| Literature DB >> 27420572 |
Sabrina Jahn1, Jasmine Seror1, Jacob Klein1.
Abstract
The major synovial joints such as hips and knees are uniquely efficient tribological systems, able to articulate over a wide range of shear rates with a friction coefficient between the sliding cartilage surfaces as low as 0.001 up to pressures of more than 100 atm. No human-made material can match this. The means by which such surfaces maintain their very low friction has been intensively studied for decades and has been attributed to fluid-film and boundary lubrication. Here, we focus especially on the latter: the reduction of friction by molecular layers at the sliding cartilage surfaces. In particular, we discuss such lubrication in the light of very recent advances in our understanding of boundary effects in aqueous media based on the paradigms of hydration lubrication and of the synergism between different molecular components of the synovial joints (namely hyaluronan, lubricin, and phospholipids) in enabling this lubrication.Entities:
Keywords: articular cartilage; boundary lubrication; cartilage lubrication; friction and lubrication; hyaluronan; hydration lubrication; lubricin; osteoarthritis; phospholipids; supramolecular synergy
Mesh:
Year: 2016 PMID: 27420572 DOI: 10.1146/annurev-bioeng-081514-123305
Source DB: PubMed Journal: Annu Rev Biomed Eng ISSN: 1523-9829 Impact factor: 9.590