Carmen Alina Lupaşcu scite author profile

Every neuron is part of a network, exerting its function by transforming multiple spatiotemporal synaptic input patterns into a single spiking output. This function is specified by the particular shape and passive electrical properties of the neuronal membrane, and the composition and spatial distribution of ion channels across its processes. For a variety of physiological or pathological reasons, the intrinsic input/output function may change during a neuron’s lifetime. This process results in high variability in the peak specific conductance of ion channels in individual neurons. The mechanisms responsible for this variability are not well understood, although there are clear indications from experiments and modeling that degeneracy and correlation among multiple channels may be involved. Here, we studied this issue in biophysical models of hippocampal CA1 pyramidal neurons and interneurons. Using a unified data-driven simulation workflow and starting from a set of experimental recordings and morphological reconstructions obtained from rats, we built and analyzed several ensembles of morphologically and biophysically accurate single cell models with intrinsic electrophysiological properties consistent with experimental findings. The results suggest that the set of conductances expressed in any given hippocampal neuron may be considered as belonging to two groups: one subset is responsible for the major characteristics of the firing behavior in each population and the other is responsible for a robust degeneracy. Analysis of the model neurons suggests several experimentally testable predictions related to the combination and relative proportion of the different conductances that should be expressed on the membrane of different types of neurons for them to fulfill their role in the hippocampus circuitry.

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FABC: Retinal Vessel Segmentation Using AdaBoost

Lupaşcu

Tegolo

Trucco

2010

IEEE Trans. Inform. Technol. Biomed.

327

139

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VAMPIRE: Vessel assessment and measurement platform for images of the REtina

et al. 2011

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We present VAMPIRE, a software application for efficient, semi-automatic quantification of retinal vessel properties with large collections of fundus camera images. VAMPIRE is also an international collaborative project of four image processing groups and five clinical centres. The system provides automatic detection of retinal landmarks (optic disc, vasculature), and quantifies key parameters used frequently in investigative studies: vessel width, vessel branching coefficients, and tortuosity. The ultimate vision is to make VAMPIRE available as a public tool, to support quantification and analysis of large collections of fundus camera images.

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Accurate estimation of retinal vessel width using bagged decision trees and an extended multiresolution Hermite model

Lupaşcu¹,

Tegolo²,

Trucco³

2013

Medical Image Analysis

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Novel VAMPIRE algorithms for quantitative analysis of the retinal vasculature

Trucco

Ballerini

Relan

et al. 2013

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This paper summarizes three recent, novel algorithms developed\ud within VAMPIRE, namely optic disc and macula detection, arteryvein\ud classification, and enhancement of binary vessel masks, and\ud their performance assessment. VAMPIRE is an international collaboration\ud growing a suite of software tools to allow efficient quantification\ud of morphological properties of the retinal vasculature in large\ud collections of fundus camera images. VAMPIRE measurements\ud are currently mostly used in biomarker research, i.e., investigating\ud associations between the morphology of the retinal vasculature and\ud a number of clinical and cognitive conditions

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