Spatial navigation impairment is proportional to right hippocampal volume

Nedelská, Zuzana; Andel, Ross; Laczó, Jan; Vlček, Kamil; Hořínek, Daniel; Lisý, Jiří; Sheardová, Kateřina; Bureš, Jan; Hort, Jakub

doi:10.1073/pnas.1121588109

Cited by 142 publications

(126 citation statements)

References 36 publications

Supporting

Mentioning

106

Contrasting

Unclassified

Order By: Relevance

“…This might be explained by the critical role of right hippocampus in navigation [43]. It has been suggested that this role may be more prominent when cognitive impairment is present [44]. Alternatively, the right-sided findings may be due to asymmetric neurodegeneration and reorganization of neuronal motor pathways.…”

Section: Discussionmentioning

confidence: 99%

The association of brain structure with gait velocity in older adults: a quantitative volumetric analysis of brain MRI

et al. 2015

View full text Add to dashboard Cite

Introduction While cortical processes play an important role in controlling locomotion, the underlying structural brain changes associated with slowing of gait in aging are not yet fully established. Our study aimed to examine the relationship between cortical gray matter volume (GM), white matter volume (WM), ventricular volume (VV), hippocampal and hippocampal subfield volumes, and gait velocity in older adults free of dementia. Methods Gait and cognitive performance was tested in 112 community-residing adults, age 70 years and over, participating in the Einstein Aging Study. Gait velocity (cm/s) was obtained using an instrumented walkway. Volumetric MRI measures were estimated using a FreeSurfer software. We examined the cross-sectional relationship of GM, WM, VV, and hippocampal total and subfield volumes and gait velocity using linear regression models. In complementary models, the effect of memory performance on the relationship between gait velocity and regional volumes was evaluated. Results Slower gait velocity was associated with smaller cortical GM and total hippocampal volumes. There was no association between gait velocity and WM or VV. Among hippocampal subfields, only smaller presubiculum volume was significantly associated with decrease in gait velocity. Addition of the memory performance to the models attenuated the association between gait velocity and all volumetric measures. Conclusions Our findings indicate that total GM and hippocampal volumes as well as specific hippocampal subfield volumes are inversely associated with locomotor function. These associations are probably affected by cognitive status of study population.

show abstract

Section: Discussionmentioning

confidence: 99%

The association of brain structure with gait velocity in older adults: a quantitative volumetric analysis of brain MRI

et al. 2015

View full text Add to dashboard Cite

show abstract

“…For example, transgenic mice expressing human amyloid precursor protein and patients with mild cognitive impairment with the predicted pathology of Alzheimer’s disease show similar impairments on analogous versions of an allocentric Morris Maze (Possin et al, 2016). Performance on an allocentric Morris Maze correlates with right hippocampal volumes in patients with amnestic mild cognitive impairment or Alzheimer’s disease (Nedelska et al, 2012) and with the size of CA1 hippocampal lesions in acute transient global amnesia (Bartsch et al, 2010). In functional neuroimaging studies, the medial temporal lobe activates in relationship to the spatial layout of virtual environments (Aguirre et al, 1996; Maguire et al, 1998; Mellet et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

Egocentric and allocentric visuospatial working memory in premotor Huntington's disease: A double dissociation with caudate and hippocampal volumes

et al. 2017

View full text Add to dashboard Cite

Our brains represent spatial information in egocentric (self-based) or allocentric (landmark-based) coordinates. Rodent studies have demonstrated a critical role for the caudate in egocentric navigation and the hippocampus in allocentric navigation. We administered tests of egocentric and allocentric working memory to individuals with premotor Huntington’s disease (pmHD), which is associated with early caudate nucleus atrophy, and controls. Each test had 80 trials during which subjects were asked to remember 2 locations over 1-sec delays. The only difference between these otherwise identical tests was that locations could only be coded in self-based or landmark-based coordinates. We applied a multiatlas-based segmentation algorithm and computed point-wise Jacobian determinants to measure regional variations in caudate and hippocampal volumes from 3 T MRI. As predicted, the pmHD patients were significantly more impaired on egocentric working memory. Only egocentric accuracy correlated with caudate volumes, specifically the dorsolateral caudate head, right more than left, a region that receives dense efferents from dorsolateral prefrontal cortex. In contrast, only allocentric accuracy correlated with hippocampal volumes, specifically intermediate and posterior regions that connect strongly with parahippocampal and posterior parietal cortices. These results indicate that the distinction between egocentric and allocentric navigation applies to working memory. The dorsolateral caudate is important for egocentric working memory, which can explain the disproportionate impairment in pmHD. Allocentric working memory, in contrast, relies on the hippocampus and is relatively spared in pmHD.

show abstract

“…A subsequent study reported that the genetic risk factor for late-onset AD - apolipoprotein E e4 allele, which is frequently analyzed in clinical trials - further exacerbated spatial navigation impairment in aMCI patients [8]. The most recent study revealed that the right hippocampus was responsible for allocentric navigation impairment in prodromal AD [9], especially in subjects with cognitive impairment.…”

Section: Introductionmentioning

confidence: 99%

Effect of Donepezil in Alzheimer Disease Can Be Measured by a Computerized Human Analog of the Morris Water Maze

et al. 2013

View full text Add to dashboard Cite

Background: Drug development for Alzheimer disease (AD) is challenged by the success in animal models tested in the Morris water maze (MWM) and the subsequent failures to meet primary outcome measures in phase II or III clinical trials in patients. The human variant of MWM (hMWM) enables us to examine allocentric and egocentric navigation as in the MWM. Objective: It was the aim of this study to examine the utility of a computerized hMWM to assess the effects of donepezil in mild AD. Methods: Donepezil 5 mg/day was started after initial hMWM testing in the treated group (n = 12), and after 28 days, the dose was increased to 10 mg/day. The performance after 3 months was compared to that of a non-treated group (n = 12). Results: Donepezil stabilized or improved the spatial navigation performance after 3 months, especially in the allocentric delayed recall subtask (p = 0.014). Conclusions: The computerized hMWM has the potential to measure the effects of donepezil in mild AD. It is a sensitive cognitive outcome measure in AD clinical trials.

show abstract

Spatial navigation impairment is proportional to right hippocampal volume

Cited by 142 publications

References 36 publications

The association of brain structure with gait velocity in older adults: a quantitative volumetric analysis of brain MRI

The association of brain structure with gait velocity in older adults: a quantitative volumetric analysis of brain MRI

Egocentric and allocentric visuospatial working memory in premotor Huntington's disease: A double dissociation with caudate and hippocampal volumes

Effect of Donepezil in Alzheimer Disease Can Be Measured by a Computerized Human Analog of the Morris Water Maze

Contact Info

Product

Resources

About