Cerebral alterations in West African HIV and non-HIV adults aged ≥50: An MRI study.

OBJECTIVES: To cross-sectionally describe brain alterations in PLHIV aged above 50 years old, receiving antiretroviral treatment (ART) and living in Senegal compared to HIV-negative subjects. METHODS: Twenty PLHIV and 26 HIV-negative subjects with comparable socio-demographic and clinical characteristics underwent an MRI exam (3D-T1 and FLAIR sequences). Global atrophy and White Matter Hyperintensities (WMH) were evaluated. After assessing the feasibility and acceptability of MRI scans in this population, we described atrophy and WHM prevalence and associated factors using logistic regressions. RESULTS: Overall, 43.5% of the study sample were aged ≥60 years, 58.7% were women, and 28.3% had hypertension. The overall prevalence of atrophy and WMH was 19.6% [95% CI: 8.1-31.1] and 30.4% [95% CI: 17.1-43.7]. HIV status had no significant effect on atrophy or WMH. Unemployment and hypertension were significantly associated with atrophy, whereas women were less likely to present atrophy. Aged ≥60 years was the only factor associated with WMH. CONCLUSIONS: A high prevalence of atrophy and WMH was observed in West African adults aged over 50 years without a clear HIV impact. As brain MRI studies are critical to better understand cognitive and emotional outcomes, we encourage those studies in older PLHIV in West Africa.

Brain structural investigation and hippocampal tractography in medication overuse headache: a native space analysis.

BACKGROUND: Spatial normalization of brain images, a prerequisite for voxel based morphometry analysis, may account for the large variability of the volumetric data in medication overuse headache (MOH); possibly because this disease concerns patients differing on both sex and age, and hence with different brain size and shape. METHODS: The present study aimed at providing a subject-based analysis of macrostructure using a native space volumes segmentation (Freesurfer), and microstructure using a region of interest (ROI: i.e. hippocampus) tractography approach in MOH patients. RESULTS: The results show that MOH patients had decreased volumes of left hemisphere temporal gyri (temporal superior, fusiform) and occipital middle gyrus, together with an increased volume of the left inferior (temporal) lateral ventricle. The left temporal volume was negatively correlated with depression score and medication dependence parameters. Seed-based tractography of the hippocampus revealed a decreased number of reconstructed fibers passing through the left hippocampus. CONCLUSION: To our knowledge, these alterations have not been described with methods involving brain normalization, and they indicate that left hemisphere temporal areas, including the hippocampus, may play a role in MOH pathophysiology. Trial registration number NCT00833209. Registered 29 January 2009.

The Cortical Processing of Sensorimotor Sequences is Disrupted in Writer's Cramp.

Evidence for pre-existing abnormalities in the sensory and motor systems has been previously reported in writer's cramp (WC). However, the processing of somatosensory information during motor planning has received little attention. We hypothesized that sensorimotor integration processes might be impaired partly due to a disruption in the parieto-premotor network. To test this assumption, we designed 2 nonwriting motor tasks in which subjects had to perform a 4-finger motor sequence either on the basis of sensory stimuli previously memorized (SM task) or freely generated (SG task). Brain activity was measured by combining event-related functional magnetic resonance imaging and coherency electroencephalography in 15 WC patients and 15 normal controls. The bold signal was decreased in patients in both tasks during sensory stimulation but not during movement execution. However, the EEG study showed that coherency was decreased in patients compared with controls, during the delay of the SM task and during the execution of the SG task, on both the whole network and for specific couples of electrodes. Overall, these results demonstrate an endophenotypic impairment in the synchronization of cortical areas within the parieto-premotor network during somatosensory processing and motor planning in WC patients.

Brain functional connectivity and morphology changes in medication-overuse headache: Clue for dependence-related processes?

BACKGROUND: Several imaging studies have identified localized anatomical and functional brain changes in medication-overuse headache (MOH). OBJECTIVE: The objective of this article is to evaluate whole-brain functional connectivity at rest together with voxel-based morphometry in MOH patients, in comparison with episodic migraine (EM) patients and healthy controls (HCs). METHODS: Anatomical MRI and resting-state functional MRI scans were obtained in MOH patients (n = 17 and 9, respectively), EM patients (n = 18 and 15, respectively) and HCs (n = 17 and 17). SPM8 was used to analyze voxel-based morphometry and seed (left precuneus) to voxel connectivity data in the whole brain. RESULTS: Functional connectivity at rest was altered in MOH patients. Connectivity was decreased between precuneus and regions of the default-mode network (frontal and parietal cortices), but increased between precuneus and hippocampal/temporal areas. These functional modifications were not accompanied by significant gross morphological changes. Furthermore, connectivity between precuneus and frontal areas in MOH was negatively correlated with migraine duration and positively correlated with self-evaluation of medication dependence. Gray matter volumes of frontal regions, precuneus and hippocampus were also negatively related to migraine duration. Functional connectivity within the default-mode network appeared to predict anxiety scores of MOH patients while gray matter volumes in this network predicted their depression scores. CONCLUSIONS: Our data suggest that MOH is associated with functional alterations within intrinsic brain networks rather than with macrostructural changes. They also support the view that dependence-related processes might play a prominent role in its development and maintenance.

Linking MRI to daily life experience: the example of poststroke depression.

OBJECTIVE: The state-of-the-art tools of neurology, in particular modern neuroimaging techniques, have yet to benefit from the revolution in mobile technologies that provide new insights into the mechanisms underlying clinical syndromes. This study demonstrates the manner in which mobile technologies may provide information that is complementary to MRI data, using the illustration of poststroke depression. METHODS: MRI examinations were provided to 15 stroke patients, followed by computerized ambulatory monitoring of daily life experiences over 1 week. RESULTS: The occurrence of daily life events was significantly associated with the intensity of positive affect during the ambulatory monitoring period. This emotional reactivity was also significantly associated with functional connectivity in brain regions linked with the risk of depression 3 months following stroke. CONCLUSIONS: Novel mobile technologies provide information that is inaccessible to hospital-based tests, and allow for more complete investigations of disorder expression and etiology.

Cognitive compensation failure in multiple sclerosis.

OBJECTIVES: Compensatory processes involving the recruitment of additional cerebral areas can limit cognitive impairment caused by brain damage as revealed by fMRI. Multiple sclerosis (MS) is characterized by frequent cognitive deficiencies and diffuse brain damage. Understanding the missing or disturbed processes resulting in cognitive compensation failure is a major challenge in MS. METHODS: Fifteen patients with relapsing-remitting (RR) MS and 20 healthy controls underwent an fMRI paradigm based on Go/No-go task with increasing complexity and neuropsychological and morphologic MRI examinations. RESULTS: To perform all the Go/No-go conditions, patients with RRMS exhibited supplementary cerebral recruitment compared to controls. For the most complex condition, patients presented both collapse of additional cerebral recruitment and significant lower cognitive performance compared to controls. In patients, both response times and diffuse tissue damage were correlated with medial frontal activations. Functional connectivity analysis demonstrated strong correlation between dorsolateral prefrontal cortex and medial frontal region activations. CONCLUSIONS: High cognitive demand causes beneficial cerebral recruitment failure, leading to cognitive impairment in patients with RRMS. Functional compensatory mechanisms preserving good cognitive performances operate by a new cerebral strategy involving medial prefrontal regions recruitment, instead of cerebellar regions seen in controls. This new recruitment is diffuse tissue damage-dependent. Missing cerebellar involvement argues for an inability to generate proficient cognitive automation processes in patients, directly leading to recruitment of high-level decision-making areas. Recurrent mobilization of cortical regions could explain the limiting effect of the cognitive load on the cognitive compensatory phenomena in patients with MS.