Self-Rated Anosognosia Score May Be a Sensitive and Predictive Indicator for Progressive Brain Atrophy in Amyotrophic Lateral Sclerosis: An X-Ray Computed Tomographic Study
Abstract:We investigated whether a self-rated anosognosia score can be an indicator for progression of brain atrophy in patients with amyotrophic lateral sclerosis (ALS). Scores for 16 patients were compared with the ventricular areas of the bilateral anterior and inferior horns measured on x-ray computed tomography. Longitudinal enlargement was expressed as a monthly increase in size: (ventricular size at the initial scan – ventricular size at the follow-up scan)/scan interval (months). The anosognosia scores ranged f… Show more
“…(2006)Ordinal regression; F and Bonferroni tests p < 0.005Not applicable (visual inspection) p < 0.001Loss of insight into behavioural change was associated with right frontal hypoperfusionLevy et al. (2018)Regression; R 2 Not specifiedNot specified R 2 = =0.45 for self-regulation mask- Outcomes from measures of clinical judgement were more robust than patient-informant DS when correlating with brain structures.- Altered global insight correlated with left OFC and right rostral ACC in the whole cohort of patients (bvFTD, CBS and PPA).- Episodic memory functioning did not predict altered insight.Ichikawa et al. (2013)Two-tailed Fisher correlation p < 0.05N/A (areas of horns measured in mm2) p = 0.0016 for anterior horn; p < 0.0001 for inferior horn- Significant positive correlations between anosognosia scores and increase of anterior and inferior horns sizes (indexes of frontotemporal atrophy) in ALS, but especially ALS with FTLD.- Longitudinal increases of horn sizes were significantly more rapid in non-demented ALS patients compared with controls.- The anosognosia score was predominantly correlated with longitudinal enlargement of the inferior horn size (index of medial temporal lobes atrophy) in non-demented ALS patients.Hornberger et al.…”
Section: Resultsmentioning
confidence: 98%
“…Among the 37 papers shortlisted for full reading, 22 were considered not pertinent since they did not make use of neuroimaging or focused on neurogenerative diseases other than FTD. 15 studies met the selection criteria of this systematic review (Amanzio et al., 2016; Bastin et al., 2012; Garcia-Cordero et al., 2016; Hornberger et al., 2014; Ichikawa et al., 2013; Levy et al., 2018; Massimo et al., 2013; McMurtray et al., 2006; Mendez and Shapira, 2005; Miller et al., 1997; Rosen et al., 2010; Ruby et al., 2007; Shany-Ur et al., 2014; Sollberger et al., 2014; Zamboni et al., 2010) (Tables 2 and 3). Fig.…”
Section: Resultsmentioning
confidence: 99%
“…(2006)74 bvFTDClinical judgment using Frontotemporal Dementia Inventory (degree of characterization of the object in reference ranging from 1 -not characteristic at all- to 5 -extremely characteristic-)Behavioural changeVisual rating of SPECT imagesGoodLevy et al. (2018)26 bvFTD 29 CBS 12 PPAClinical judgment on the NRS item ‘Inaccurate insight and self-appraisal’ ranging from 1 (not present) to 7 (extremely severe) Participant - informant DS on the FrSBe.Presence of disease and health status Executive dysfunctionMRI with automated parcellation of cerebral cortex into 68 regions of interest using FreeSurferGoodIchikawa et al. (2013)8 ALS 8 FTLD 11 HCClinical judgement Combination of DS between patients’ & clinicians’ judgement on an Anosognosia scale (scores ranging from 0 to 32)Overall motor, cognitive and emotional functioning.Longitudinal changes of areas of bilateral anterior and inferior horns on CT images using SynapseGoodHornberger et al.…”
Section: Resultsmentioning
confidence: 99%
“…(2012)★★★★★★★★★★★★ (6)Garcia-Cordero et al., 2016★★★★★★★★★★★★ (6)Hornberger et al. (2014)★★★★★★★★★★★★ (6)Ichikawa et al. (2013)★★★★★★★★★★★★★★★★ (8)Levy et al.…”
HighlightsFractionating insight into objects aids its neuroanatomical exploration in dementia.Distinctive neural correlates seem to underpin different insight objects in FTD.Altered insight into disease/health condition mostly involves right frontal areas.Altered insight into social cognition implicates frontal, temporal and limbic areas.Frontal, medial temporal and parietal areas underpin insight into memory problems.
“…(2006)Ordinal regression; F and Bonferroni tests p < 0.005Not applicable (visual inspection) p < 0.001Loss of insight into behavioural change was associated with right frontal hypoperfusionLevy et al. (2018)Regression; R 2 Not specifiedNot specified R 2 = =0.45 for self-regulation mask- Outcomes from measures of clinical judgement were more robust than patient-informant DS when correlating with brain structures.- Altered global insight correlated with left OFC and right rostral ACC in the whole cohort of patients (bvFTD, CBS and PPA).- Episodic memory functioning did not predict altered insight.Ichikawa et al. (2013)Two-tailed Fisher correlation p < 0.05N/A (areas of horns measured in mm2) p = 0.0016 for anterior horn; p < 0.0001 for inferior horn- Significant positive correlations between anosognosia scores and increase of anterior and inferior horns sizes (indexes of frontotemporal atrophy) in ALS, but especially ALS with FTLD.- Longitudinal increases of horn sizes were significantly more rapid in non-demented ALS patients compared with controls.- The anosognosia score was predominantly correlated with longitudinal enlargement of the inferior horn size (index of medial temporal lobes atrophy) in non-demented ALS patients.Hornberger et al.…”
Section: Resultsmentioning
confidence: 98%
“…Among the 37 papers shortlisted for full reading, 22 were considered not pertinent since they did not make use of neuroimaging or focused on neurogenerative diseases other than FTD. 15 studies met the selection criteria of this systematic review (Amanzio et al., 2016; Bastin et al., 2012; Garcia-Cordero et al., 2016; Hornberger et al., 2014; Ichikawa et al., 2013; Levy et al., 2018; Massimo et al., 2013; McMurtray et al., 2006; Mendez and Shapira, 2005; Miller et al., 1997; Rosen et al., 2010; Ruby et al., 2007; Shany-Ur et al., 2014; Sollberger et al., 2014; Zamboni et al., 2010) (Tables 2 and 3). Fig.…”
Section: Resultsmentioning
confidence: 99%
“…(2006)74 bvFTDClinical judgment using Frontotemporal Dementia Inventory (degree of characterization of the object in reference ranging from 1 -not characteristic at all- to 5 -extremely characteristic-)Behavioural changeVisual rating of SPECT imagesGoodLevy et al. (2018)26 bvFTD 29 CBS 12 PPAClinical judgment on the NRS item ‘Inaccurate insight and self-appraisal’ ranging from 1 (not present) to 7 (extremely severe) Participant - informant DS on the FrSBe.Presence of disease and health status Executive dysfunctionMRI with automated parcellation of cerebral cortex into 68 regions of interest using FreeSurferGoodIchikawa et al. (2013)8 ALS 8 FTLD 11 HCClinical judgement Combination of DS between patients’ & clinicians’ judgement on an Anosognosia scale (scores ranging from 0 to 32)Overall motor, cognitive and emotional functioning.Longitudinal changes of areas of bilateral anterior and inferior horns on CT images using SynapseGoodHornberger et al.…”
Section: Resultsmentioning
confidence: 99%
“…(2012)★★★★★★★★★★★★ (6)Garcia-Cordero et al., 2016★★★★★★★★★★★★ (6)Hornberger et al. (2014)★★★★★★★★★★★★ (6)Ichikawa et al. (2013)★★★★★★★★★★★★★★★★ (8)Levy et al.…”
HighlightsFractionating insight into objects aids its neuroanatomical exploration in dementia.Distinctive neural correlates seem to underpin different insight objects in FTD.Altered insight into disease/health condition mostly involves right frontal areas.Altered insight into social cognition implicates frontal, temporal and limbic areas.Frontal, medial temporal and parietal areas underpin insight into memory problems.
“…Interestingly, a computed tomography study performed in ALS patients with FTD found that impaired cognitive self-awareness, as evaluated by one 8-item scale about motor and cognitive abilities, was associated with enlargement of the anterior and inferior horn sizes of the lateral ventricle, which was interpreted as reflecting MTL atrophy (Ichikawa et al, 2013). This single although interesting study calls for in-depth neuroimaging investigations on self-awareness in ALS.…”
Section: Unawareness Of Memory Deficits Hasmentioning
Accurate self-awareness is essential for adapting one's behaviour to one's actual abilities, to avoid risky behaviour. Impaired self-awareness of deficits is common in neurodegenerative diseases. Numerous studies show an involvement of midline cortical areas in impaired self-awareness. Among the other brain regions implicated stand the medial temporal lobe (MTL) structures (i.e. hippocampus, amygdala, and temporopolar, entorhinal, perirhinal and posterior parahippocampal cortices). This review aims at evaluating the role of those structures in self-awareness in neurodegenerative diseases. To this aim, we briefly review impaired self-awareness in neurodegenerative diseases, give a neuroanatomical background on the MTL structures, and report those identified in neuroimaging studies on self-awareness. The MTL shows neuropathological, and structural or functional changes in patients who overestimate their abilities in the cognitive, socio-emotional or daily life activities domains. The structures implicated differ depending on the domain considered, suggesting a modality-specific involvement. The functional significance of the findings is discussed in view of the neuroanatomical networks of the MTL and in the context of theoretical models of self-awareness.
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