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A01 In silico modelling of brain malformations
A02 Quantitative characterisation of human brain malformations
A03 In vitro model for the mechanics of early brain development
A04 The role of mechanics in orchestrating neural lineage decisions
A05 In vivo model for the mechanics of brain development
B01: In silico modelling of spinal cord regeneration
B02: Pre and post metamorphosis spinal cord regeneration in frogs
B03: The determinants of spinal cord mechanics in homeostasis
B04: Spinal cord mechanics in a mouse model of multiple sclerosis
B05: In vivo mechanical manipulation of spinal cord regeneration
C01: In silico modelling of mechanical cell-matrix interactions
C02: The role of mechanics for neuronal ‘plasticity’
C03: The role of matrix mechanics in synchronised neuronal activity
C04: Cellular differentiation in brain tissue-like matrices
C05: Molecular mechanisms of neuronal mechanotransduction
X01: Model-based reconciliation of ex vivo and in vivo test data
X02: Data analysis and machine learning for heterogeneous, cross-species data
X03: Engineering brain tissue-like matrices
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