Karoline Horgmo Jæger
机构: Research Scientist at Simula Research Laboratory
每年引用次数
引用次数
引用: 666
H-指数: 15
I10-指数 : 18
出版物: 44
An Evaluation of the Accuracy of Classical Models for Computing the Membrane Potential and Extracellular Potential for Neurons
Aslak Tveito , Karoline H. Jæger , Glenn T. Lines , Łukasz Paszkowski
Frontiers in Computational Neuroscience 11 27
30
2017
Metabolically-Driven Maturation of hiPSC-Cell Derived Cardiac Chip
Nathaniel Huebsch , Berenice Charrez , Brian Siemons , Steven C. Boggess
bioRxiv 485169
4
2020
A cell-based framework for numerical modeling of electrical conduction in cardiac tissue
Aslak Tveito , Karoline H. Jæger , Miroslav Kuchta , Kent-Andre Mardal
Frontiers of Physics in China 5 48
35
2017
Validating the Arrhythmogenic Potential of High-, Intermediate-, and Low-Risk Drugs in a Human-Induced Pluripotent Stem Cell-Derived Cardiac Microphysiological System
Verena Charwat , Bérénice Charrez , Brian A Siemons , Henrik Finsberg
ACS Pharmacology \& Translational Science 5 ( 8) 652 -667
1
2022
Paper III
Karoline H Jæger , Andrew G Edwards , Andrew D McCulloch , Aslak Tveito
Cell-Based Mathematical Models of Small Collections of Excitable Cells 163 -163
Metabolically driven maturation of human-induced-pluripotent-stem-cell-derived cardiac microtissues on microfluidic chips
Nathaniel Huebsch , Berenice Charrez , Gabriel Neiman , Brian Siemons
Nature biomedical engineering 6 ( 4) 372 -388
50
2022
Metabolically-driven maturation of hiPSC-cell derived cardiac chip
Nathaniel Huebsch , Berenice Charrez , Brian Siemons , Steven C Boggess
bioRxiv 485169 -485169
15
2018
Paper V
Karoline H Jæger , Verena Charwat , Bérénice Charrez , Henrik Finsberg
Cell-Based Mathematical Models of Small Collections of Excitable Cells 247 -247
Paper II
Aslak Tveito , Karoline H Jæger , Miroslav Kuchta , Kent-Andre Mardal
Cell-Based Mathematical Models of Small Collections of Excitable Cells 5 ( 48) 121 -121
2017
Metabolically-driven maturation of hiPSC-derived cardiac chip
Nathaniel Huebsch , Berenice Charrez , Brian Siemons , Steven C Boggess
bioRxiv 485169 -485169
15
2018
Methods for determining drug effects on a mature cardiomyocyte
Aslak Tveito , Samuel Wall , Karoline Horgmo Jaeger
2023
Determining drug effects using combination of measurements
Aslak Tveito , Karoline Horgmo Jaeger , Samuel Wall
2023
A possible path to persistent re-entry waves at the outlet of the left pulmonary vein
Karoline Horgmo Jaeger , Aslak Tveito
bioRxiv 2024.03. 13.584755 -2024.03. 13.584755
2024
Combination of existing drugs to repair the action potentials of cells
Karoline Horgmo Jaeger , Aslak Tveito
2022
Modeling Excitable Tissue
Karoline Horgmo Jaeger , Aslak Tveito
Springer, Cham 1 -13
5
2020
Efficient numerical solution of the EMI model representing the extracellular space (E), cell membrane (M) and intracellular space (I) of a collection of cardiac cells
Karoline Horgmo Jaeger , Kristian Gregorius Hustad , Xing Cai , Aslak Tveito
Frontiers in Physics (Web) 8 579461 -579461
2020
An Investigation of Necessary Grid Resolution for Numerical Simulations of Calcium Dynamics in Cardiac Cells
Karoline Horgmo Jæger
1
2015
Can the presence of neural probes be neglected in computational modeling of extracellular potentials
Aslak Tveito , Kent-Andre Mardal , Torbjørn Vefferstad Ness , Gert Cauwenberghs
bioRxiv 318741
2018
Efficient numerical solution of the EMI model representing the extracellular space (E), cell membrane (M) and intracellular space (I) of a collection of cardiac cells
Aslak Tveito , Xing Cai , Karoline Horgmo Jæger , Kristian Gregorius Hustad
Frontiers of Physics in China 8 539
15
2021
Identifying Drug Response by Combining Measurements of the Membrane Potential, the Cytosolic Calcium Concentration, and the Extracellular Potential in Microphysiological Systems.
Aslak Tveito , Samuel Wall , Kevin E. Healy , Karoline Horgmo Jæger
Frontiers in Pharmacology 11 569489 -569489
2
2021