Modeling Cell Electroporation and Its Measurable Effects in Tissueġ3.3 Physical Changes in Biological Tissue Following Electroporationġ3.4 Modeling of Skin Electroporation TransportĬhapter 14.
Mass Transfer Phenomena in Electroporationġ2.2 Electroporation Background and Theoryġ2.3 Applications of Electroporation-Mediated Mass Transport in Biological Systemsġ2.4 Mechanisms of Pulsed Electric Field-Mediated Transport into Cellsġ2.5 Experimental Methods Used to Study Mass Transfer During Electroporationġ2.6 Mathematical Models Describing Molecular Transport During Reversible Electroporationġ2.7 Future Needs in Mathematical Modeling of Mass Transport for Electroporation ResearchĬhapter 13. Electrotransport Across Membranes in Biological Media: Electrokinetic Theories and Applications in Drug Deliveryġ1.2 Nernst-Planck Theory and Model Simulation Analysesġ1.3 Electrotransport Under a Constant Electric Field Across Membrane (Symmetric Conditions)ġ1.4 Electrotransport Under Variable Electric Field Across Membrane (Asymmetric Conditions)ġ1.5 Electrotransport Across Multiple Barriers/Membranesġ1.6 Electrotransport Under Alternating Currentġ1.8 Electrokinetic Methods of Enhanced Transport Across Biological MembranesĬhapter 12. Targeted Drug Delivery: Multifunctional Nanoparticles and Direct Micro-Drug Delivery to Tumorsġ0.2 Diagnostic Imaging and Image-Guided Drug DeliveryĬhapter 11. Shear Stress Variation and Plasma Viscosity Effect in Microcirculationĩ.4 WSS Variation Induced by Blood Flows in MicrovesselsĬhapter 10. Mechanobiology of the Arterial WallĨ.6 Constitutive Models for the Arterial WallĨ.7 Modeling Vascular Disease: Intracranial AneurysmsĬhapter 9. Models of Cerebrovascular Perfusionħ.2 From Arteries to Cells and Back Again (Cerebral Anatomy and Physiology)ħ.4 A Simple Description of Cerebral Autoregulationħ.5 Vascular Trees and Their Numerical Simulationħ.6 Simple Models of Autoregulated Cerebral PerfusionĬhapter 8.
Blood Flow Through Capillary NetworksĦ.2 Equations of Steady Capillary Blood FlowĦ.4 Steady Flow Through Homogeneous NetworksĬhapter 7. Carrier-Mediated Transport Through Biomembranesĥ.2 Physicochemical Principles and Kinetic Modeling of Carrier-Mediated Transportĥ.3 Experimentally Observable Features of Carrier-Mediated Transport Phenomenaĥ.4 Kinetic Modeling of Mitochondrial Uniporterĥ.5 Other Modes of Carrier-Mediated Transport: Antiport and CotransportĬhapter 6. Transport of Water and Solutes Across Endothelial Barriers and Tumor Cell Adhesion in the MicrocirculationĤ.3 Modulation of Microvascular TransportĤ.4 Tumor Cell Adhesion in the MicrocirculationĤ.5 Summary and Opportunities for Future StudyĬhapter 5. Drug Release in Biological Tissuesģ.2 Continuum Modeling of Mass Transport in Porous Mediaģ.4 Analytical Solutions for Local Mass Non-Equilibriumģ.5 Analytical Solutions for Local Mass Equilibriumģ.6 Applications of Porous Media to the Drug-Eluting StentĬhapter 4. Thermal Pain in Teeth: Heat Transfer, Thermomechanics and Ion TransportĢ.2 Modeling of Thermally Induced Dentinal Fluid FlowĬhapter 3. Modeling Momentum and Mass Transport in Cellular Biological Media: From the Molecular to the Tissue Scaleġ.2 Mechanics of Biomolecules, Subcellular Structures and Biological Cellsġ.3 Formulation of Balance Laws and Constitutive Equationsġ.4 Calculation of Constitutive Parametersġ.5 Modeling of Growth and Pattern FormationĬhapter 2.
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