Gaining Insight into the Deformation of Achilles Tendon Entheses in Mice

Abstract: Understanding the biomechanics of tendon entheses is fundamental for surgical repair and tissue engineering, but also relevant in biomimetics and palaeontology. 3D imaging is becoming increasingly important in the examination of soft tissue deformation. But entheses are particularly difficult objects for micro-computed tomography because they exhibit extreme differences in X-ray attenuation. In this article, the ex vivo examination of Achilles tendon entheses from mice using a combination of tensile tests and … Show more

“…With mechanical stimulation [23,24], growth factors [22,23], and hypoxia [25], adipose-derived mesenchymal stem cells (ADMSCs) show a potential for tendon healing in vitro and in vivo [26]. We harvested ADMSCs from adipose tissue adjacent to the tendons like the infrapatellar fat pad and the Kagers fat pad [27]. Then we seeded the cells to silicone rubber membranes with type I Collagen coating for stretching.…”

A Tendon-Specific Double Reporter Transgenic Mouse Enables Tracking Cell Lineage and Functions Alteration In Vitro and In Vivo

“…With mechanical stimulation [23,24], growth factors [22,23], and hypoxia [25], adipose-derived mesenchymal stem cells (ADMSCs) show a potential for tendon healing in vitro and in vivo [26]. We harvested ADMSCs from adipose tissue adjacent to the tendons like the infrapatellar fat pad and the Kagers fat pad [27]. Then we seeded the cells to silicone rubber membranes with type I Collagen coating for stretching.…”

A Tendon-Specific Double Reporter Transgenic Mouse Enables Tracking Cell Lineage and Functions Alteration In Vitro and In Vivo