111 Works

Identification of peripheral neural circuits that regulate heart rate using optogenetic and viral vector strategies

Pradeep Rajendran, Rosemary Challis, Charless Fowlkes, Peter Hanna, John Tompkins, Maria Jordan, Sarah Hiyari, Beth Gabris-Weber, Alon Greenbaum, Ken Chan, Benjamin Deverman, Heike Muenzberg, Jeffrey Ardell, Guy Salama, Viviana Gradinaru & Kalyanam Shivkumar
Identification of peripheral neural circuits that regulate heart rate using optogenetic and viral vector strategies

Multi-scale rabbit cardiac electrophysiology models

Manuel Guidon, Mao-Tsuen Jeng, Pei-Chi Yang & Timothy J. Lewis
A computational workflow for integration and implementation of a reusable and reproducible rabbit cardiac multi-scale electrophysiology model. Caption: Illustration of ion channels and action potential propogation in cardiac tissue

Spatial distribution and morphometric characterization of vagal afferents (intramuscular arrays (IMAs)) within the longitudinal and circular muscle layers of the rat stomach

Bartek Rajwa, Bartek Rajwa, Cherie N Hudson, Deborah M Jaffey, Elizabeth Baronowsky, Felecia N Martin, Jennifer McAdams & Terry L Powley
Spatial distribution and morphometric characterization of vagal afferents (specifically: intramuscular arrays (IMAs)) within the longitudinal and circular muscle layers of the rat stomach.

Anatomical Model Viewer

Ignacio Pascual
Render different human tissue types in three dimensions with the option to highlight or segment parts of: musculature, vasculature, nerve tissue, viscera and skeletal structure. Caption: Screenshot of anatomical viewer with subject Jeduk

2D Plot

Ignacio Pascual
Interactive example for plotting gene expression using the RAW Graphs platform. Data are obtained from Prof. Leah Resnikov at University of Florida.

CLARITY and three-dimensional (3D) imaging of the mouse and porcine colonic innervation

Pu-Qing Yuan
Regional ENS 3D structure/phenotype, axonal projections and connectivity in the mouse and pig colon.

Multi-scale rabbit cardiac electrophysiology models

Manuel Guidon, Mao-Tsuen Jeng, Pei-Chi Yang & Timothy J. Lewis
A computational workflow for integration and implementation of a reusable and reproducible rabbit cardiac multi-scale electrophysiology model.

SPARC Nerve Activity Predictor (SNAP)

Matthew P Ward
Interactive, AI-informed computational model of stimulus parameter-dependent vagal nerve responses resulting from bipolar, constant-current stimuli.

Multi-scale rabbit cardiac electrophysiology models

Manuel Guidon, Mao-Tsuen Jeng, Pei-Chi Yang & Timothy J. Lewis
A computational workflow for integration and implementation of a reusable and reproducible rabbit cardiac multi-scale electrophysiology model.

Multi-scale human cardiac electrophysiology models

Colleen E. Clancy, Pei-Chi Yang & Timothy J. Lewis
A computational workflow for integration and implementation of a reusable and reproducible human cardiac multi-scale electrophysiology model.

Multi-scale human cardiac electrophysiology models

Colleen E. Clancy, Mao-Tsuen Jeng, Pei-Chi Yang & Timothy J. Lewis
A computational workflow for integration and implementation of a reusable and reproducible human cardiac multi-scale electrophysiology model. Caption: Illustration of ion channels and action potential propogation in cardiac tissue

Vagus nerve stimulation promotes gastric emptying by increasing pyloric opening measured with magnetic resonance imaging

Bartek Rajwa, Bartek Rajwa, Deborah M. Jaffey, Jiayue Cao, Kun-Han Lu, Matthew P Ward, Robert J Phillips, Steven Oleson, Terry L Powley & Zhongming Liu
Vagus nerve stimulation promotes gastric emptying by increasing pyloric opening measured with magnetic resonance imaging.

Rat Vagus Nerve Stained with Masson's Trichrome

Nicole A. Pelot, Gabriel B. Goldhagen, Jake E. Cariello, Kara A. Clissold, Warren M. Grill & J. Ashley Ezzell
Micrographs of cross sections of cervical and abdominal rat vagus nerve stained with Masson's trichrome.

3D Visualization

Esra Neufeld
Three-dimensional representation of the effects of a stimulating electrode around a bundle of nerve fibers. Caption: Image of neuron stimulation model with electric field lines and gradient.

Functional neuronal nodose recording from pig - Cardiac field chemical and mechanical stimulation

Marmar Vaseghi, Jeffrey L Ardell, Kalyanam Shivkumar & Siamak Salavatian
Cardioneural recordings

Multi-scale rabbit cardiac electrophysiology models

Ignacio Pascual & Manuel Guidon
This is the first approach to publish a dataset from osparc

SPARC Nerve Activity Predictor (SNAP)

Matthew P Ward
Interactive, AI-informed computational model of stimulus parameter-dependent vagal nerve responses resulting from bipolar, constant-current stimuli.

2D Plot

Ignacio Pascual
Interactive example for plotting gene expression using the RAW Graphs platform. Data are obtained from Prof. Leah Resnikov at University of Florida.

SPARC Nerve Activity Predictor (SNAP)

Matthew P Ward
Interactive, AI-informed computational model of stimulus parameter-dependent vagal nerve responses resulting from bipolar, constant-current stimuli.

Mapping of ICN Neurons in a 3D Reconstructed Rat Heart

Alison Moss, Clara Leung, James S. Schwaber, Jin Chen, Jonathan Gorky, Leonard Eisenman, Maci Heal, Navid Farahani, Rajanikanth Vadigepalli, Shaina Robbins, Sirisha Achanta, Steve England, Susan Tappan, Todd Huffman & Zixi (Jack) Cheng
The distribution of neurons in the intrinsic cardiac nervous system (ICN) were mapped and visualized in a 3D reconstruction of a male rat heart.

opencor-py model

Ignacio Pascual
Computes the cardiac myocyte action potential for the sympathetic drive input setting on the MAP-Core portal. Caption: Illustration of a whole body flatmap (centre) and central nervous system map (left) with a neural pathway highlighted.

Anatomical Model Viewer

Ignacio Pascual
Render different human tissue types in three dimensions with the option to highlight or segment parts of: musculature, vasculature, nerve tissue, viscera and skeletal structure.

Anatomical Model Viewer

Ignacio Pascual
Render different human tissue types in three dimensions with the option to highlight or segment parts of: musculature, vasculature, nerve tissue, viscera and skeletal structure. Caption: Screenshot of anatomical viewer with subject Jeduk

Identification of peripheral neural circuits that regulate heart rate using optogenetic and viral vector strategies

Benjamin Deverman, Beth Gabris-Weber, Charless Fowlkes, Guy Salama, Heike Munzberg, Jeffrey Ardell, John Tompkins, Ken Chan, Maria Jordan, Peter Hanna, Pradeep Rajendran, Rosemary Challis, Sarah Hiyari & Viviana Gradinaru
iDISCO-cleared mouse hearts with PGP9.5 staining for neural structures.

Spatial distribution and morphometric characterization of vagal afferents associated with the myenteric plexus of the rat stomach

Bartek Rajwa, Charlene Evans, Deborah M Jaffey, Elizabeth Baronowsky, Robert J Phillips & Terry L Powley
Spatial distribution and morphometric characterization of vagal afferents (specifically: intraganglionic laminar endings (IGLEs)) associated with the myenteric plexus of the rat stomach.

Registration Year

  • 2019
    111

Resource Types

  • Dataset
    111