Chapter 1: The Role of Endothelial Surface Glycocalyx in Mechanosensing and Transduction -- Chapter 2: The Molecular Structure Of The Endothelial Gycocalyx Layer (EGL) and Surface Layers (ESL) Modulation of Transvascular Exchange -- Chapter 3: Role of the Glycocalyx as a Barrier to Leukocyte-Endothelium Adhesion -- Chapter 4: Mechanobiology and Vascular Remodeling: from Membrane to Nucleus -- Chapter 5: Endothelial nuclear lamina in mechanotransduction under shear stress -- Chapter 6: Regional heterogeneity in the regulation of vasoconstriction in arteries and its role in vascular mechanics -- Chapter 7: Microcalcifications, their genesis, growth and biomechanical stability in fibrous cap rupture -- Chapter 8: Abdominal Aortic Aneurysm Pathomechanics: Current Understanding and Future Directions -- Chapter 9: Vascular intervention: from angioplasty to bioresorbable vascular scaffold -- Chapter 10: On the physics underlying longitudinal capillary recruitment -- Chapter 11: Tumor Metastasis in the Microcirculation -- Chapter 12: Modelling Cell Adhesion and Extravasation in Microvascular system -- Chapter 13: Transport across the Blood-Brain Barrier -- Chapter 14: Blood-Brain Barrier Integrity and Clearance of Amyloid-β from the BBB -- Chapter 15: Mathematical Models of Cell Response Following Heating -- Chapter 16: Hypothermia Used in Medical Applications for Brain and Spinal Cord Injury Patients -- Chapter 17: Biomechanical Changes of Tympanic Membrane to Blast Waves.