485 Works

Quantified Morphology of the Human Vagus Nerve with Anti-Claudin-1

Nicole A. Pelot, J. Ashley Ezzell, Gabriel B. Goldhagen, Jake E. Cariello, Kara A. Clissold & Warren M. Grill
Immunohistochemistry micrographs of human vagus nerves labeled with anti-claudin-1. Binary traces from segmentation to quantify effective nerve diameter, effective fascicle diameter, number of fascicles, and perineurium thickness.

Spatial mapping and contextualization of axon subtypes innervating the long bones of C3H and B6 mice

Madelyn Lorenz, Jennifer M Brazill, Alec Beeve, Ivana Shen & Erica L Scheller
A dataset containing high-resolution confocal images of tranverse cross-sections of the C57BL/6J and C3H/HeJ femur and tibia that have been stained with anti-CGRP (sensory nerve), anti-TH (sympathetic nerve), anti-perilipin (adipocytes), and dapi (nuclei)

Generic human stomach scaffold

Mabelle Lin, Richard Christie & Peter Hunter
Annotated human stomach scaffold available for registration of segmented neural anatomical-functional mapping of enteric neural circuits.

Functional mapping with lumbosacral epidural stimulation for restoration of bladder function after spinal cord injury in rats

Charles Hubscher, Susan Harkema, Sarah Wagers, Ahmad Mohamed, Ayman El-Baz, Beatrice Ugiliweneza, April Herrity, Kristen Johnson, James Armstrong, Jason Fell, Yangsheng Chen, Sharon Zdunowski, Anthony Gallahar, Jessica Hargitt, Susan Dougherty, Shelley Wade, Erin Wyles, Robert Hoey, Daniel Medina Aguiñaga, Dengzhi Wang, Samineh Mesbah, Fahmi Khalifa, Graham Creasey, Ronaldo Ichiyama & Harriet Chang
Functional mapping with lumbosacral epidural stimulation for restoration of bladder function after spinal cord injury

Generic mouse lung scaffold

Arti Sukasem, Zohreh Ekhlasi, Richard Christie & Peter Hunter
Annotated lung scaffold for mouse available for registration of segmented neural anatomical-functional mapping of pulmonary neural circuits.

Generic human lung scaffold

Arti Sukasem, Richard Christie & Peter Hunter
Annotated lung scaffold for human available for registration of segmented neural anatomical-functional mapping of pulmonary neural circuits.

Generic human heart scaffold

Richard Christie, Mahyar Osanlouy & Peter Hunter
Annotated heart scaffold for human available for registration of segmented neural anatomical-functional mapping of cardiac neural circuits.

Generic rat brainstem scaffold

Shelley Fong, Arti Sukasem, Richard Christie & Peter Hunter
whole-body

Human whole-body with embedded organs

Elias Soltani, Richard Christie & Peter Hunter
The generated body scaffold was fitted to data and the organ fiducial markers were embedded in the human whole-body. The landmarks were obtained from image data and also were defined in the body scaffold.

Generic cat bladder scaffold

Zohreh Ekhlasi, Richard Christie & Peter Hunter
Annotated bladder scaffold for cat available for registration of segmented neural anatomical-functional mapping of LUT neural circuits.

Human Islet Microvasculature Analysis

Jesus Peñaloza & Martha Campbell-Thompson
The human pancreas cleared with PACT (passive CLARITY) and imaged on a Zeiss 710 LSM microscope. Image analysis of islet microvasculature and basement membranes throughout cleared pancreas were used for the development of quantitative image analysis.

Multi-scale rabbit cardiac electrophysiology models

Timothy J. Lewis, Mao-Tsuen Jeng & Pei-Chi Yang
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.

3D Visualization

Esra Neufeld
Three-dimensional representation of the effects of a stimulating electrode around a bundle of nerve fibers.

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. Caption: Simulation of compound action potential propagation

Small Enteric Neural Network Simulator

Joel Bornstein
This network is designed to study the interactions of different types of synaptic potentials in a realistic enteric neuron and the effects of varying the voltage-dependent ion channels in the output neuron membrane. Caption: Simulated neuron voltage

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

Influence of left vagal stimulus pulse parameters on vagal and gastric activity in rat

Bartek Rajwa, Matthew Ward, Robert Phillips, Terry L. Powley, Thomas V Nowak & Zhenjun T Tan
Influence of left vagal stimulus pulse parameters on vagal and gastric activity in rat.​

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 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

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

Small Enteric Neural Network Simulator

Joel Bornstein
This network is designed to study the interactions of different types of synaptic potentials in a realistic enteric neuron and the effects of varying the voltage-dependent ion channels in the output neuron membrane.

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

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.

Functional recordings from the pig intrinsic cardiac nervous system (ICN)

Jeffrey Laurance Ardell, Marmar Vaseghi & Pradeep Rajendran
Pig monitored for ICN recoding with cardiovascular output monitoring, Cervical vagi stimulation

Quantification of rat gastric enteroendocrine cells

Billie Hunne, John B. Furness, Josiane Fahkry, Martin J. Stebbing & Rachel M. McQuade
Enteroendocrine cells (EEC) are cells found in the gut that secrete hormones. This data describes EECs within the rat stomach, including their hormone content, shapes, positions within the mucosa, relationship to other cells and regional distribution.

Registration Year

  • 2022
    149
  • 2021
    138
  • 2020
    87
  • 2019
    111

Resource Types

  • Dataset
    485