Research.
Every peer-reviewed study on fascia in one place — graded for strength of evidence, summarised in plain language for clinicians, researchers, and curious readers.
We grade studies from A to 1A+++ using the Fascia Research Database rubric — 1A+++ is the strongest.
Researchers behind the studiesMechanosensitive Ion Channel Piezo1 Activated by Matrix Stiffness Regulates Oxidative Stress-Induced Senescence and Apoptosis in Human Intervertebral Disc Degeneration
This study investigates how the mechanical environment of the intervertebral disc influences cellular health during disc degeneration. Researchers found that as the central part of the disc (nucleus pulposus) becomes st…
Mechanical sensing protein PIEZO1 regulates bone homeostasis via osteoblast-osteoclast crosstalk
This study using mouse models investigates how the protein PIEZO1 acts as a mechanical sensor in the skeleton to regulate bone mass. Researchers found that a deficiency of PIEZO1 in bone-forming cells (osteoblasts) lead…
The Structure and Role of Intramuscular Connective Tissue in Muscle Function
This narrative review analyzes the microscopic structure of intramuscular connective tissue—endomysium, perimysium, and epimysium—and its role in muscle function. Rather than acting simply as a container, this connectiv…
Feeling Things Out: Bidirectional Signaling of the Cell–ECM Interface, Implications in the Mechanobiology of Cell Spreading, Migration, Proliferation, and Differentiation
This narrative review describes how cells and their surrounding environment, the extracellular matrix (ECM), constantly communicate with each other. This communication involves physical cues from the ECM being translate…
Endothelial mechanobiology
This narrative review explores how the cells lining our blood vessels, called endothelial cells, respond to the mechanical forces of blood flow. It describes two main patterns: smooth, pulsatile flow in straight vessels…
Tissue Regeneration from Mechanical Stretching of Cell–Cell Adhesion
This narrative review explores how mechanical stretching can stimulate tissue regeneration and wound healing. Researchers have long known that cells respond to mechanical forces, but much of the focus has been on the co…
Cell Biology: Function Guides Form of Auditory Sensory Cells
This study describes how the sensory cells in our ears get their specific shape. These cells have bundles of tiny hair-like structures called stereocilia, arranged like a staircase in rows of decreasing height. The proc…
Fascial Nomenclature: An Update
This review article discusses the ongoing challenge of creating a single, comprehensive definition for fascia. The authors argue that different scientific and clinical fields view fascia through their own unique lenses,…
Mechanobiology of cells and cell systems, such as organoids
This review discusses organoids, which are three-dimensional tissues grown in a lab that self-organize to mimic organ development. While organoids offer great potential for disease modeling and drug development, little…
Biophysics of Cell-Substrate Interactions Under Shear
In this review article, the authors examine how cells adhere to surfaces and respond to mechanical forces. Cells use complex structures called focal adhesions to sense and react to their environment, including forces fr…
The plasma membrane as a mechanochemical transducer
In this review article, researchers describe how the plasma membrane, the cell's outer boundary, acts as a key sensor for mechanical forces. The membrane senses and responds to physical stresses from its environment, su…
Cellular nanoscale stiffness patterns governed by intracellular forces
Cell stiffness is important in many biological processes, but its precise relationship to the forces acting inside the cell has been unclear. In this study, researchers developed a new high-resolution imaging platform t…