Your search keyword '"Fernandez-Espejo D"' showing total 13 results

1. Relationship between etiology and covert cognition in the minimally conscious state

Author

Cruse, D., primary, Chennu, S., additional, Chatelle, C., additional, Fernandez-Espejo, D., additional, Bekinschtein, T. A., additional, Pickard, J. D., additional, Laureys, S., additional, and Owen, A. M., additional

Published

2012

2. Diffusion tensor imaging differences relate to memory deficits in diffuse traumatic brain injury

Author

Roig Teresa, Sanchez-Carrion Rocio, Junque Carme, Fernandez-Espejo Davinia, Palacios Eva M, Tormos Jose M, Bargallo Nuria, and Vendrell Pere

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Memory is one of the most impaired functions after traumatic brain injury (TBI). We used diffusion tensor imaging (DTI) to determine the structural basis of memory deficit. We correlated fractional anisotropy (FA) of the fasciculi connecting the main cerebral regions that are involved in declarative and working memory functions. Methods Fifteen patients with severe and diffuse TBI and sixteen healthy controls matched by age and years of education were scanned. The neuropsychological assessment included: Letter-number sequencing test (LNS), 2-back task, digit span (forwards and backwards) and the Rivermead profilet. DTI was analyzed by a tract-based spatial statics (TBSS) approach. Results Whole brain DTI analysis showed a global decrease in FA values that correlated with the 2-back d-prime index, but not with the Rivermead profile. ROI analysis revealed positive correlations between working memory performance assessed by 2-back d-prime and superior longitudinal fasciculi, corpus callosum, arcuate fasciculi and fornix. Declarative memory assessed by the Rivermead profile scores correlated with the fornix and the corpus callosum. Conclusions Diffuse TBI is associated with a general decrease of white matter integrity. Nevertheless deficits in specific memory domains are related to different patterns of white matter damage.

Published

2011

3. Combination of diffusion tensor and functional magnetic resonance imaging during recovery from the vegetative state

Author

Fernández-Espejo Davinia, Junque Carme, Cruse Damian, Bernabeu Montserrat, Roig-Rovira Teresa, Fábregas Neus, Rivas Eva, and Mercader Jose M

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The rate of recovery from the vegetative state (VS) is low. Currently, little is known of the mechanisms and cerebral changes that accompany those relatively rare cases of good recovery. Here, we combined functional magnetic resonance imaging (fMRI) and diffusion tensor imaging (DTI) to study the evolution of one VS patient at one month post-ictus and again twelve months later when he had recovered consciousness. Methods fMRI was used to investigate cortical responses to passive language stimulation as well as task-induced deactivations related to the default-mode network. DTI was used to assess the integrity of the global white matter and the arcuate fasciculus. We also performed a neuropsychological assessment at the time of the second MRI examination in order to characterize the profile of cognitive deficits. Results fMRI analysis revealed anatomically appropriate activation to speech in both the first and the second scans but a reduced pattern of task-induced deactivations in the first scan. In the second scan, following the recovery of consciousness, this pattern became more similar to that classically described for the default-mode network. DTI analysis revealed relative preservation of the arcuate fasciculus and of the global normal-appearing white matter at both time points. The neuropsychological assessment revealed recovery of receptive linguistic functioning by 12-months post-ictus. Conclusions These results suggest that the combination of different structural and functional imaging modalities may provide a powerful means for assessing the mechanisms involved in the recovery from the VS.

Published

2010

4. Common Data Elements for Disorders of Consciousness: Recommendations from the Working Group on Neuroimaging.

Author

Edlow BL, Boerwinkle VL, Annen J, Boly M, Gosseries O, Laureys S, Mukherjee P, Puybasset L, Stevens RD, Threlkeld ZD, Newcombe VFJ, and Fernandez-Espejo D

Subjects

Humans, Consciousness Disorders etiology, Common Data Elements, Neuroimaging methods, Magnetic Resonance Imaging methods, Consciousness physiology, Diffusion Tensor Imaging adverse effects

Abstract

Background: Over the past 5 decades, advances in neuroimaging have yielded insights into the pathophysiologic mechanisms that cause disorders of consciousness (DoC) in patients with severe brain injuries. Structural, functional, metabolic, and perfusion imaging studies have revealed specific neuroanatomic regions, such as the brainstem tegmentum, thalamus, posterior cingulate cortex, medial prefrontal cortex, and occipital cortex, where lesions correlate with the current or future state of consciousness. Advanced imaging modalities, such as diffusion tensor imaging, resting-state functional magnetic resonance imaging (fMRI), and task-based fMRI, have been used to improve the accuracy of diagnosis and long-term prognosis, culminating in the endorsement of fMRI for the clinical evaluation of patients with DoC in the 2018 US (task-based fMRI) and 2020 European (task-based and resting-state fMRI) guidelines. As diverse neuroimaging techniques are increasingly used for patients with DoC in research and clinical settings, the need for a standardized approach to reporting results is clear. The success of future multicenter collaborations and international trials fundamentally depends on the implementation of a shared nomenclature and infrastructure., Methods: To address this need, the Neurocritical Care Society's Curing Coma Campaign convened an international panel of DoC neuroimaging experts to propose common data elements (CDEs) for data collection and reporting in this field., Results: We report the recommendations of this CDE development panel and disseminate CDEs to be used in neuroimaging studies of patients with DoC., Conclusions: These CDEs will support progress in the field of DoC neuroimaging and facilitate international collaboration., (© 2023. Springer Science+Business Media, LLC, part of Springer Nature and Neurocritical Care Society.)

Published

2023

5. Correction: Common Data Elements for Disorders of Consciousness: Recommendations from the Working Group on Neuroimaging.

Author

Edlow BL, Boerwinkle VL, Annen J, Boly M, Gosseries O, Laureys S, Mukherjee P, Puybasset L, Stevens RD, Threlkeld ZD, Newcombe VFJ, and Fernandez-Espejo D

Published

2023

6. Use of functional magnetic resonance imaging to assess cognition and consciousness in severe Guillain-Barré syndrome.

Author

Norton L, Graham M, Kazazian K, Gofton T, Weijer C, Debicki D, Fernandez-Espejo D, Thenayan EA, and Owen AM

Abstract

Objective: Functional neuroimaging may provide a viable means of assessment and communication in patients with Guillain-Barré Syndrome (GBS) mimicking the complete locked-in state. Functional neuroimaging has been used to assess residual cognitive function and has allowed for binary communication with other behaviourally non-responsive patients, such as those diagnosed with unresponsive wakefulness syndrome. We evaluated the potential application of functional neuroimaging using a clinical-grade scanner to determine if individuals with severe GBS retained auditory function, command following, and communication., Methods: Fourteen healthy participants and two GBS patients were asked to perform motor imagery and spatial navigation imagery tasks while being scanned using functional magnetic resonance imaging. The GBS patients were also asked to perform additional functional neuroimaging scans to attempt communication., Results: The motor imagery and spatial navigation task elicited significant activation in appropriate regions of interest for both GBS patients, indicating intact command following. Both patients were able to use the imagery technique to communicate in some instances. Patient 1 was able to use one of four communication tasks to answer a question correctly. Patient 2 was able to use three of seven communication tasks. However, two questions were incorrectly answered while a third was non-verifiable., Conclusions: GBS patients can respond using mental imagery and these responses can be detected using functional neuroimaging. Furthermore, these patients may also be able to use mental imagery to provide answers to 'yes' or 'no' questions in some instances. We argue that the most appropriate use of neuroimaging-based communication in these patients is to allow them to communicate wishes or preferences and assent to previously expressed decisions, rather than to facilitate decision-making., Competing Interests: CW receives consulting income from Eli Lilly and Company Canada. TG receives funding from Medtronic for being an examining neurologist in the SURTAVI trial, and other funding from SAGE Therapeutics for being a site principal investigator in a clinical trial., (© 2022 The Authors.)

Published

2023

7. Functional Neuroimaging as an Assessment Tool in Critically Ill Patients.

Author

Norton L, Kazazian K, Gofton T, Debicki DB, Fernandez-Espejo D, Peelle JE, Al Thenayan E, Young GB, and Owen AM

Subjects

Humans, Critical Illness, Brain diagnostic imaging, Persistent Vegetative State diagnostic imaging, Magnetic Resonance Imaging methods, Functional Neuroimaging, Neuroimaging, Consciousness Disorders diagnosis, Brain Injuries diagnostic imaging

Abstract

Objective: Little is known about residual cognitive function in the earliest stages of serious brain injury. Functional neuroimaging has yielded valuable diagnostic and prognostic information in chronic disorders of consciousness, such as the vegetative state (also termed unresponsive wakefulness syndrome). The objective of the current study was to determine if functional neuroimaging could be efficacious in the assessment of cognitive function in acute disorders of consciousness, such as coma, where decisions about the withdrawal of life-sustaining therapies are often made., Methods: A hierarchical functional magnetic resonance imaging (fMRI) approach assessed sound perception, speech perception, language comprehension, and covert command following in 17 critically ill patients admitted to the intensive care unit (ICU)., Results: Preserved auditory function was observed in 15 patients (88%), whereas 5 (29%) also had preserved higher-order language comprehension. Notably, one patient could willfully modulate his brain activity when instructed to do so, suggesting a level of covert conscious awareness that was entirely inconsistent with his clinical diagnosis at the time of the scan. Across patients, a positive relationship was also observed between fMRI responsivity and the level of functional recovery, such that patients with the greatest functional recovery had neural responses most similar to those observed in healthy control participants., Interpretation: These results suggest that fMRI may provide important diagnostic and prognostic information beyond standard clinical assessment in acutely unresponsive patients, which may aid discussions surrounding the continuation or removal of life-sustaining therapies during the early post-injury period. ANN NEUROL 2023;93:131-141., (© 2022 American Neurological Association.)

Published

2023

8. Applications of Advanced MRI to Disorders of Consciousness.

Author

Fischer D, Newcombe V, Fernandez-Espejo D, and Snider SB

Subjects

Brain, Consciousness Disorders diagnostic imaging, Humans, Magnetic Resonance Imaging, Brain Injuries, Consciousness physiology

Abstract

Disorder of consciousness (DoC) after severe brain injury presents numerous challenges to clinicians, as the diagnosis, prognosis, and management are often uncertain. Magnetic resonance imaging (MRI) has long been used to evaluate brain structure in patients with DoC. More recently, advances in MRI technology have permitted more detailed investigations of the brain's structural integrity (via diffusion MRI) and function (via functional MRI). A growing literature has begun to show that these advanced forms of MRI may improve our understanding of DoC pathophysiology, facilitate the identification of patient consciousness, and improve the accuracy of clinical prognostication. Here we review the emerging evidence for the application of advanced MRI for patients with DoC., Competing Interests: D.F.-E. reports grants or contracts from Medical Research Council (MRC) grant MR/P02596X/1 and Research Collaboration Agreement with HCA Healthcare., (Thieme. All rights reserved.)

Published

2022

9. Diffusion tensor imaging and white matter abnormalities in patients with disorders of consciousness.

Author

Cavaliere C, Aiello M, Di Perri C, Fernandez-Espejo D, Owen AM, and Soddu A

Abstract

Progress in neuroimaging has yielded new powerful tools which, potentially, can be applied to clinical populations, improve the diagnosis of neurological disorders and predict outcome. At present, the diagnosis of consciousness disorders is limited to subjective assessment and objective measurements of behavior, with an emerging role for neuroimaging techniques. In this review we focus on white matter alterations measured using Diffusion Tensor Imaging on patients with consciousness disorders, examining the most common diffusion imaging acquisition protocols and considering the main issues related to diffusion imaging analyses. We conclude by considering some of the remaining challenges to overcome, the existing knowledge gaps and the potential role of neuroimaging in understanding the pathogenesis and clinical features of disorders of consciousness.

Published

2015

10. Long-term declarative memory deficits in diffuse TBI: correlations with cortical thickness, white matter integrity and hippocampal volume.

Author

Palacios EM, Sala-Llonch R, Junque C, Fernandez-Espejo D, Roig T, Tormos JM, Bargallo N, and Vendrell P

Subjects

Adult, Atrophy complications, Atrophy pathology, Atrophy physiopathology, Brain Injuries complications, Brain Injuries pathology, Brain Mapping, Cerebral Cortex physiopathology, Diffusion Tensor Imaging, Female, Hippocampus physiopathology, Humans, Male, Memory physiology, Memory Disorders etiology, Memory Disorders pathology, Memory Disorders physiopathology, Neuropsychological Tests, Organ Size, Verbal Learning physiology, Brain Injuries psychology, Cerebral Cortex pathology, Hippocampus pathology, Memory Disorders psychology, Nerve Fibers, Myelinated pathology

Abstract

We investigated structural brain damage in subjects who had suffered severe and diffuse traumatic brain injury (TBI), and examined its relationship with declarative memory impairment. Cortical thickness, diffusion tensor imaging (DTI), and volumetric and shape data of the hippocampus were assessed in a group of 26 adults with severe TBI in the chronic stage and 22 healthy matched controls. Declarative memory was evaluated by Rey's Auditory Verbal Learning Test (RAVLT). TBI patients performed significantly worse than controls on all RAVLT measures. The group comparison for cortical thickness and DTI revealed a pattern of widespread atrophy in TBI patients. In the TBI group DTI measures correlated with cortical thickness in the prefrontal and parietal regions, including the precuneus. Declarative memory correlated with both cortical thickness and DTI measures. However, although hippocampal volume was significantly decreased in TBI patients, no correlations were found. Multiple regression analysis of all the structural measures revealed that decreases in Fractional anisotropy (FA) and thinning of the left parietal region were the best predictors of memory impairment. In conclusion, cortical thickness reductions in the left hemisphere and a lack of white matter integrity are the main contributors to long-term impairment in declarative memory among patients suffering from severe and diffuse TBI. In this study the hippocampus did not make a significant contribution to memory dysfunctions, suggesting that damage to this structure is compensated for by other regions, with the definitive sequelae being mainly explained by alterations in cortico-subcortical connectivity., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

11. Thalamic changes in a preterm sample with periventricular leukomalacia: correlation with white-matter integrity and cognitive outcome at school age.

Author

Zubiaurre-Elorza L, Soria-Pastor S, Junqué C, Fernandez-Espejo D, Segarra D, Bargalló N, Romano-Berindoague C, and Macaya A

Subjects

Adolescent, Anisotropy, Brain pathology, Child, Cognition, Cohort Studies, Diffusion Tensor Imaging methods, Female, Gestational Age, Humans, Infant, Newborn, Infant, Premature, Magnetic Resonance Imaging methods, Male, Pregnancy, Leukomalacia, Periventricular diagnosis, Thalamus pathology

Abstract

Introduction: Thalamic abnormalities have been well documented in preterms with periventricular leukomalacia (PVL), although their contribution to long-term cognitive dysfunctions has not been thoroughly investigated., Results: Significant differences between groups were observed for global thalamic volume. Neuropsychological assessments showed that preterms with PVL scored within the normal range, although significantly below controls in the full intelligence quotient and the specific cognitive domains of processing speed and working memory. Correlations of several thalamic regions with Working Memory Index and FIQ were found in the PVL group. Moreover, thalamic atrophy correlated with white-matter (WM) damage indexes (fractional anisotropy and radial diffusivity) assessed by diffusion tensor imaging., Discussion: The findings suggest that thalamic damage is a common correlate of WM microstructural alterations and might be involved in the cognitive deficits seen in premature infants with PVL at school age., Methods: We analyzed the impact of PVL-associated thalamic injury on cognitive status at school age and its correlation with WM integrity as measured by magnetic resonance imaging techniques. Thalamic volume and shape of 21 preterm children with PVL were compared with those of 11 preterm children of similar gestational age and birth weight with no evidence of focal WM abnormality.

Published

2012

12. Diffusion tensor imaging differences relate to memory deficits in diffuse traumatic brain injury.

Author

Palacios EM, Fernandez-Espejo D, Junque C, Sanchez-Carrion R, Roig T, Tormos JM, Bargallo N, and Vendrell P

Subjects

Adolescent, Adult, Anisotropy, Brain Injuries complications, Brain Mapping methods, Cross-Sectional Studies, Female, Humans, Male, Memory Disorders complications, Neuropsychological Tests, Brain Injuries pathology, Brain Injuries psychology, Diffusion Tensor Imaging methods, Memory Disorders pathology, Nerve Fibers, Myelinated pathology, Neural Pathways pathology

Abstract

Background: Memory is one of the most impaired functions after traumatic brain injury (TBI). We used diffusion tensor imaging (DTI) to determine the structural basis of memory deficit. We correlated fractional anisotropy (FA) of the fasciculi connecting the main cerebral regions that are involved in declarative and working memory functions., Methods: Fifteen patients with severe and diffuse TBI and sixteen healthy controls matched by age and years of education were scanned. The neuropsychological assessment included: Letter-number sequencing test (LNS), 2-back task, digit span (forwards and backwards) and the Rivermead profilet. DTI was analyzed by a tract-based spatial statics (TBSS) approach., Results: Whole brain DTI analysis showed a global decrease in FA values that correlated with the 2-back d-prime index, but not with the Rivermead profile. ROI analysis revealed positive correlations between working memory performance assessed by 2-back d-prime and superior longitudinal fasciculi, corpus callosum, arcuate fasciculi and fornix. Declarative memory assessed by the Rivermead profile scores correlated with the fornix and the corpus callosum., Conclusions: Diffuse TBI is associated with a general decrease of white matter integrity. Nevertheless deficits in specific memory domains are related to different patterns of white matter damage.

Published

2011

13. A longitudinal fMRI study of working memory in severe TBI patients with diffuse axonal injury.

Author

Sanchez-Carrion R, Fernandez-Espejo D, Junque C, Falcon C, Bargallo N, Roig T, Bernabeu M, Tormos JM, and Vendrell P

Subjects

Adult, Brain Injuries complications, Brain Injuries physiopathology, Diffuse Axonal Injury complications, Female, Humans, Image Processing, Computer-Assisted, Longitudinal Studies, Male, Memory Disorders etiology, Memory, Short-Term physiology, Neuropsychological Tests, Brain Mapping, Diffuse Axonal Injury physiopathology, Magnetic Resonance Imaging, Memory Disorders physiopathology

Abstract

Traumatic brain injury (TBI) patients have working memory deficits and altered patterns of brain activation during this function. The evolution of the impairment has not been examined to date. This study investigated longitudinal changes in brain activation during a working memory task. Twelve patients with severe and diffuse TBI and ten healthy matched controls were fMRI scanned twice at a 6-month interval during an n-back task (0-, 2- and 3-back). All the TBI patients selected presented signs of diffuse axonal injury on CT but had no evidence of focal lesions on MRI clinical examination. Significant changes in brain activation over time were observed in patients, but not in controls. During the first examination, though both groups engaged bilateral fronto-parietal regions known to be involved in working memory, activation of the right superior frontal gyrus was low in the TBI group. However, the difference between TBI and controls had decreased significantly after 6 months. A factor analysis confirmed the greater increase in activation in the right superior frontal cortex in the TBI group than in healthy controls, leading to normalization of the brain activation pattern. In conclusion, this longitudinal study provides evidence of a progressive normalization of the working memory activation pattern after diffuse axonal injury in severe TBI, coinciding with an improvement in performance on this function.

Published

2008