Cerebrospinal Fluid Biomarkers are Differentially Related to Structural and Functional Changes in Dementia of the Alzheimer's Type

The two cardinal pathologies of Alzheimer’s disease (AD) develop according to distinct anatomical trajectories. Cerebral tau-related pathology first accumulates in the mesial temporal region, while amyloid-related pathology first appears in neocortex. The eventual distributions of these pathologies reflect their anatomical origins. An implication is that the cardinal pathologies might exert preferential effects on the structurofunctional brain changes observed in AD. We investigated this hypothesis in 39 patients with dementia of the Alzheimer’s type. Interrelationships were analyzed between cerebrospinal fluid biomarkers of the cardinal pathologies, volumetric brain changes using magnetic resonance imaging, and brain metabolism using [18F]-FDG-PET. Amyloid-related pathology was preferentially associated with structurofunctional changes in the precuneus and lateral temporal regions. Tau-related pathology was not associated with changes in these regions. These findings support the hypothesis that tau- and amyloid-pathology exert differential effects on structurofunctional changes in the AD brain. These findings have implications for future therapeutic trials and hint at a more complex relationship between the cardinal pathologies and disruption of brain networks

Avoiding moving obstacles

To successfully move our hand to a target, we must consider how to get there without hitting surrounding objects. In a dynamic environment this involves being able to respond quickly when our relationship with surrounding objects changes. People adjust their hand movements with a latency of about 120 ms when the visually perceived position of their hand or of the target suddenly changes. It is not known whether people can react as quickly when the position of an obstacle changes. Here we show that quick responses of the hand to changes in obstacle position are possible, but that these responses are direct reactions to the motion in the surrounding. True adjustments to the changed position of the obstacle appeared at much longer latencies (about 200 ms). This is even so when the possible change is predictable. Apparently, our brain uses certain information exceptionally quickly for guiding our movements, at the expense of not always responding adequately. For reaching a target that changes position, one must at some time move in the same direction as the target did. For avoiding obstacles that change position, moving in the same direction as the obstacle is not always an adequate response, not only because it may be easier to avoid the obstacle by moving the other way, but also because one wants to hit the target after passing the obstacle. Perhaps subjects nevertheless quickly respond in the direction of motion because this helps avoid collisions when pressed for time. © 2008 Springer-Verlag

Hippocampal-Dependent Spatial Memory in the Water Maze is Preserved in an Experimental Model of Temporal Lobe Epilepsy in Rats

Cognitive impairment is a major concern in temporal lobe epilepsy (TLE). While different experimental models have been used to characterize TLE-related cognitive deficits, little is known on whether a particular deficit is more associated with the underlying brain injuries than with the epileptic condition per se. Here, we look at the relationship between the pattern of brain damage and spatial memory deficits in two chronic models of TLE (lithium-pilocarpine, LIP and kainic acid, KA) from two different rat strains (Wistar and Sprague-Dawley) using the Morris water maze and the elevated plus maze in combination with MRI imaging and post-morten neuronal immunostaining. We found fundamental differences between LIP- and KA-treated epileptic rats regarding spatial memory deficits and anxiety. LIP-treated animals from both strains showed significant impairment in the acquisition and retention of spatial memory, and were unable to learn a cued version of the task. In contrast, KA-treated rats were differently affected. Sprague-Dawley KA-treated rats learned less efficiently than Wistar KA-treated animals, which performed similar to control rats in the acquisition and in a probe trial testing for spatial memory. Different anxiety levels and the extension of brain lesions affecting the hippocampus and the amydgala concur with spatial memory deficits observed in epileptic rats. Hence, our results suggest that hippocampal-dependent spatial memory is not necessarily affected in TLE and that comorbidity between spatial deficits and anxiety is more related with the underlying brain lesions than with the epileptic condition per se

Subjective Cognitive Decline from a Phenomenological Perspective: A Review of the Qualitative Literature

BACKGROUND: Subjective cognitive decline is related to greater risk of dementia and biological markers of Alzheimer's disease (AD), but researchers are yet to characterize the phenomenological perspective of cognitive decline in those with and without a diagnosis of AD. OBJECTIVE: To collate and synthesize studies measuring the subjective experience of cognitive change or decline in healthy older adults and those with mild cognitive impairment and AD. METHODS: We reviewed 58 peer-reviewed articles that were found to directly or indirectly refer to the subjective experience of cognitive decline. RESULTS: We extracted eight central themes, dealing with cognitive changes experienced by each diagnostic group, and also related to issues of changing self-identity, the causal attribution of cognitive decline, the anxiety and concern related to perceived decline, the negative perceptions attached to a diagnosis of dementia, changing levels of insight, and perception of well-being in aging. CONCLUSION: This review is the first step toward characterizing phenomenological profiles of cognitive change in both non-demented and demented older adults. Developing a clearer understanding of subjective cognitive decline, particularly at the earliest stages of AD, will augment the sensitivity of detection of individuals at greater risk of future dementia

Psychological trajectories in the year after a newly diagnosed seizure

Fulltext embargoed for: 12 months post date of publicationPURPOSE: Underdiagnosed depression and anxiety are well-recognized issues in chronic epilepsy, but the evolution of these symptoms after diagnosis is not well understood. We aimed to identify mood trajectories after a first seizure, and to examine factors impacting these trajectories. METHODS: Seventy-four patients were evaluated at 1, 3, and 12 months with (1) the Hospital Anxiety and Depression Scale, and (2) a semistructured interview assessing patients' initial psychological reaction to the seizure at 1 month (limited vs. pervasive loss of control). The SAS Institute's TRAJ data modelling procedure was employed to delineate trajectories. KEY FINDINGS: Two depression and three anxiety trajectories were identified, with significant overlap. The majority of patients (≈ 74%) followed a trajectory with low depression throughout the study, and either low or moderate anxiety. A minority followed trajectories with high depression and anxiety from diagnosis (≈ 16%). Patients with high levels of distress were adversely affected by seizure recurrence and antiepileptic drugs (AEDs), whereas those with low levels were not. Trajectories were predicted by the patient's sense of loss of control early after diagnosis and were weakly related to demographic and medical variables (age, gender, education, relationship status, psychiatric history, and prior epileptic events). SIGNIFICANCE: Methods that account for heterogeneity in patient responses are critical for developing a clinically relevant understanding of adjustment after a newly diagnosed seizure. Most patients appear to be resilient in the face of early seizures, whereas those at risk of longer-term psychological difficulties may be evident from diagnosis. Early screening for depression and anxiety is warranted

Reading difficulty is associated with failure to lateralize temporooccipital function

Fulltext embargoed for: 12 months post date of publicationOBJECTIVE: Studies of focal epilepsy have revealed abnormalities of language organization; however, little attention has been paid to disorders of reading in this group. We hypothesized that language functional magnetic resonance imaging (fMRI) would reveal differences in language organization between focal epilepsy patients with and without reading difficulties. METHODS: We conducted language fMRI studies of 10 focal epilepsy patients with reading difficulties, 34 focal epilepsy patients without reading difficulties, and 42 healthy controls. RESULTS: We defined regions of interests on the basis of activation patterns on an orthographic lexical retrieval task. Comparison of activations within these ROIs on a second Noun-Verb task revealed epilepsy-related effects (relative to healthy controls: reduced activation in left inferior frontal cortex), as well as greater activation in the right temporooccipital cortex specific to the reading difficulty group. SIGNIFICANCE: These findings identify a focal epilepsy effect in the left frontal region (present in patients with and without reading difficulties), and a functional abnormality specific to the reading difficulty group localized to right temporooccipital cortex-a region implicated in lexicosemantic processing. Our observations suggest a failure of left hemisphere specialization among focal epilepsy patients with reading difficulties

Psychological trajectories in the year after a newly diagnosed seizure

Fulltext embargoed for: 12 months post date of publicationPURPOSE: Underdiagnosed depression and anxiety are well-recognized issues in chronic epilepsy, but the evolution of these symptoms after diagnosis is not well understood. We aimed to identify mood trajectories after a first seizure, and to examine factors impacting these trajectories. METHODS: Seventy-four patients were evaluated at 1, 3, and 12 months with (1) the Hospital Anxiety and Depression Scale, and (2) a semistructured interview assessing patients' initial psychological reaction to the seizure at 1 month (limited vs. pervasive loss of control). The SAS Institute's TRAJ data modelling procedure was employed to delineate trajectories. KEY FINDINGS: Two depression and three anxiety trajectories were identified, with significant overlap. The majority of patients (≈ 74%) followed a trajectory with low depression throughout the study, and either low or moderate anxiety. A minority followed trajectories with high depression and anxiety from diagnosis (≈ 16%). Patients with high levels of distress were adversely affected by seizure recurrence and antiepileptic drugs (AEDs), whereas those with low levels were not. Trajectories were predicted by the patient's sense of loss of control early after diagnosis and were weakly related to demographic and medical variables (age, gender, education, relationship status, psychiatric history, and prior epileptic events). SIGNIFICANCE: Methods that account for heterogeneity in patient responses are critical for developing a clinically relevant understanding of adjustment after a newly diagnosed seizure. Most patients appear to be resilient in the face of early seizures, whereas those at risk of longer-term psychological difficulties may be evident from diagnosis. Early screening for depression and anxiety is warranted

Supranutritional Sodium Selenate Supplementation Delivers Selenium to the Central Nervous System: Results from a Randomized Controlled Pilot Trial in Alzheimer’s Disease

© 2018, The American Society for Experimental NeuroTherapeutics, Inc. Insufficient supply of selenium to antioxidant enzymes in the brain may contribute to Alzheimer’s disease (AD) pathophysiology; therefore, oral supplementation may potentially slow neurodegeneration. We examined selenium and selenoproteins in serum and cerebrospinal fluid (CSF) from a dual-dose 24-week randomized controlled trial of sodium selenate in AD patients, to assess tolerability, and efficacy of selenate in modulating selenium concentration in the central nervous system (CNS). A pilot study of 40 AD cases was randomized to placebo, nutritional (0.32 mg sodium selenate, 3 times daily), or supranutritional (10 mg, 3 times daily) groups. We measured total selenium, selenoproteins, and inorganic selenium levels, in serum and CSF, and compared against cognitive outcomes. Supranutritional selenium supplementation was well tolerated and yielded a significant (p < 0.001) but variable (95% CI = 13.4–24.8 μg/L) increase in CSF selenium, distributed across selenoproteins and inorganic species. Reclassifying subjects as either responsive or non-responsive based on elevation in CSF selenium concentrations revealed that responsive group did not deteriorate in Mini-Mental Status Examination (MMSE) as non-responsive group (p = 0.03). Pooled analysis of all samples revealed that CSF selenium could predict change in MMSE performance (Spearman’s rho = 0.403; p = 0.023). High-dose sodium selenate supplementation is well tolerated and can modulate CNS selenium concentration, although individual variation in selenium metabolism must be considered to optimize potential benefits in AD. The Vel002 study is listed on the Australian and New Zealand Clinical Trials Registry (http://www.anzctr.org.au/), ID: ACTRN12611001200976