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Mechanobiology in Epithelial
3D Tissue Constructs
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PROJECT AREAS
PROJECT AREAS
Project Areas
AREA A - Mechanobiology of lumen-bearing tubules and spheroids
AREA B - Mechanical properties of stratified 3D tissue constructs
AREA C - Mechanical cross-talk between tissues and the external environment
AREA D - Tools in mechanobiology of 3D tissues
PROJECTS
PROJECTS
Project overview
A1 - Mechanobiology of embryoid bodies
A1 - Mechanobiology of embryoid bodies
Job Specification
A2 - Mechanobiological regulation of breast epithelium organization and cell invasion
A2 - Mechanobiological regulation of breast epithelium organization and cell invasion
Job Specification
A3 - Mechanobiology of adhesion during implantation and early placeentation
A3 - Mechanobiology of adhesion during implantation and early placeentation
Job Specification
A4 - Modeling the 3D shaping of epithelial tissue:The effect of the mechanical microenvironment
A4 - Modeling the 3D shaping of epithelial tissue:The effect of the mechanical microenvironment
Job Specification
B1 - 3D mapping of epidermal tissue mechanics during growth and upon wounding
B1 - 3D mapping of epidermal tissue mechanics during growth and upon wounding
Job Specification
B2 - Consequences of disease-causing cytoskeletal mutations on epidermal tissue stability
B2 - Consequences of disease-causing cytoskeletal mutations on epidermal tissue stability
Job Specification
B3 - Mechanostimulation of an innervated 3D skin model
B3 - Mechanostimulation of an innervated 3D skin model
Job Specification
C1 - Regulation of the epithelial-endothelial signaling interface by shear stress and substrate stiffness
C1 - Regulation of the epithelial-endothelial signaling interface by shear stress and substrate stiffness
Job Specification
C2 - Mechanically induced switches in the resolution of inflammation
C2 - Mechanically induced switches in the resolution of inflammation
Job Specification
C3 - Guiding respiratory epithelium towards directed ciliary function
C3 - Guiding respiratory epithelium towards directed ciliary function
Job Specification
D1 - Natural and synthetic hybrid hydrogels to study the effect of mechanical anisotropy on cell behavior and guidance
D1 - Natural and synthetic hybrid hydrogels to study the effect of mechanical anisotropy on cell behavior and guidance
Job Specification
D2 - Mechanobiological challenges related to hydrogel-based bioprinting technology for manufacturing novel 3D cell culture models
D2 - Mechanobiological challenges related to hydrogel-based bioprinting technology for manufacturing novel 3D cell culture models
Job Specification
D3 - Magnetic micromanipulators for probing local rheological properties of scaffolds and vital 3D tissue constructs
D3 - Magnetic micromanipulators for probing local rheological properties of scaffolds and vital 3D tissue constructs
Job Specification
Young Scientist Award 2022
TRAINING
TRAINING
curriculum
CM 0 - Introduction
CM 1 - Interdisciplinary Course
CM 2 - MEƎT Seminar
CM 3 - Workshops
CM 4 - Lab Exchange
CM 5 - Midterm Conference
OM 1 - Lectures
OM 2 - Seminars
OM 3 - Practical Courses
OM 4 - International Conferences
OM 5 - Tutorials
OM 6 - Excursions
OM 7 - Supervision
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team overview
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OMBUDSMAN
Peter Walter
Prof. Dr. med
Department of Opthalmology
RWTH Aachen
Pauwelsstraße 30, 52074 Aachen
IMPRESSUM | PRIVACY POLICY
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IMPRESSUM | PRIVACY POLICY
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