Ana-Maria Trunfio-Sfarghiu scite author profile

The role of phospholipid bilayers in controlling and reducing frictional forces between biological surfaces is investigated by three complementary experiments: friction forces are measured using a homemade tribometer, mechanical resistance to indentation is measured by AFM, and lipid bilayer degradation is controlled in situ during friction testing using fluorescence microscopy. DPPC lipid bilayers in the solid phase generate friction coefficients as low as 0.002 (comparable to that found for cartilage) that are stable through time. DOPC bilayers formed by the vesicle fusion method or the adsorption of mixed micelles generate higher friction coefficients. These coefficients increased through time, during which the bilayers degraded. The friction coefficient is correlated with the force needed to penetrate the bilayer with the AFM tip. With only one bilayer in the contact region, the friction increased to a similar value of about 0.08 for the DPPC and DOPC. Our study therefore shows that good mechanical stability of the bilayers is essential and suggests that the low friction coefficient is ensured by the hydration layers between adjacent lipid bilayers.

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Role of the biomolecular interactions in the structure and tribological properties of synovial fluid

Mirea

Trunfio-Sfarghiu

Matei

et al. 2013

Tribology International

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Multiscale analysis of the tribological role of the molecular assemblies of synovial fluid. Case of a healthy joint and implants

Trunfio-Sfarghiu

Berthier

Meurisse

et al. 2007

Tribology International

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