Objective: To define the clinical usability of an affect recognition (AR) battery—the Comprehensive Affect Testing System (CATS)—in an Italian sample of patients with amyotrophic lateral sclerosis (ALS). Methods: 96 ALS patients and 116 healthy controls underwent a neuropsychological assessment including the AR subtests of the abbreviated version of the CATS (CATS-A). CATS-A AR subtests and their global score (CATS-A AR Quotient, ARQ) were assessed for their factorial, convergent, and divergent validity. The diagnostic accuracy of each CATS-A AR measure in discriminating ALS patients with cognitive impairment from cognitively normal controls and patients was tested via receiver-operating characteristics analyses. Optimal cut-offs were identified for CATS-A AR measures yielding an acceptable AUC value (≥.70). The ability of CATS-A ARQ to discriminate between different ALS cognitive phenotypes was also tested. Gray-matter (GM) volumes of controls, ALS with normal (ALS-nARQ), and impaired ARQ score (ALS-iARQ) were compared using ANCOVA models. Results: CATS-A AR subtests and ARQ proved to have moderate-to-strong convergent and divergent validity. Almost all considered CATS-A measures reached acceptable accuracy and diagnostic power (AUC range =.79–.83). ARQ showed to be the best diagnostic measure (sensitivity =.80; specificity =.75) and discriminated between different ALS cognitive phenotypes. Compared to ALS-nARQ, ALS-iARQ patients showed reduced GM volumes in the right anterior cingulate, right middle frontal, left inferior temporal, and superior occipital regions. Conclusions: The AR subtests of the CATS-A, and in particular the CATS-A ARQ, are sound measures of AR in ALS. AR deficits may be a valid marker of frontotemporal involvement in these patients.

Castelnovo, V., Canu, E., Aiello, E., Curti, B., Sibilla, E., Torre, S., et al. (2024). How to detect affect recognition alterations in amyotrophic lateral sclerosis. JOURNAL OF NEUROLOGY [10.1007/s00415-024-12686-6].

How to detect affect recognition alterations in amyotrophic lateral sclerosis

Aiello E. N.;
2024

Abstract

Objective: To define the clinical usability of an affect recognition (AR) battery—the Comprehensive Affect Testing System (CATS)—in an Italian sample of patients with amyotrophic lateral sclerosis (ALS). Methods: 96 ALS patients and 116 healthy controls underwent a neuropsychological assessment including the AR subtests of the abbreviated version of the CATS (CATS-A). CATS-A AR subtests and their global score (CATS-A AR Quotient, ARQ) were assessed for their factorial, convergent, and divergent validity. The diagnostic accuracy of each CATS-A AR measure in discriminating ALS patients with cognitive impairment from cognitively normal controls and patients was tested via receiver-operating characteristics analyses. Optimal cut-offs were identified for CATS-A AR measures yielding an acceptable AUC value (≥.70). The ability of CATS-A ARQ to discriminate between different ALS cognitive phenotypes was also tested. Gray-matter (GM) volumes of controls, ALS with normal (ALS-nARQ), and impaired ARQ score (ALS-iARQ) were compared using ANCOVA models. Results: CATS-A AR subtests and ARQ proved to have moderate-to-strong convergent and divergent validity. Almost all considered CATS-A measures reached acceptable accuracy and diagnostic power (AUC range =.79–.83). ARQ showed to be the best diagnostic measure (sensitivity =.80; specificity =.75) and discriminated between different ALS cognitive phenotypes. Compared to ALS-nARQ, ALS-iARQ patients showed reduced GM volumes in the right anterior cingulate, right middle frontal, left inferior temporal, and superior occipital regions. Conclusions: The AR subtests of the CATS-A, and in particular the CATS-A ARQ, are sound measures of AR in ALS. AR deficits may be a valid marker of frontotemporal involvement in these patients.
Articolo in rivista - Articolo scientifico
Amyotrophic lateral sclerosis; Comprehensive Affect Testing System; Emotion recognition; Gray matter volumes; Social cognition;
English
17-set-2024
2024
none
Castelnovo, V., Canu, E., Aiello, E., Curti, B., Sibilla, E., Torre, S., et al. (2024). How to detect affect recognition alterations in amyotrophic lateral sclerosis. JOURNAL OF NEUROLOGY [10.1007/s00415-024-12686-6].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/520900
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