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Gajardo-Vidal, Andrea

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Gajardo-Vidal

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Now showing 1 - 3 of 3
  • Publication
    Network anatomy in logopenic variant of primary progressive aphasia
    (2022) Mandelli, Maria Luisa; Lorca-Puls, Diego L.; Lukic, Sladjana; Montembeault, Maxime; Gajardo-Vidal, Andrea; Licata, Abigail; Scheffler, Aaron; Battistella, Giovanni; Grasso, Stephanie M.; Bogley, Rian; Ratnasiri, Buddhika M.; Joie, Renaud La; Mundada, Nidhi S.; Europa, Eduardo; Rabinovici, Gil; Miller, Bruce L.; Leon , Jessica De; Henry, Maya L.; Miller, Zachary; Gorno-Tempini, Maria Luisa
    The logopenic variant of primary progressive aphasia (lvPPA) is a neurodegenerative syndrome characterized linguistically by gradual loss of repetition and naming skills resulting from left posterior temporal and inferior parietal atrophy. Here, we sought to identify which specific cortical loci are initially targeted by the disease (epicenters) and investigate whether atrophy spreads through predetermined networks. First, we used cross-sectional structural MRI data from individuals with lvPPA to define putative disease epicenters using a surface-based approach paired with an anatomically fine-grained parcellation of the cortical surface (i.e., HCP-MMP1.0 atlas). Second, we combined cross-sectional functional MRI data from healthy controls and longitudinal structural MRI data from individuals with lvPPA to derive the epicenter-seeded resting-state networks most relevant to lvPPA symptomatology and ascertain whether functional connectivity in these networks predicts longitudinal atrophy spread in lvPPA. Our results show that two partially distinct brain networks anchored to the left anterior angular and posterior superior temporal gyri epicenters were preferentially associated with sentence repetition and naming skills in lvPPA. Critically, the strength of connectivity within these two networks in the neurologically-intact brain significantly predicted longitudinal atrophy progression in lvPPA. Taken together, our findings indicate that atrophy progression in lvPPA, starting from inferior parietal and temporoparietal junction regions, predominantly follows at least two partially nonoverlapping pathways, which may influence the heterogeneity in clinical presentation and prognosis.
  • Publication
    Network anatomy in logopenic variant of primary progressive aphasia
    (2023) Mandelli, Maria Luisa; Lorca-Puls, Diego L.; Lukic, Sladjana; Montembeault, Maxime; Gajardo-Vidal, Andrea; Licata, Abigail; Scheffler, Aaron; Battistella, Giovanni; Grasso, Stephanie M.; Bogley, Rian; Ratnasiri, Buddhika M.; La Joie, Renaud; Mundada, Nidhi S.; Europa, Eduardo; Rabinovici, Gil; Miller, Bruce L.; Leon, Jessica De; Henry, Maya L.; Miller, Zachary; Gorno-Tempini, Maria Luisa
    The logopenic variant of primary progressive aphasia (lvPPA) is a neurodegenerative syndrome characterized linguistically by gradual loss of repetition and naming skills resulting from left posterior temporal and inferior parietal atrophy. Here, we sought to identify which specific cortical loci are initially targeted by the disease (epicenters) and investigate whether atrophy spreads through predetermined networks. First, we used cross-sectional structural MRI data from individuals with lvPPA to define putative disease epicenters using a surface-based approach paired with an anatomically fine-grained parcellation of the cortical surface (i.e., HCP-MMP1.0 atlas). Second, we combined cross-sectional functional MRI data from healthy controls and longitudinal structural MRI data from individuals with lvPPA to derive the epicenter-seeded resting-state networks most relevant to lvPPA symptomatology and ascertain whether functional connectivity in these networks predicts longitudinal atrophy spread in lvPPA. Our results show that two partially distinct brain networks anchored to the left anterior angular and posterior superior temporal gyri epicenters were preferentially associated with sentence repetition and naming skills in lvPPA. Critically, the strength of connectivity within these two networks in the neurologically-intact brain significantly predicted longitudinal atrophy progression in lvPPA. Taken together, our findings indicate that atrophy progression in lvPPA, starting from inferior parietal and temporoparietal junction regions, predominantly follows at least two partially nonoverlapping pathways, which may influence the heterogeneity in clinical presentation and prognosis.
  • Publication
    The effect of right temporal lobe gliomas on left and right hemisphere neural processing during speech perception and production tasks
    (2022) Yamamoto, Adam Kenji; Gajardo-Vidal, Andrea; Sanjuán, Ana; Pope, Rebecca; Parker Jones, Oiwi; Hope, Thomas M. H.; Prejawa, Susan; Oberhuber, Marion; Mancini, Laura; Ekert, Justyna O.; Creasey, Megan; Yousry , Tarek A.; Green, David W.; Price, Cathy J.
    Using fMRI, we investigated how right temporal lobe gliomas affecting the posterior superior temporal sulcus alter neural processing observed during speech perception and production tasks. Behavioural language testing showed that three pre-operative neurosurgical patients with grade 2, grade 3 or grade 4 tumours had the same pattern of mild language impairment in the domains of object naming and written word comprehension. When matching heard words for semantic relatedness (a speech perception task), these patients showed under-activation in the tumour infiltrated right superior temporal lobe compared to 61 neurotypical participants and 16 patients with tumours that preserved the right postero-superior temporal lobe, with enhanced activation within the (tumour-free) contralateral left superior temporal lobe. In contrast, when correctly naming objects (a speech production task), the patients with right postero-superior temporal lobe tumours showed higher activation than both control groups in the same right postero-superior temporal lobe region that was under-activated during auditory semantic matching. The task dependent pattern of under-activation during the auditory speech task and over-activation during object naming was also observed in eight stroke patients with right hemisphere infarcts that affected the right postero-superior temporal lobe compared to eight stroke patients with right hemisphere infarcts that spared it. These task-specific and site-specific cross-pathology effects highlight the importance of the right temporal lobe for language processing and motivate further study of how right temporal lobe tumours affect language performance and neural reorganisation. These findings may have important implications for surgical management of these patients, as knowledge of the regions showing functional reorganisation may help to avoid their inadvertent damage during neurosurgery.