawbacks. The model we apply includes a factor model measuring a latent variable at the level of the event and at the level of the patient. Then, in the same model, the latent variables are regressed on covariates to assess the drug effect. We discuss the inferences obtained about the efficacy of the on-demand drug using our proposed model. We further illustrate how to test for measurement invariance across grouping covariates and levels using the same model.
latent variable modeling, measurement invariance, multilevel analysis, patient-reported outcomes, structural equation modeling
1652-1672
Kessels, Rob
e01f5370-c566-4ce0-8679-03256c6e8e68
Moerbeek, Mirjam
cb334a2e-5e73-450d-855d-5655f285e221
Bloemers, Jos
2034920c-07df-4c53-bb27-6a729dbec3e9
Van Der Heijden, Peter G.m.
85157917-3b33-4683-81be-713f987fd612
9 December 2021
Kessels, Rob
e01f5370-c566-4ce0-8679-03256c6e8e68
Moerbeek, Mirjam
cb334a2e-5e73-450d-855d-5655f285e221
Bloemers, Jos
2034920c-07df-4c53-bb27-6a729dbec3e9
Van Der Heijden, Peter G.m.
85157917-3b33-4683-81be-713f987fd612
Kessels, Rob, Moerbeek, Mirjam, Bloemers, Jos and Van Der Heijden, Peter G.m.
(2021)
A multilevel structural equation model for assessing a drug effect on a patient‐reported outcome measure in on‐demand medication data.
Biometrical Journal, 63 (8), .
(doi:10.1002/bimj.202100046).
Abstract
We analyze data from a clinical trial investigating the effect of an on-demand drug for women with low sexual desire. These data consist of a varying number of measurements/events across patients of when the drug was taken, including data on a patient-reported outcome consisting of five items measuring an unobserved construct (latent variable). Traditionally, these data are aggregated prior to analysis by composing one sum score per event and averaging this sum score over all observed events. In this paper, we explain the drawbacks of this aggregating approach. One drawback is that these averages have different standard errors because the variance of the underlying events differs between patients and because the number of events per patient differs. Another drawback is the implicit assumption that all items have equal weight in relation to the latent variable being measured. We propose a multilevel structural equation model, treating the events (level 1) as nested observations within patients (level 2), as alternative analysis method to overcome these drawbacks. The model we apply includes a factor model measuring a latent variable at the level of the event and at the level of the patient. Then, in the same model, the latent variables are regressed on covariates to assess the drug effect. We discuss the inferences obtained about the efficacy of the on-demand drug using our proposed model. We further illustrate how to test for measurement invariance across grouping covariates and levels using the same model.
Text
Biometrical J - 2021 - Kessels - A multilevel structural equation model for assessing a drug effect on a patient‐reported
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More information
Accepted/In Press date: 19 June 2021
e-pub ahead of print date: 16 July 2021
Published date: 9 December 2021
Keywords:
latent variable modeling, measurement invariance, multilevel analysis, patient-reported outcomes, structural equation modeling
Identifiers
Local EPrints ID: 453313
URI: http://eprints.soton.ac.uk/id/eprint/453313
ISSN: 0323-3847
PURE UUID: 83e19fce-7aff-4de1-aa8f-b7a525e08c1e
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Date deposited: 12 Jan 2022 17:41
Last modified: 16 Apr 2024 01:45
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Author:
Rob Kessels
Author:
Mirjam Moerbeek
Author:
Jos Bloemers
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