| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Bruno Bordoni | |
| P2860 | cites work | The Fluid-Mosaic Model of Membrane Structure: still relevant to understanding the structure, function and dynamics of biological membranes after more than 40 years | Q26828455 |
| Relativistic Fluid Dynamics: Physics for Many Different Scales | Q30364012 | ||
| Simultaneous observation of the quantization and the interference pattern of a plasmonic near-field | Q30629981 | ||
| Biotensegrity: a unifying theory of biological architecture with applications to osteopathic practice, education, and research--a review and analysis | Q34323262 | ||
| Dynamic fluid flow induced mechanobiological modulation of in situ osteocyte calcium oscillations | Q35846972 | ||
| Projection neurons of the vestibulo-sympathetic reflex pathway | Q37719835 | ||
| Fluid Mechanics of Blood Clot Formation | Q38559498 | ||
| A noninvasive approach to determine viscoelastic properties of an individual adherent cell under fluid flow. | Q38600783 | ||
| Implantable Sensors for Regenerative Medicine | Q38781585 | ||
| Mechanical loading by fluid shear stress of myotube glycocalyx stimulates growth factor expression and nitric oxide production | Q39036306 | ||
| In Touch With the Mechanosensitive Piezo Channels: Structure, Ion Permeation, and Mechanotransduction | Q39448465 | ||
| Cellular tensegrity: defining new rules of biological design that govern the cytoskeleton. | Q40817771 | ||
| Can We Advance Macroscopic Quantum Systems Outside the Framework of Complex Decoherence Theory? | Q47102458 | ||
| Mechanotransduction signaling in podocytes from fluid flow shear stress | Q47776294 | ||
| Non-invasive perturbations of intracellular flow reveal physical principles of cell organization. | Q48102776 | ||
| Fluid flow modulates electrical activity in cardiac hERG potassium channels | Q50117970 | ||
| A quantum mechanical interaction of human erythrocytes. | Q52729744 | ||
| Hydrodynamic characteristics of the helical flow pump. | Q53289187 | ||
| Quantum physics: A solid more fluid than a fluid. | Q53785580 | ||
| Stem Cell Cytoskeletal Responses to Pulsatile Flow in Heart Valve Tissue Engineering Studies. | Q55348067 | ||
| Oscillatory fluid flow drives scaling of contraction wave with system size | Q57041192 | ||
| A New Concept of Biotensegrity Incorporating Liquid Tissues: Blood and Lymph | Q58737039 | ||
| Fluid flow characteristics within an oscillating lower spherical surface and a stationary concentric upper surface for application to the artificial hip joint | Q60926179 | ||
| Lymphatic Pump Manipulation in Patients with Chronic Obstructive Pulmonary Disease | Q64106868 | ||
| Emission of Biophotons and Adjustable Sounds by the Fascial System: Review and Reflections for Manual Therapy | Q64333897 | ||
| Size control of the inner ear via hydraulic feedback | Q83228100 | ||
| Cerebrospinal-fluid-contacting neurons | Q89359810 | ||
| Flow-induced mechanotransduction in skeletal cells | Q90141261 | ||
| Fluid shear stress improves morphology, cytoskeleton architecture, viability, and regulates cytokine expression in a time-dependent manner in MLO-Y4 cells | Q90325795 | ||
| Crawling in a Fluid | Q90407831 | ||
| Cytoplasmic convection currents and intracellular temperature gradients | Q91089226 | ||
| Meaning of the Solid and Liquid Fascia to Reconsider the Model of Biotensegrity | Q91349406 | ||
| Fluid flow-induced activation of subcellular AMPK and its interaction with FAK and Src | Q91415222 | ||
| Dynamics of deformable straight and curved prolate capsules in simple shear flow | Q91503260 | ||
| Fluid forces shape the embryonic heart: Insights from zebrafish | Q91854113 | ||
| A first-principle mechanism for particulate aggregation and self-assembly in stratified fluids | Q92163255 | ||
| Innovative Tools for Mechanobiology: Unraveling Outside-In and Inside-Out Mechanotransduction | Q92409326 | ||
| Numerical analysis of the flow field in the lacunar-canalicular system under different magnitudes of gravity | Q92410209 | ||
| Recreating Physiological Environments In Vitro: Design Rules for Microfluidic-Based Vascularized Tissue Constructs | Q92493116 | ||
| Biotensegrity or Fascintegrity? | Q92566140 | ||
| Extracellular vesicles and asthma: A review of the literature | Q92568848 | ||
| Hydraulic control of mammalian embryo size and cell fate | Q92691133 | ||
| Computational Fluid Dynamics in Cerebral Aneurysms-Explaining the Aneurysm's Shape and the Timing of Rupture with Theoretical Physics | Q92728943 | ||
| Active interfacial dynamic transport of fluid in a network of fibrous connective tissues throughout the whole body | Q92763754 | ||
| Tension-dependent structures in a stretch-activated system | Q92973691 | ||
| Biotensegrity: What is the big deal? | Q92973697 | ||
| The architecture and spatial organization of the living human body as revealed by intratissular endoscopy - An osteopathic perspective | Q92973702 | ||
| On the computation of hemodynamic forces in the heart chambers | Q93159069 | ||
| Tissue Flow Induces Cell Shape Changes During Organogenesis | Q93219745 | ||
| P433 | issue | 2 | |
| P304 | page(s) | e6939 | |
| P577 | publication date | 2020-02-10 | |
| P1433 | published in | Cureus | Q27725810 |
| P1476 | title | The Shape and Function of Solid Fascias Depend on the Presence of Liquid Fascias | |
| P478 | volume | 12 |
| Q90747397 | A Review of the Theoretical Fascial Models: Biotensegrity, Fascintegrity, and Myofascial Chains | cites work | P2860 |
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