Prof. Dr. Ralph Müller
Area of Interest
Multiscale Bone Biomechanics, Systems Mechanobiology, Tissue Engineering and Regeneration
Prerequisites a student should comply with
Solid background in mechanics, physics and mathematics and an interest to study phenomena at the interface of technology and biology on all levels of hierarchy in bone.
Recommended master courses (Electives I+II of Learning Agreement of the Major)
Medical Technology:
227-0447-00 Image Analysis and Computer Vision
227‐0946‐00 Molecular Imaging ‐ Basic Principles and Biomedical Applications
227-0965-00 Micro and Nano-Tomography of Biological Tissues
376-0121-00 Multiscale Bone Biomechanics
376-1392-00 Mechanobiology: Implications for Development, Regeneration and Tissue Engineering
376-1397-00 Orthopaedic Biomechanics
376-1614-00 Principles in Tissue Engineering
376-1620-00 Skeletal Repair
376-1622-00 Practical Methods in Tissue Engineering
376-1712-00 Finite Element Analysis in Biomedical Engineering
376-1721-00 Bone Biology and Consequences for Human Health
376‐1974‐00 Colloquium in Biomechanics
Molecular Health Sciences:
227-0396-00 EXCITE Interdisciplinary Summer School on Bio-Medical Imaging
227‐0946‐00 Molecular Imaging ‐ Basic Principles and Biomedical Applications
376-0121-00 Multiscale Bone Biomechanics
376‐0209‐00 Molecular Disease Mechanisms
376-1392-00 Mechanobiology: Implications for Development, Regeneration and Tissue Engineering
551‐0326‐00 Cell Biology
551‐1153‐00 Systems Biology of Metabolism
636‐0003‐00 Biological Engineering and Biotechnology
Research projects of the group
Multiscale Computational Biomechanics and Imaging; Systems Mechanobiology and Personalized Medicine; Tissue Engineering and Regeneration; Bioprinting and Organoid Engineering.