Video Lecture Notes on Biomechanical Modelling of Bone & Cartillage

Learning Outcomes

1) To give insight into articular cartilage and bone biomechanics, structure and composition, and present imaging and mechanical testing techniques to characterize these properties.
2) To present basic principles of biomechanical modeling of tissues, especially articular cartilage and bone, and show state-of-the-art techniques and computational models of articular cartilage and bone.

Download the Video Lecture Notes By Clicking the Computer image on left hand side of the topic.

Engineering aspects in bone research
  1 Timo Jämsä: Engineering aspects in bone research
  2 Timo Jämsä: Engineering aspects in bone research
Engineering aspects in articular cartilage research
  3 Juha Töyräs: Engineering aspects in articular cartilage research
  4 Juha Töyräs: Engineering aspects in articular cartilage research
Imaging and data collection for modeling – bone
  5 Harri Sievänen: Imaging and data collection for modeling – bone
  6 Harri Sievänen: Imaging and data collection for modeling – bone
Imaging and data collection for modeling – articular cartilage
  7 Jukka Jurvelin: Imaging and data collection for modeling – articular cartilage
  8 Jukka Jurvelin: Imaging and data collection for modeling – articular cartilage
Fundamentals in biomechanical modeling
  9 Dieter H. Pahr: Fundamentals in biomechanical modeling
10 Rami K. Korhonen: Fundamentals in biomechanical modeling
Modeling of articular cartilage and chondrocyte biomechanics
11 Rami K. Korhonen: Modeling of articular cartilage and chondrocyte biomechanics
12 Rami K. Korhonen: Modeling of articular cartilage and chondrocyte biomechanics
Modern techniques for biomechanical modeling of articular cartilage
13 Petro Julkunen: Modern techniques for biomechanical modeling of articular cartilage
Computational bone biomechanics
14 Dieter H. Pahr: Computational bone biomechanics
15 Dieter H. Pahr: Computational bone biomechanics
Modeling of human bones – from CT to biomechanical models
16 Dieter H. Pahr: Modeling of human bones – from CT to biomechanical models
17 Dieter H. Pahr: Modeling of human bones – from CT to biomechanical models
Modeling of bone adaptation and repair
18 Hanna Isaksson: Modeling of bone adaptation and repair
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