Frederik Barkhof scite author profile

The hippocampal memory system, consisting of the hippocampal formation and the adjacent parahippocampal region, is known to play an important role in learning and memory processes. In recent years, evidence from a variety of experimental approaches indicates that each of the constituting fields of the hippocampal memory system may serve functionally different, yet complementary roles. Understanding the anatomical organization of cortico-parahippocampal-hippocampal connectivity may lead to a further understanding of these potential functional differences. In the present paper we present the two main conclusions of experiments in which we studied the anatomical organization of the hippocampal memory system of the rat in detail, with a focus on the pivotal position of the entorhinal cortex. We first conclude that the simple traditional view of the entorhinal cortex as simply the input and output structure of the hippocampal formation needs to be modified. Second, our data indicate the existence of two parallel pathways through the hippocampal memory system, arising from the perirhinal and postrhinal cortex. These two parallel pathways may be involved in separately processing functionally different types of sensory information. This second proposition will be subsequently evaluated on the basis of series of electrophysiological studies we carried out in rats and some preliminary functional brain imaging studies in humans.

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Test-Retest Analysis With Functional MR of the Activated Area in the Human Visual Cortex

Rombouts¹,

Barkhof²,

Hoogenraad³

et al. 1999

Journal of Neuro-Ophthalmology

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PURPOSE:To investigate the intersubject and intrasubject variability of the activated area in the visual cortex with functional MR imaging. METHODS: Double-section gradient-echo MR images were acquired at 1.5 T in 28 healthy volunteers using the fast low-angle shot (FLASH) technique. Visual stimulation was obtained with light-emitting diode (LED) goggles. Eighteen volunteers were studied twice. The size of the activated areas in the visual cortex and the increase in signal were measured. A reproducibility ratio for size (R size ) and for location (R overlap ) was calculated on a scale of 0.0 to 1.0. RESULTS: Activation was seen in 89% of the subjects. The size of the activated area was widely variable among subjects: mean, 460 Ϯ 284 mm 2 ; range, 0 to 1029 mm 2 in the first study in all volunteers. Signal increases ranged from 3.2% to 10.9%, with a mean of 6.6 Ϯ 1.7%. The mean values of intrasubject variability testing were R size ϭ 0.83 Ϯ 0.16 and R overlap ϭ 0.31 Ϯ 0.11. CONCLUSION: Functional MR imaging with the FLASH technique is useful in identifying certain cortical areas that have quite variable locations among subjects. This study provides reference data for the intrasubject and intersubject variability of the activation pattern of the visual cortex.

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Frederik Barkhof

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Cortico‐hippocampal communication by way of parallel parahippocampal‐subicular pathways

Test-Retest Analysis With Functional MR of the Activated Area in the Human Visual Cortex

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