Showing 35 publications by Johannes Weickenmeier
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-2023/9,
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 (RSC)},
year = "2023"
}
A multiphysics model to predict periventricular white matter hyperintensity growth during healthy brain aging.
Ca??oilo A, Dortdivanlioglu B, Rusinek H & Weickenmeier J (2023), Brain multiphysics, 5, 100072
BibTeX
@article{amultiphysicsmo-2023/5,
title={A multiphysics model to predict periventricular white matter hyperintensity growth during healthy brain aging.},
author={Ca??oilo A, Dortdivanlioglu B, Rusinek H & Weickenmeier J},
journal={Brain multiphysics},
volume={5},
number={100072},
pages={100072},
publisher={Elsevier BV},
year = "2023"
}
Mechanical loading of the ventricular wall as a spatial indicator for periventricular white matter degeneration.
Visser VL, Ca??oilo A, Rusinek H & Weickenmeier J (2023), Journal of the mechanical behavior of biomedical materials, 143, 105921
BibTeX
@article{mechanicalloadi-2023/5,
title={Mechanical loading of the ventricular wall as a spatial indicator for periventricular white matter degeneration.},
author={Visser VL, Ca??oilo A, Rusinek H & Weickenmeier J},
journal={Journal of the mechanical behavior of biomedical materials},
volume={143},
number={105921},
pages={105921},
publisher={Elsevier BV},
year = "2023"
}
Exploring the multiphysics of the brain during development, aging, and in neurological diseases.
Weickenmeier J (2023), Brain multiphysics, 4, 100068
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},
pages={100068},
publisher={Elsevier BV},
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.
Ca??oilo 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={Ca??oilo A, Rusinek H & Weickenmeier J},
journal={Engineering with computers},
volume={38},
pages={3939-3955},
publisher={Springer Science and Business Media LLC},
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), 21956
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},
pages={21956},
publisher={Springer Science and Business Media LLC},
year = "2021"
}
Brain aging mechanisms with mechanical manifestations.
Blinkouskaya Y, Ca??oilo A, Gollamudi T, Jalalian S & Weickenmeier J (2021), Mechanisms of ageing and development, 200, 111575
BibTeX
@article{brainagingmecha-2021/10,
title={Brain aging mechanisms with mechanical manifestations.},
author={Blinkouskaya Y, Ca??oilo A, Gollamudi T, Jalalian S & Weickenmeier J},
journal={Mechanisms of ageing and development},
volume={200},
number={111575},
pages={111575},
publisher={Elsevier BV},
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, 705653
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},
pages={705653},
publisher={Frontiers Media SA},
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, 100023
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},
pages={100023},
publisher={Elsevier BV},
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
Sch??fer 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={Sch??fer 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 R??v??rend 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 R??v??rend 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"
}