All Outputs (4)

Anti-inflammatory effects of Omega 3 fatty acids on murine skeletal muscle cell differentiation (2011)
Thesis
Magee, P. Anti-inflammatory effects of Omega 3 fatty acids on murine skeletal muscle cell differentiation. (Thesis). Salford : University of Salford

Eicosapentaenoic acid (ERA) is an w-3 polyunsaturated fatty acid (PUFA) with anti-inflammatory and anti-cachetic properties. These properties have not previously been investigated simultaneously with regards to skeletal muscle damage and regenera... Read More about Anti-inflammatory effects of Omega 3 fatty acids on murine skeletal muscle cell differentiation.

In vivo tendon mechanical and structural properties : adaptability and influencing factors (2009)
Thesis
Burgess, K. In vivo tendon mechanical and structural properties : adaptability and influencing factors. (Thesis). University of Salford

The central aim of this thesis was to expand on the current knowledge of factors which influence human tendon properties. It is shown here that tendon elongation is 72% greater and calculated tendon stiffness 43% (p0.05).

Automated speckle tracking in ultrasound images of tendon movements
Thesis
Mohamed, A. (in press). Automated speckle tracking in ultrasound images of tendon movements. (Thesis). University of Salford

The central aim of this thesis was to develop new tracking software employing various image tracking algorithms for tracking the speckled movement of the tendon image captured using dynamic B-mode ultrasound imaging. The algorithms were selected base... Read More about Automated speckle tracking in ultrasound images of tendon movements.

Characterising the biomechanical properties of the plantar soft tissue under the conditions of simulated gait
Thesis
Parker, D. Characterising the biomechanical properties of the plantar soft tissue under the conditions of simulated gait. (Thesis). The University of Salford

The plantar soft tissue at the heel and ball of the foot provide the interface between the body and the ground. This tissue is adapted to attenuate large amounts of energy during impact (heel strike) and to become rigid under continuous loading (stan... Read More about Characterising the biomechanical properties of the plantar soft tissue under the conditions of simulated gait.