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Unveiling covert disownership after stroke: a neuropsychological and neural approach.

Eugénie Cataldo, Eda Tipura, Corrado Corradi-Dell'Acqua, Thomas Martin, Fabien Albert, Frédéric Assal, Patrik Vuilleumier, Roberta Ronchi

Brain communications January 1, 2025 DOI: 10.1093/braincomms/fcaf217 via PubMed

Summary

About 30% of stroke patients show a subtle form of body part disownership—a feeling that a hand, arm, leg, or part of the face does not belong to them—that standard verbal interviews miss. Using brain lesion analyses and network-based modeling in 105 hospitalized stroke patients and 55 healthy controls, the study found that this covert disownership involves widespread disconnections between temporo-occipital and parietal networks, as well as fronto-basal and occipital pathways, rather than damage to a single brain region. Key structures implicated include the right insula and basal ganglia for upper limb ownership, and the left superior longitudinal fasciculus for right hand disownership. The findings suggest that sensitive, non-verbal assessments are needed to detect this disorder early after stroke, and that understanding brain damage as network disruption can improve rehabilitation.

Study at a glance

Characteristics Observational cohort Longitudinal Peer reviewed
Sample size 105
Population Hospitalized stroke patients in the early phase post-stroke
Keywords Bodily self-consciousness Brain lesion analyses Lack of ownership Structural disconnection Stroke stroke
Citations 4
Key finding Covert body part disownership occurs in about 30% of stroke patients and is linked to large-scale bilateral disconnections in temporo-parietal and fronto-occipital networks, not to a single brain lesion.

Abstract

Self-awareness can be impaired in different forms, including bodily features, following brain lesions. Such as other complex symptoms, these disorders seem not being localized in one brain area but may occur following the impairment of different parts of a network. One of the most disrupting body awareness disorder for people's functioning is the feeling that one or more body parts do not belong to the person anymore, the so-called 'body part disownership'. This symptom can be undetected, with recent findings suggesting that subtle signs of body disownership are revealed using an assessment with a non-verbal response, instead of a verbal interview. In the present study, by exploiting a large clinical dataset and state-of-the art analyses of lesion-induced disconnectivity, we have investigated this newly detected entity, called covert disownership, in the early phase post-stroke. 105 hospitalized stroke patients and 55 healthy controls were recruited over 2 years. Patients underwent a neurological and cognitive evaluation, including various measures of body ownership. We also assessed upper limb functions, using routine occupational therapy measures such as hand dexterity, strength, sensitivity and proprioception. To unveil its neural correlates, we ran innovative and robust region- and network-based lesion analyses. Our results indicate that about 30% of our sample exhibited covert disownership, involving either hands, arms, legs or face portions contralateral to the lesion, which affected the right- or the left-hemisphere. Lesion analyses confirmed the key role of structures such as the right insula, and basal ganglia, for upper limb ownership. Network-based structural connectivity data highlighted disconnections between temporo-occipital and parietal bilateral networks associated with disownership for the upper limb, as well as bilateral disconnections between fronto-basal and occipital parcels. Damage affecting the left superior longitudinal fasciculus was also linked to the right hand disownership. Altogether, we shed new light on the neural interconnections that, when perturbed, lead to body awareness disorders. Large-scale bilateral disconnections at the level of temporo-parietal and fronto-occipital networks explain covert disownership, with specific pathways as a function of the body part involved. We demonstrate that in the early phase of a brain damage this disorder may be underestimated but still affect patients' self-perception. This underscores the importance of sensitive tools to overcome the limitations of standard clinical examination, as well as of modelling brain damage in terms of networks rather than focal lesions. A better understanding of post-stroke disownership disorders may improve rehabilitation programs and predict optimal clinical outcome.

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