Mehul A. Trivedi

The effect of body mass index on global brain volume in middle-aged adults: a cross sectional study

BackgroundObesity causes or exacerbates a host of medical conditions, including cardiovascular, pulmonary, and endocrine diseases. Recently obesity in elderly women was associated with greater risk of dementia, white matter ischemic changes, and greater brain atrophy. The purpose of this study was to determine whether body type affects global brain volume, a marker of atrophy, in middle-aged men and women.MethodsT1-weighted 3D volumetric magnetic resonance imaging was used to assess global brain volume for 114 individuals 40 to 66 years of age (average = 54.2 years; standard deviation = 6.6 years; 43 men and 71 women). Total cerebrospinal fluid and brain volumes were obtained with an automated tissue segmentation algorithm. A regression model was used to determine the effect of age, body mass index (BMI), and other cardiovascular risk factors on brain volume and cognition.ResultsAge and BMI were each associated with decreased brain volume. BMI did not predict cognition in this sample; however elevated diastolic blood pressure was associated with poorer episodic learning performance.ConclusionThese findings suggest that middle-aged obese adults may already be experiencing differentially greater brain atrophy, and may potentially be at greater risk for future cognitive decline.

The Influence of Alzheimer Disease Family History and Apolipoprotein E ε4 on Mesial Temporal Lobe Activation

First-degree family history of sporadic Alzheimer disease (AD) and the apolipoprotein E ε4 (APOE4) are risk factors for developing AD. Although the role of APOE4 in AD pathogenesis has been well studied, family history remains a rarely studied and poorly understood risk factor. Both putatively cause early brain changes before symptomatic disease, but the relative contribution of each to brain function is unknown. We examined 68 middle-aged participants with a parent diagnosed with AD [family history (+FH)] and 64 age- and education-matched controls without a first-degree family history of any dementia [no family history (−FH)]. All underwent cognitive testing, APOE genotyping, and a functional magnetic resonance imaging encoding task that required discrimination of novel items from previously learned items. A 2 × 2 factorial ANOVA (presence/absence of parental family history and presence/absence of the APOE4) was used to detect group effects. A greater response to novel items was detected in the mesial temporal lobe and fusiform gyrus bilaterally among persons without a first-degree family history of AD. In hippocampal areas, the −FH +ε4 group exhibited the greatest signal change, and the +FH +ε4 group exhibited the least. These findings indicate that FH of AD is an important predictor of hippocampal activation during encoding and that FH may modulate the effect of APOE4 in these middle-aged adults, suggesting that an as yet unspecified factor embodied in first-degree family history of AD is influencing the expression of APOE4 on brain function.

Task-dependent posterior cingulate activation in mild cognitive impairment.

Neuroimaging research has demonstrated that the posterior cingulate cortex (PCC) is functionally compromised in individuals diagnosed with amnestic mild cognitive impairment (MCI), a major risk factor for the development of Alzheimers disease (AD). In functional MRI studies with healthy participants, this same region is active during self-appraisal (requiring retrieval of semantic knowledge about the self) as well as episodic recognition of previously learned information. Administering both types of tasks to people with MCI may reveal important information on the role of the PCC in recollection. This study investigated fMRI activation in the PCC in individuals with MCI and matched controls across two tasks. The first task was a visual episodic recognition task. The second task was an autobiographical self-appraisal task in which subjects rated themselves on a set of trait adjectives. Results of a conjunction analysis revealed the PCC as the sole region commonly active during both tasks in the healthy older adults. Furthermore, additional analysis revealed an interaction in the PCC, indicating a task-dependent response in the MCI group. MCI participants showed PCC activation during self-appraisal, but not episodic retrieval. This result suggests in MCI that the PCC shows functional degradation during episodic retrieval; however, the PCCs role in retrieval and evaluation of highly elaborated information regarding the self is more well-preserved.

fMRI Activation Changes during Successful Episodic Memory Encoding and Recognition in Amnestic Mild Cognitive Impairment Relative to Cognitively Healthy Older Adults

Background/Aims: Previous functional MRI studies in individuals with amnestic mild cognitive impairment (AMCI), a putative, prodromal form of Alzheimer’s disease, reveal substantial regional changes in brain activation during episodic memory function. Methods: Functional MRI was applied to examine changes in brain activation during different stages of episodic memory function using a subsequent memory task in individuals with AMCI relative to older normal controls. Results: We found that the AMCI group displayed greater activation in the right hippocampus but less activation in the frontal cortex relative to the older normal control group during intentional encoding of items that were subsequently recognized. We observed nearly the opposite pattern of results for successful recognition. The AMCI group displayed less activation in the medial temporal cortex but greater activation in the frontal cortex. In addition, the AMCI group showed reduced activation in the medial temporal and frontal cortices during incidental encoding of novel information during recognition. Conclusion: The results of the present study suggest that brain activation differences in individuals with AMCI are modulated by the stage of episodic memory examined (i.e. intentional vs. incidental encoding vs. recognition). These observations may help to clarify some of the conflicting findings regarding brain activation changes in AMCI.

fMRI activation during episodic encoding and metacognitive appraisal across the lifespan: risk factors for Alzheimer's disease.

In the present study, we used fMRI to examine the influence of age on two other known risk factors for Alzheimers disease (AD), APOE genotype and parental history of AD (FH status), during episodic encoding (ENC) and metacognitive self-appraisal (SA) paradigms. These paradigms have previously been shown to evoke activity from brain regions that are implicated in AD. First we examined the effect of age across the adult lifespan (age 18-84 years) on cerebral activity in a large sample (n=231) of cognitively healthy individuals. Next we examined a subset (n=155) on whom APOE status and FH status were known. For ENC, we found that increasing age was associated with reduced activity in the ventral temporal lobes and hippocampus. Our analysis of risk factors suggested that FH and age exerted independent effects, but APOE interacted with age such that APOE e4 carriers exhibit age-related increases in activity in the hippocampus. For the metacognitive SA task, increasing age was found to be associated with reduced activity in the medial prefrontal cortex, and increased activity in the mesial temporal lobe, posterior orbital cortex and striatum. Neither AD risk factor significantly modified age-related changes in brain activity during SA. These results suggest that FH and aging are exerting independent effects in both tasks while APOE affected the relationship with age in the hippocampus in one of the two tasks given.

The Relationship Between Gray Matter Morphometry and Neuropsychological Performance in a Large Sample of Cognitively Healthy Adults.

Voxel-based morphometry (VBM) was used to examine the relationship between gray matter (GM) volume and performance on two commonly used clinical neuropsychological measures of frontal lobe or executive function, the Trail Making Test part B (TrailsB) and the Controlled Oral Word Association Test (COWAT) in 221 cognitively healthy adults between the ages of 18 and 84. We hypothesized that these measures would be associated with GM volume in the dorsolateral frontal lobes. Voxel-based multiple regression was used to correlate cognitive function with modulated GM probability maps while controlling for age, education, gender, and total intracranial volume. A relationship with TrailsB was found in bilateral lateral inferior frontal gyri and left basal ganglia. A relationship with COWAT was found in the left lateral inferior and middle frontal gyri. Lesion studies have long implicated the importance of these regions for executive function. The present results confirm and extend those prior findings to healthy adults.

Structural MRI discriminates individuals with Mild Cognitive Impairment from age-matched controls: A combined neuropsychological and voxel based morphometry study

Several previous studies have reported that amnestic mild cognitive impairment (aMCI), a significant risk factor for Alzheimers disease (AD), is associated with greater atrophy in the medial temporal lobe (MTL) and posterior cingulate gyrus (PCG).

Increased Expression of the Remodeling- and Tumorigenic-Associated Factor Osteopontin in Pyramidal Neurons of the Alzheimer's Disease Brain

Osteopontin (OPN) is a glycophosphoprotein expressed by several cell types and has pro-adhesive, chemotactic, and cytokine-like properties. OPN is involved in a number of physiologic and pathologic events including angiogenesis, apoptosis, inflammation, oxidative stress, remyelination, wound healing, bone remodeling, cell migration and tumorigenesis. Since these functions of OPN, and the events that it regulates, are involved with neurodegeneration, we examined whether OPN was differentially expressed in the hippocampus of the Alzheimers disease (AD) compared with age-matched (59-93 years) control brain. We report for the first time the immunocytochemical localization of OPN in the cytoplasm of pyramidal neurons. In AD brains, there was a significant 41 % increase in the expression of neuron OPN compared with age-matched control brain. No staining of other neuronal cell types was observed. Additionally, there was a significant positive correlation between OPN staining intensity and both amyloid-beta load (r(2) = 0.25; P < 0.05; n = 20) and aging (r(2) = 0.32; P < 0.01; n = 20) among all control and AD subjects. Controlling for age indicated that OPN expression was significantly influenced by amyloid-beta load, but not age. While the functional consequences of this amyloid-beta associated increase in OPN expression are unclear, it is notable that OPN is primarily localized to those neurons that are known to be vulnerable to AD-related neurite loss, degeneration and death. Given that the induction of OPN expression (and amyloid-beta generation) is associated with remodeling and tumorigenesis, our results suggest that OPN may play a role in the aberrant re-entry of neurons into the cell cycle and/or neuronal remyelination in AD.

Hormone effects on fMRI and cognitive measures of encoding: Importance of hormone preparation

We compared fMRI and cognitive data from nine hormone therapy (HT)–naive women with data from women exposed to either opposed conjugated equine estrogens (CEE) (n = 10) or opposed estradiol (n = 4). Exposure to either form of HT was associated with healthier fMRI response; however, CEE-exposed women exhibited poorer memory performance than either HT-naive or estradiol-exposed subjects. These preliminary findings emphasize the need to characterize differential neural effects of various HTs.

P2-065: Volume loss and parahippocampal white matter integrity in amnestic mild cognitive impairment

hypothesized that aMCI patients would show attenuated functional connectivity in medial parietal and temporal cortex compared to age-matched controls. We also hypothesized that functional connectivity in midline cortical regions important for self-appraisal would inversely correlate with level of anosognosia. Methods: Sixteen MCI patients and sixteen age and education control participants were included in the analysis. The vPCC region showing activity to self-appraisal in a sample of 203 cognitively healthy adults was used as the seed region for the analysis; correlation maps were generated guided by published procedures. Results: Our analysis of group differences in functional connectivity revealed that MCI participants show attenuated connectivity in the PCC and a ventromedial prefrontal region (Figure 1). We also examined the relationship between functional connectivity and level of cognitive anosognosia in the MCI group. Results revealed a significant inverse relationship between level of cognitive anosognosia and functional connectivity in the ventromedial prefrontal cortex and bilateral hippocampi (Figure 2). Conclusions: This finding highlights the level of anosognosia in MCI as an important predictor of functional connectivity in brain regions important for self-appraisal that are vulnerable to changes associated with early AD.