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Ice formation in isolated human hepatocytes and human liver tissue
John C. Bischof
, Colleen M. Ryan
, Ronald G. Tompkins
, Martin L. Yarmush
, Mehmet Toner
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
30
Scopus citations
Overview
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Dive into the research topics of 'Ice formation in isolated human hepatocytes and human liver tissue'. Together they form a unique fingerprint.
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Keyphrases
Water Transport
100%
Human Hepatocytes
100%
Human-to-human
100%
Isolated Cells
100%
Cooling Rate
100%
Ice Formation
100%
Human Liver Tissue
100%
Tissue Slices
66%
Liver Tissue
66%
Humanized Liver
66%
Cryopreservation
66%
Human Liver
66%
Individual Cells
33%
Liver
33%
Hepatocytes
33%
Cell-to-cell
33%
Drug Toxicity
33%
Cellular Level
33%
Ice nucleation
33%
Cylinder Model
33%
Water Ice
33%
Intracellular Ice Formation
33%
Homogeneous nucleation
33%
In Vitro System
33%
In Vitro Metabolism
33%
Level System
33%
Organ Function
33%
Cell-extracellular Matrix Interaction
33%
Tissue Level
33%
Biotoxicity
33%
Cellular Compartments
33%
Biophysical Parameters
33%
Freezing Temperature
33%
Isolated Hepatocytes
33%
Rapid Cooling
33%
Heterogeneous nucleation
33%
Krogh Cylinder
33%
Intracellular Ice
33%
Freezing Stress
33%
Heterogeneous Ice nucleation
33%
Isolated Tissue
33%
Metabolism Model
33%
Cryomicroscope
33%
Whole Liver
33%
Model Simulation
33%
Biophysical Mechanisms
33%
Toxicity Model
33%
Medicine and Dentistry
Liver Tissue
100%
Hepatocyte
100%
Water Transport
75%
In Vitro
50%
Tissue Slice
50%
Cryopreservation
50%
Bioartificial Liver
25%
Extracellular Matrix
25%
Extracorporeal
25%
Cellular Compartment
25%
Liquefied Petroleum Gas
25%
Drug Toxicity
25%
Bioartificial Liver Device
25%
Drug Metabolism
25%
Immunology and Microbiology
Liver Tissue
100%
Tissue Slice
66%
Cryopreservation
66%
In Vitro
66%
Mole (Insectivora)
33%
Tissue Level
33%
Drug Toxicity
33%
Extracellular Matrix
33%
Drug Metabolism
33%
Biochemistry, Genetics and Molecular Biology
Hepatocyte
100%
Water Transport
75%
Cryopreservation
50%
Drug Metabolism
25%
Mole (Insectivora)
25%
Tissue Level
25%
Drug Toxicity
25%
Material Science
Nucleation
100%
Cylinder
25%