Showing 38 publications by Johannes Weickenmeier
Microindentation reveals softening of the equatorial and anterior sclera during early myopia development in tree shrew eyes.
Zhang X, El Hamdaoui M, Lim S, Grytz R & Weickenmeier J (2025), Acta biomaterialia, S1742-7061(25)00390-3
BibTeX
@article{microindentatio-2025/6,
title={Microindentation reveals softening of the equatorial and anterior sclera during early myopia development in tree shrew eyes.},
author={Zhang X, El Hamdaoui M, Lim S, Grytz R & Weickenmeier J},
journal={Acta biomaterialia},
pages={S1742-7061(25)00390-3},
year = "2025"
}
WMH Contributions to Cognitive Impairment: Rationale and Design of the Diverse VCID Study.
DeCarli C, Rajan KB, Jin L-W, Hinman J, Johnson DK et al. (2025), Stroke, 56(3), 758-776
BibTeX
@article{wmhcontribution-2025/3,
title={WMH Contributions to Cognitive Impairment: Rationale and Design of the Diverse VCID Study.},
author={DeCarli C, Rajan KB, Jin L-W, Hinman J, Johnson DK et al.},
journal={Stroke},
volume={56},
pages={758-776},
year = "2025"
}
Triaxial mechanical characterization of ultrasoft 3D support bath-based bioprinted tubular GelMA constructs
Torza A, Zgeib R, Wang X, Zaeri A, Zhang F et al. (2024), International Journal of Solids and Structures, 301
BibTeX
@article{triaxialmechani-2024/6,
title={Triaxial mechanical characterization of ultrasoft 3D support bath-based bioprinted tubular GelMA constructs},
author={Torza A, Zgeib R, Wang X, Zaeri A, Zhang F et al.},
journal={International Journal of Solids and Structures},
volume={301},
number={112938},
publisher={Elsevier},
year = "2024"
}
Insights into the mechanical characterization of mouse brain tissue using microindentation testing
Zhang X, van den Hurk EAN & Weickenmeier J (2024), Current Protocols, 4(4)
BibTeX
@article{insightsintothe-2024/4,
title={Insights into the mechanical characterization of mouse brain tissue using microindentation testing},
author={Zhang X, van den Hurk EAN & Weickenmeier J},
journal={Current Protocols},
volume={4},
number={e1011},
publisher={Wiley},
year = "2024"
}
Brain stiffness follows cuprizone-induced variations in local myelin content
Zhang X & Weickenmeier J (2023), Acta Biomaterialia, 170, 507-518
BibTeX
@article{brainstiffnessf-2023/9,
title={Brain stiffness follows cuprizone-induced variations in local myelin content},
author={Zhang X & Weickenmeier J},
journal={Acta Biomaterialia},
volume={170},
pages={507-518},
publisher={Elsevier},
year = "2023"
}
AI-dente: an open machine learning based tool to interpret nano-indentation data of soft tissues and materials
Giolando P, Kakaletsis S, Zhang X, Weickenmeier J, Castillo E et al. (2023), Soft Matter, 19(35), 6710-6720
BibTeX
@article{aidenteanopenma-2023/8,
title={AI-dente: an open machine learning based tool to interpret nano-indentation data of soft tissues and materials},
author={Giolando P, Kakaletsis S, Zhang X, Weickenmeier J, Castillo E et al.},
journal={Soft Matter},
volume={19},
pages={6710-6720},
publisher={Royal Society of Chemistry},
year = "2023"
}
A multiphysics model to predict periventricular white matter hyperintensity growth during healthy brain aging
Caçoilo A, Dortdivanlioglu B, Rusinek H & Weickenmeier J (2023), Brain Multiphysics, 5
BibTeX
@article{amultiphysicsmo-2023/5,
title={A multiphysics model to predict periventricular white matter hyperintensity growth during healthy brain aging},
author={Caçoilo A, Dortdivanlioglu B, Rusinek H & Weickenmeier J},
journal={Brain Multiphysics},
volume={5},
number={100072},
publisher={Elsevier},
year = "2023"
}
Mechanical loading of the ventricular wall as a spatial indicator for periventricular white matter degeneration
Visser VL, Caçoilo A, Rusinek H & Weickenmeier J (2023), Journal of the Mechanical Behavior of Biomedical Materials, 143
BibTeX
@article{mechanicalloadi-2023/5,
title={Mechanical loading of the ventricular wall as a spatial indicator for periventricular white matter degeneration},
author={Visser VL, Caçoilo A, Rusinek H & Weickenmeier J},
journal={Journal of the Mechanical Behavior of Biomedical Materials},
volume={143},
number={105921},
publisher={Elsevier},
year = "2023"
}
Exploring the multiphysics of the brain during development, aging, and in neurological diseases
Weickenmeier J (2023), Brain Multiphysics, 4
BibTeX
@article{exploringthemul-2023/4,
title={Exploring the multiphysics of the brain during development, aging, and in neurological diseases},
author={Weickenmeier J},
journal={Brain Multiphysics},
volume={4},
number={100068},
publisher={Elsevier},
year = "2023"
}
Special Issue: Imaging-based methods in computational medicine
Tepole AB, Weickenmeier J, Holland M & Grytz R (2022), Engineering with Computers, 38(5), 3831-3833
BibTeX
@article{specialissueima-2022/10,
title={Special Issue: Imaging-based methods in computational medicine},
author={Tepole AB, Weickenmeier J, Holland M & Grytz R},
journal={Engineering with Computers},
volume={38},
pages={3831-3833},
publisher={Springer Nature},
year = "2022"
}
3D finite-element brain modeling of lateral ventricular wall loading to rationalize periventricular white matter hyperintensity locations
Caçoilo A, Rusinek H & Weickenmeier J (2022), Engineering with Computers, 38(5), 3939-3955
BibTeX
@article{dfiniteelementb-2022/7,
title={3D finite-element brain modeling of lateral ventricular wall loading to rationalize periventricular white matter hyperintensity locations},
author={Caçoilo A, Rusinek H & Weickenmeier J},
journal={Engineering with Computers},
volume={38},
pages={3939-3955},
publisher={Springer Nature},
year = "2022"
}
Peak ependymal cell stretch overlaps with the onset locations of periventricular white matter lesions
Visser VL, Rusinek H & Weickenmeier J (2021), Scientific Reports, 11(1)
BibTeX
@article{peakependymalce-2021/11,
title={Peak ependymal cell stretch overlaps with the onset locations of periventricular white matter lesions},
author={Visser VL, Rusinek H & Weickenmeier J},
journal={Scientific Reports},
volume={11},
number={21956},
publisher={Springer Nature},
year = "2021"
}
Brain aging mechanisms with mechanical manifestations
Blinkouskaya Y, Caçoilo A, Gollamudi T, Jalalian S & Weickenmeier J (2021), Mechanisms of Ageing and Development, 200
BibTeX
@article{brainagingmecha-2021/10,
title={Brain aging mechanisms with mechanical manifestations},
author={Blinkouskaya Y, Caçoilo A, Gollamudi T, Jalalian S & Weickenmeier J},
journal={Mechanisms of Ageing and Development},
volume={200},
number={111575},
publisher={Elsevier},
year = "2021"
}
Brain shape changes associated with cerebral atrophy in healthy aging and Alzheimer's disease
Blinkouskaya Y & Weickenmeier J (2021), Frontiers in Mechanical Engineering, 7
BibTeX
@article{brainshapechang-2021/7,
title={Brain shape changes associated with cerebral atrophy in healthy aging and Alzheimer's disease},
author={Blinkouskaya Y & Weickenmeier J},
journal={Frontiers in Mechanical Engineering},
volume={7},
number={705653},
publisher={Frontiers Media},
year = "2021"
}
An inverse modelling study on the local volume changes during early morphoelastic growth of the fetal human brain
Wang Z, Martin B, Weickenmeier J & Garikipati K (2021), Brain Multiphysics, 2
BibTeX
@article{aninversemodell-2021/3,
title={An inverse modelling study on the local volume changes during early morphoelastic growth of the fetal human brain},
author={Wang Z, Martin B, Weickenmeier J & Garikipati K},
journal={Brain Multiphysics},
volume={2},
number={100023},
publisher={Elsevier},
year = "2021"
}
The Geometry of Incompatibility in Growing Soft Tissues: Theory and Numerical Characterization.
Lee T, Holland MA, Weickenmeier J, Gosain AK & Tepole AB (2021), Journal of the mechanics and physics of solids, 146, 104177
BibTeX
@article{thegeometryofin-2021/1,
title={The Geometry of Incompatibility in Growing Soft Tissues: Theory and Numerical Characterization.},
author={Lee T, Holland MA, Weickenmeier J, Gosain AK & Tepole AB},
journal={Journal of the mechanics and physics of solids},
volume={146},
pages={104177},
year = "2021"
}
The interplay of biochemical and biomechanical degeneration in Alzheimer’s disease
Schäfer A, Weickenmeier J & Kuhl E (2019), Computer Methods in Applied Mechanics and Engineering, 352, 369-388
BibTeX
@article{theinterplayofb-2019/8,
title={The interplay of biochemical and biomechanical degeneration in Alzheimer’s disease},
author={Schäfer A, Weickenmeier J & Kuhl E},
journal={Computer Methods in Applied Mechanics and Engineering},
volume={352},
pages={369-388},
publisher={Elsevier},
year = "2019"
}
Inverse Methods
Weickenmeier J & Mazza E (2019), 22, 193-213
BibTeX
@misc{inversemethods-2019/,
title={Inverse Methods},
author={Weickenmeier J & Mazza E},
year = "2019"
}
A physics-based model explains the prion-like features of neurodegeneration in Alzheimer’s disease, Parkinson’s disease, and amyotrophic lateral sclerosis
Weickenmeier J, Jucker M, Goriely A & Kuhl E (2018), Journal of the Mechanics and Physics of Solids, 124, 264-281
BibTeX
@article{aphysicsbasedmo-2018/10,
title={A physics-based model explains the prion-like features of neurodegeneration in Alzheimer’s disease, Parkinson’s disease, and amyotrophic lateral sclerosis},
author={Weickenmeier J, Jucker M, Goriely A & Kuhl E},
journal={Journal of the Mechanics and Physics of Solids},
volume={124},
pages={264-281},
publisher={Elsevier},
year = "2018"
}
The multiphysics of prion-like diseases: progression and atrophy
GORIELY A, Weickenmeier J & Kuhl E (2018), Physical Review Letters
BibTeX
@article{themultiphysics-2018/10,
title={The multiphysics of prion-like diseases: progression and atrophy},
author={GORIELY A, Weickenmeier J & Kuhl E},
journal={Physical Review Letters},
publisher={American Physical Society},
year = "2018"
}
Brain stiffens post mortem.
Weickenmeier J, Kurt M, Ozkaya E, de Rooij R, Ovaert TC et al. (2018), Journal of the mechanical behavior of biomedical materials, 84, 88-98
BibTeX
@article{brainstiffenspo-2018/8,
title={Brain stiffens post mortem.},
author={Weickenmeier J, Kurt M, Ozkaya E, de Rooij R, Ovaert TC et al.},
journal={Journal of the mechanical behavior of biomedical materials},
volume={84},
pages={88-98},
year = "2018"
}
Location-specific mechanical response and morphology of facial soft tissues.
Pensalfini M, Weickenmeier J, Rominger M, Santoprete R, Distler O et al. (2018), Journal of the mechanical behavior of biomedical materials, 78, 108-115
BibTeX
@article{locationspecifi-2018/2,
title={Location-specific mechanical response and morphology of facial soft tissues.},
author={Pensalfini M, Weickenmeier J, Rominger M, Santoprete R, Distler O et al.},
journal={Journal of the mechanical behavior of biomedical materials},
volume={78},
pages={108-115},
year = "2018"
}
Magnetic resonance elastography of the brain: A comparison between pigs and humans.
Weickenmeier J, Kurt M, Ozkaya E, Wintermark M, Pauly KB et al. (2018), Journal of the mechanical behavior of biomedical materials, 77, 702-710
BibTeX
@article{magneticresonan-2018/1,
title={Magnetic resonance elastography of the brain: A comparison between pigs and humans.},
author={Weickenmeier J, Kurt M, Ozkaya E, Wintermark M, Pauly KB et al.},
journal={Journal of the mechanical behavior of biomedical materials},
volume={77},
pages={702-710},
year = "2018"
}
The mechanical importance of myelination in the central nervous system.
Weickenmeier J, de Rooij R, Budday S, Ovaert TC & Kuhl E (2017), Journal of the mechanical behavior of biomedical materials, 76, 119-124
BibTeX
@article{themechanicalim-2017/12,
title={The mechanical importance of myelination in the central nervous system.},
author={Weickenmeier J, de Rooij R, Budday S, Ovaert TC & Kuhl E},
journal={Journal of the mechanical behavior of biomedical materials},
volume={76},
pages={119-124},
year = "2017"
}
Experimental and Numerical Characterization of the Mechanical Masseter Muscle Response During Biting.
Weickenmeier J, Jabareen M, Le Révérend BJD, Ramaioli M & Mazza E (2017), Journal of biomechanical engineering, 139(12)
BibTeX
@article{experimentaland-2017/12,
title={Experimental and Numerical Characterization of the Mechanical Masseter Muscle Response During Biting.},
author={Weickenmeier J, Jabareen M, Le Révérend BJD, Ramaioli M & Mazza E},
journal={Journal of biomechanical engineering},
volume={139},
year = "2017"
}
Dimensional, geometrical, and physical constraints in skull growth
Weickenmeier J, Fischer C, Carter D, Kuhl E & Goriely A (2017), Physical Review Letters, 118, 248101
BibTeX
@article{dimensionalgeom-2017/6,
title={Dimensional, geometrical, and physical constraints in skull growth},
author={Weickenmeier J, Fischer C, Carter D, Kuhl E & Goriely A},
journal={Physical Review Letters},
volume={118},
pages={248101},
publisher={American Physical Society},
year = "2017"
}
Weekly Time Course of Neuro-Muscular Adaptation to Intensive Strength Training.
Brown N, Bubeck D, Haeufle DFB, Weickenmeier J, Kuhl E et al. (2017), Frontiers in physiology, 8, 329
BibTeX
@article{weeklytimecours-2017/1,
title={Weekly Time Course of Neuro-Muscular Adaptation to Intensive Strength Training.},
author={Brown N, Bubeck D, Haeufle DFB, Weickenmeier J, Kuhl E et al.},
journal={Frontiers in physiology},
volume={8},
pages={329},
year = "2017"
}
Bulging brains
Weickenmeier J, Saez P, Goriely A & Kuhl E (2016), Journal of Elasticity, 129(1-2), 197-212
BibTeX
@article{bulgingbrains-2016/10,
title={Bulging brains},
author={Weickenmeier J, Saez P, Goriely A & Kuhl E},
journal={Journal of Elasticity},
volume={129},
pages={197-212},
publisher={Springer},
year = "2016"
}
Stress Singularities in Swelling Soft Solids
Goriely A, Weickenmeier J & Kuhl E (2016), Physical Review Letters
BibTeX
@article{stresssingulari-2016/9,
title={Stress Singularities in Swelling Soft Solids},
author={Goriely A, Weickenmeier J & Kuhl E},
journal={Physical Review Letters},
publisher={American Physical Society},
year = "2016"
}
Brain stiffness increases with myelin content.
Weickenmeier J, de Rooij R, Budday S, Steinmann P, Ovaert TC et al. (2016), Acta biomaterialia, 42, 265-272
BibTeX
@article{brainstiffnessi-2016/9,
title={Brain stiffness increases with myelin content.},
author={Weickenmeier J, de Rooij R, Budday S, Steinmann P, Ovaert TC et al.},
journal={Acta biomaterialia},
volume={42},
pages={265-272},
year = "2016"
}
The mechanics of decompressive craniectomy: Personalized simulations
Weickenmeier J, Butler C, Young PG, Goriely A & Kuhl E (2016), Computer Methods in Applied Mechanics and Engineering, 314, 180-195
BibTeX
@article{themechanicsofd-2016/8,
title={The mechanics of decompressive craniectomy: Personalized simulations},
author={Weickenmeier J, Butler C, Young PG, Goriely A & Kuhl E},
journal={Computer Methods in Applied Mechanics and Engineering},
volume={314},
pages={180-195},
publisher={Elsevier},
year = "2016"
}
Tri-layer wrinkling as a mechanism for anchoring center initiation in the developing cerebellum.
Lejeune E, Javili A, Weickenmeier J, Kuhl E & Linder C (2016), Soft matter, 12(25), 5613-5620
BibTeX
@article{trilayerwrinkli-2016/7,
title={Tri-layer wrinkling as a mechanism for anchoring center initiation in the developing cerebellum.},
author={Lejeune E, Javili A, Weickenmeier J, Kuhl E & Linder C},
journal={Soft matter},
volume={12},
pages={5613-5620},
year = "2016"
}
The mechanics of decompressive craniectomy:Bulging in idealized geometries
Goriely A, Weickenmeier J & Kuhl E (2016), Journal of the Mechanics and Physics of Solids, 96, 572-590
BibTeX
@article{themechanicsofd-2016/1,
title={The mechanics of decompressive craniectomy:Bulging in idealized geometries},
author={Goriely A, Weickenmeier J & Kuhl E},
journal={Journal of the Mechanics and Physics of Solids},
volume={96},
pages={572-590},
publisher={Elsevier},
year = "2016"
}
Suction based mechanical characterization of superficial facial soft tissues.
Weickenmeier J, Jabareen M & Mazza E (2015), Journal of biomechanics, 48(16), 4279-4286
BibTeX
@article{suctionbasedmec-2015/12,
title={Suction based mechanical characterization of superficial facial soft tissues.},
author={Weickenmeier J, Jabareen M & Mazza E},
journal={Journal of biomechanics},
volume={48},
pages={4279-4286},
year = "2015"
}
Elastic-viscoplastic modeling of soft biological tissues using a mixed finite element formulation based on the relative deformation gradient.
Weickenmeier J & Jabareen M (2014), International journal for numerical methods in biomedical engineering, 30(11), 1238-1262
BibTeX
@article{elasticviscopla-2014/11,
title={Elastic-viscoplastic modeling of soft biological tissues using a mixed finite element formulation based on the relative deformation gradient.},
author={Weickenmeier J & Jabareen M},
journal={International journal for numerical methods in biomedical engineering},
volume={30},
pages={1238-1262},
year = "2014"
}
A physically motivated constitutive model for 3D numerical simulation of skeletal muscles.
Weickenmeier J, Itskov M, Mazza E & Jabareen M (2014), International journal for numerical methods in biomedical engineering, 30(5), 545-562
BibTeX
@article{aphysicallymoti-2014/5,
title={A physically motivated constitutive model for 3D numerical simulation of skeletal muscles.},
author={Weickenmeier J, Itskov M, Mazza E & Jabareen M},
journal={International journal for numerical methods in biomedical engineering},
volume={30},
pages={545-562},
year = "2014"
}
Experimental Characterization and Simulation of Layer Interaction in Facial Soft Tissues
Weickenmeier J, Wu R, Lecomte-Grosbras P, Witz J-F, Brieu M et al. (2014), 8789, 233-241
BibTeX
@misc{experimentalcha-2014/,
title={Experimental Characterization and Simulation of Layer Interaction in Facial Soft Tissues},
author={Weickenmeier J, Wu R, Lecomte-Grosbras P, Witz J-F, Brieu M et al.},
year = "2014"
}
A Physics-Informed Deep Learning Deformable Medical Image Registration Method Based on Neural ODEs
Amiri-Hezaveh A, Tan S, Deng Q, Umulis D, Cunniff L et al. (0), International Journal of Computer Vision
BibTeX
@article{aphysicsinforme-/,
title={A Physics-Informed Deep Learning Deformable Medical Image Registration Method Based on Neural ODEs},
author={Amiri-Hezaveh A, Tan S, Deng Q, Umulis D, Cunniff L et al.},
journal={International Journal of Computer Vision},
publisher={Springer Science and Business Media LLC}
}