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Methods for in vitro functional analysis of iPSC derived cardiomyocytes - Special focus on analyzing the mechanical beating behaviorCardiomyocyte MEA data analysis (CardioMDA)--a novel field potential data analysis software for pluripotent stem cell derived cardiomyocytesComputational Model of Ca2+ Wave Propagation in Human Retinal Pigment Epithelial ARPE-19 CellsMicro CT visualization of silver nanoparticles in the middle and inner ear of rat and transportation pathway after transtympanic injectionSemi-automatic Method for Ca2+ Imaging Data Analysis of Maturing Human Embryonic Stem Cells-Derived Retinal Pigment Epithelium.Software suite for finite difference method models.Best electrode locations for a small bipolar ECG device: signal strength analysis of clinical data.Optical projection tomography as a tool for 3D imaging of hydrogelsImpedance spectroscopy of changes in skin-electrode impedance induced by motion.Video image-based analysis of single human induced pluripotent stem cell derived cardiomyocyte beating dynamics using digital image correlation.Comparison of chondroitin sulfate and hyaluronic Acid doped conductive polypyrrole films for adipose stem cells.A multi-tissue segmentation of the human head for detailed computational models.Signal analysis and classification methods for the calcium transient data of stem cell-derived cardiomyocytes.Model for long QT syndrome type 2 using human iPS cells demonstrates arrhythmogenic characteristics in cell cultureA fast stimulability screening protocol for neuronal cultures on microelectrode arrays.Texture Descriptors Ensembles Enable Image-Based Classification of Maturation of Human Stem Cell-Derived Retinal Pigmented Epithelium.Inverse electrocardiographic transformations: dependence on the number of epicardial regions and body surface data points.Wireless and inductively powered implant for measuring electrocardiogram.Recurrence network analysis of multiple local field potential bands from the orofacial portion of primary motor cortex.Network-Wide Adaptive Burst Detection Depicts Neuronal Activity with Improved Accuracy.Simulation of developing human neuronal cell networks.Quantifying the effect of electric current on cell adhesion studied by single-cell force spectroscopy.Surface curvature in triply-periodic minimal surface architectures as a distinct design parameter in preparing advanced tissue engineering scaffolds.Distinct electrophysiological and mechanical beating phenotypes of long QT syndrome type 1-specific cardiomyocytes carrying different mutations.Characterization of microstructures using contour tree connectivity for fluid flow analysis.Aquaporin expression and function in human pluripotent stem cell-derived retinal pigmented epithelial cells.Spectral Entropy Based Neuronal Network Synchronization Analysis Based on Microelectrode Array Measurements.Prediction of passive drug permeability across the blood-retinal barrier.In vitro electroretinogram for the study of the functionality of differentiated retinal pigment epithelium cells.Impedance spectroscopy in monitoring the maturation of stem cell-derived retinal pigment epithelium.Substantial variation in the cardiac differentiation of human embryonic stem cell lines derived and propagated under the same conditions--a comparison of multiple cell lines.Region of interest sensitivity ratio in analyzing sensitivity distributions of electrocardiographic measurements.Joint analysis of extracellular spike waveforms and neuronal network bursts.A new algorithm to improve assessment of cortical bone geometry in pQCT.Investigating the possible effect of electrode support structure on motion artifact in wearable bioelectric signal monitoring.Lead field theory provides a powerful tool for designing microelectrode array impedance measurements for biological cell detection and observation.μCT based assessment of mechanical deformation of designed PTMC scaffolds.Dynamics of intracranial electroencephalographic recordings from epilepsy patients using univariate and bivariate recurrence networks.Burst analysis tool for developing neuronal networks exhibiting highly varying action potential dynamics.Human induced pluripotent stem cell-derived versus adult cardiomyocytes: an in silico electrophysiological study on effects of ionic current block.
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Q26771911-9907947E-0DA8-43D4-A5A9-7AE4736CC34AQ28533644-5955B23D-29A5-4DF1-991F-5AAE9CC3F73EQ28548267-035C50EE-1025-48C0-97E9-7B2C8AD3693BQ30419569-90D326BE-4CAF-4DCB-8D95-92157B6E38B1Q31102058-D7A85D11-2F70-4C90-92E0-37144F3651EAQ33303111-DE968D40-D3AB-4BE5-8754-9F9CA7F04D9FQ33385695-3F5CE6CE-7F51-4D49-BCE4-80A2415B4E80Q34387566-25622881-6AF8-4BC8-99C8-811F9A2EB8C2Q34565429-6B5746C4-876E-424E-916D-E1AB70139287Q35141241-4E710179-D5F4-4FA2-A70B-F2D014784BA3Q35167792-4A48D699-8D4C-47F9-AA97-1C51BDBD5517Q35540220-0BDB31CA-D0DD-4BAA-841A-8FA0C094287FQ35595047-0AA08023-23E5-48F6-BF59-5F6E7EFBC554Q35794574-B1EBF85D-48B6-4240-9ADB-3CAAB6C7AE5AQ35887068-C5D5E0BD-3154-47FE-9268-7AE3A70B70F5Q35928804-14C62120-1F2A-4EDD-A9C4-FD6BB8B359BFQ36752349-FCF4EFCE-3B9C-48BE-885A-7FC64E22E6C6Q36967820-CBC54B96-B806-42EC-87D3-61F4DA6ABDDFQ37548465-6F0EE8B6-57F6-47A9-B7CE-2830A2B39FA5Q38723182-66DC3C22-06A8-4249-A9DB-D23E0C155D99Q38748983-1E96A450-2BEC-481E-9C78-428861FB3363Q38801388-7A12F6D1-55C6-4BE6-95D9-28B84228B353Q38840367-657CAB78-CF1D-4E6B-BCE2-7C3DD5B3B058Q39014760-DC2622E0-F6A6-4310-BEFC-1454D00E0507Q39110938-DD5590BC-E93D-4B7A-89E2-BD9441AE7AB0Q39149802-D3940E66-CB45-4358-B139-20DEFD9581BFQ39225717-351472A7-528C-4384-A8FB-964033B980BBQ39232637-2C9EBE75-C8CA-4307-92F8-9117F31E47DFQ39259333-9E8A8B94-CF56-4CAA-831F-12ADA10CEBFEQ39476810-4992D405-E0ED-4A7C-9F0B-9CFE275CA03FQ39891607-9610F1FC-76D2-459B-8A78-6811BC9E2371Q40001640-43871884-9D16-4F82-BACC-58D863BDBB88Q40203847-D48A2FFE-C54C-480D-99D5-2B252F49957AQ40476036-78226E3B-D476-4EA6-9E2B-B3A99A1375DFQ40703511-233AF991-B290-4949-8A7B-FBCD2C6F8327Q41035629-BA6C0358-0E9C-40F5-BB4C-5BAF45937FBAQ41146992-EA17F0C6-9587-4617-B9D1-01627A267795Q41229274-91C444C6-13AC-457C-AD9B-82511D660AA4Q42206071-28BE4E64-68C6-4CA3-8801-47C4AB66ACCCQ42606979-97BB55C4-8C0E-4DBD-A7F1-4BD2973A84AA
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jari Hyttinen
@ast
Jari Hyttinen
@en
Jari Hyttinen
@es
Jari Hyttinen
@nl
Jari Hyttinen
@sl
type
label
Jari Hyttinen
@ast
Jari Hyttinen
@en
Jari Hyttinen
@es
Jari Hyttinen
@nl
Jari Hyttinen
@sl
prefLabel
Jari Hyttinen
@ast
Jari Hyttinen
@en
Jari Hyttinen
@es
Jari Hyttinen
@nl
Jari Hyttinen
@sl
P1053
G-4280-2014
P106
P1153
35515938800
P21
P2456
P2798
P31
P3829
P496
0000-0003-1850-3055
P569
2000-01-01T00:00:00Z