Modulation of the default-mode network between rest and task in Alzheimer's Disease.

Default-mode network (DMN) connectivity at rest is disrupted in Alzheimer's Disease (AD), but it is unknown whether this abnormality is a static feature, or if it varies across cognitive states. We measured DMN integrity in 16 patients with mild AD and 18 controls during resting state and a simple visual task. Patients showed resting-state deficits in the parahippocampal gyrus and posterior cingulate. No group differences were found during the task. Controls exhibited higher DMN connectivity of multiple regions during rest than task, while the patient group showed no modulation of the DMN between states. However, the relative degree of increased resting- versus task-state co-activation in the posterior cingulate and precuneus was predictive of mini-mental status exam (MMSE) scores in AD patients, while measures at rest or task alone were not associated with MMSE. These findings suggest that a resting state may be more suited to detecting DMN abnormalities in AD than a simple task. However, the degree of state-dependent modulation in the DMN may be a better predictor of the individual cognitive status than a single-state acquisition. This study demonstrates an apparent reduction in the capacity for DMN modulation in individuals with mild AD, the degree of which uniquely predicted cognitive status.

Whole-brain white matter disruption in semantic and nonfluent variants of primary progressive aphasia.

Semantic (svPPA) and nonfluent (nfPPA) variants of primary progressive aphasia are associated with distinct patterns of cortical atrophy and underlying pathology. Little is known, however, about their contrasting spread of white matter disruption and how this relates to grey matter (GM) loss. We undertook a structural MRI study to investigate this relationship. We used diffusion tensor imaging, tract-based spatial statistics, and voxel-based morphometry to examine fractional anisotropy (FA) and directional diffusivities in nine patients with svPPA and nine patients with nfPPA, and compared them to 16 matched controls after accounting for global GM atrophy. Significant differences in topography of white matter changes were found, with more ventral involvement in svPPA patients and more widespread frontal involvement in nfPPA individuals. However, each group had both ventral and dorsal tract changes, and both showed spread of diffusion abnormalities beyond sites of local atrophy. There was a clear dissociation in sensitivity of diffusion tensor imaging measures between groups. SvPPA patients showed widespread changes in FA and radial diffusivity, whereas changes in axial diffusivity were more restricted and proximal to sites of GM atrophy. NfPPA patients showed isolated changes in FA, but widespread axial and radial diffusivity changes. These findings reveal the extent of white matter disruption in these variants of PPA after accounting for GM loss. Further, they suggest that differences in the relative sensitivity of diffusion metrics may reflect differences in the nature of underlying white matter pathology in these two subtypes.

Functional imaging studies of episodic memory in Alzheimer's disease: a quantitative meta-analysis.

Alzheimer's Disease (AD) is a progressive neurodegenerative disorder, rapidly increasing in prevalence as the population ages. As the potential for disease-modifying therapy grows, a large body of literature has aimed at finding reliable, noninvasive biomarkers of AD, to allow for early intervention and sensitive tracking of therapeutic response. Task-related functional brain imaging techniques have been increasingly used to examine episodic memory function in AD. In the present study we completed a quantitative meta-analysis of this growing literature, to establish consensus and elucidate consistent patterns across this important research area. Results from encoding and retrieval paradigms were analyzed using the activation likelihood estimation (ALE) technique for patient and control groups. Second-level ALE analyses directly compared activation between these two groups. Results indicated a number of consistent findings across the included studies. Controls showed consistently greater activity than patients in a number of regions including the MTL and frontal pole across encoding and retrieval paradigms. Patients demonstrated increased activation likelihood in areas of the ventral lateral prefrontal cortex and other regions. Our findings quantitatively confirm the widely-cited deficits in MTL activity among AD patients, and also bring to light a pattern of differential prefrontal involvement, which may be implicated in compensatory changes occurring in AD. On the whole, this study quantitatively demonstrates that functional imaging studies show consistent, if complex, patterns of brain activation differences between patients and controls. These findings support the continued evaluation of functional neuroimaging for clinical use.

Chronic vagus nerve stimulation for treatment-resistant depression decreases resting ventromedial prefrontal glucose metabolism.

Vagus nerve stimulation (VNS) is used as an adjunctive therapy for treatment-resistant depression (TRD). Its mechanism of action is not fully understood. Longitudinal measurement of changes in brain metabolism associated with VNS can provide insights into this new treatment modality. Eight severely depressed outpatients who were highly treatment-resistant underwent electrical stimulation of the left vagus nerve for approximately one year. The main outcome measures were resting regional brain glucose uptake measured with positron emission tomography (PET) and the 24-item Hamilton Depression Scale. The most significant and extensive change over one year of chronic VNS localized to the ventromedial prefrontal cortex extending from the subgenual cingulate to the frontal pole. This region continued to decline in metabolism even toward the end of the study. Clinically, this cohort showed a trend for improvement. No correlations surfaced between change in glucose uptake and depression scores. However, the sample size was small; none remitted; and the range of depression scores was limited. Chronic VNS as adjunctive therapy in patients with severe TRD produces protracted and robust declines in resting brain activity within the ventromedial prefrontal cortex, a network with dense connectivity to the amygdala and structures monitoring the internal milieu.