Publications

Publications
A hyaluronic acid granular hydrogel nerve guidance conduit promotes regeneration and functional recovery of injured sciatic nerves in rats.
Yang J, Hsu C-C, Cao T-T, Ye H, Chen J et al. (2023), Neural regeneration research, 18(3), 657-663
BibTeX
@article{ahyaluronicacid-2023/3,
title={A hyaluronic acid granular hydrogel nerve guidance conduit promotes regeneration and functional recovery of injured sciatic nerves in rats.},
author={Yang J, Hsu C-C, Cao T-T, Ye H, Chen J et al.},
journal={Neural regeneration research},
volume={18},
pages={657-663},
year = "2023"
}
Developments of microfluidics for orthopedic applications: A review
Sun M, Gong J, Cui W, Li C, Yu M et al. (2023), Smart Materials in Medicine, 4, 111-122
Combination of stem cell therapy and acupuncture to treat ischemic stroke: a prospective review
Jia H, He J, Zhao L, Hsu C-C, Zhao X et al. (2022), Stem Cell Research & Therapy, 13(1)
BibTeX
@article{combinationofst-2022/12,
title={Combination of stem cell therapy and acupuncture to treat ischemic stroke: a prospective review},
author={Jia H, He J, Zhao L, Hsu C-C, Zhao X et al.},
journal={Stem Cell Research & Therapy},
volume={13},
number={87},
publisher={Springer Science and Business Media LLC},
year = "2022"
}
Membrane Applications in Autologous Cell Therapy
Martin R, Lei R, Zeng Y, Zhu J, Chang H et al. (2022), Membranes, 12(12), 1182-1182
A versatile embedding medium for freeform bioprinting with multi-crosslinking methods.
Li Q, Jiang Z, Ma L, Yin J, Gao Z et al. (2022), Biofabrication
Validation and scalability of homemade polycaprolactone macro-beads grafted with thermo-responsive poly (N-isopropyl acrylamide) for mesenchymal stem cell expansion and harvesting.
Nguyen LTB, Baudequin T, Cui Z & Ye H (2022), Biotechnology and bioengineering
BibTeX
@article{validationandsc-2022/5,
title={Validation and scalability of homemade polycaprolactone macro-beads grafted with thermo-responsive poly (N-isopropyl acrylamide) for mesenchymal stem cell expansion and harvesting.},
author={Nguyen LTB, Baudequin T, Cui Z & Ye H},
journal={Biotechnology and bioengineering},
year = "2022"
}
PHYSICAL AND BIOLOGICAL CHARACTERISATION OF MECHANICALLY AND STRUCTURALLY MIMETIC SMALL CALIBRE VASCULAR SCAFFOLDS
Martin R, Mouthuy P-A, Waters S & Ye H (2022), TISSUE ENGINEERING PART A, 28, S62-S62
BibTeX
@inproceedings{physicalandbiol-2022/4,
title={PHYSICAL AND BIOLOGICAL CHARACTERISATION OF MECHANICALLY AND STRUCTURALLY MIMETIC SMALL CALIBRE VASCULAR SCAFFOLDS},
author={Martin R, Mouthuy P-A, Waters S & Ye H},
pages={S62-S62},
year = "2022"
}
ELECTROSPUN FIBRES WITH HYALURONIC ACID-CHITOSAN NANOPARTICLES PRODUCED BY A PORTABLE DEVICE
Fuenteslopez CV & Ye H (2022), TISSUE ENGINEERING PART A, 28, S122-S122
BibTeX
@inproceedings{electrospunfibr-2022/4,
title={ELECTROSPUN FIBRES WITH HYALURONIC ACID-CHITOSAN NANOPARTICLES PRODUCED BY A PORTABLE DEVICE},
author={Fuenteslopez CV & Ye H},
pages={S122-S122},
year = "2022"
}
DEVELOPMENT OF A TISSUE REGENERATIVE SCAFFOLD PLATFORM TECHNOLOGY
Bahcevanci S, Hathaway H, de la Rosa VR, Aksakal S, Dye J et al. (2022), TISSUE ENGINEERING PART A, 28, S429-S429
BibTeX
@inproceedings{developmentofat-2022/4,
title={DEVELOPMENT OF A TISSUE REGENERATIVE SCAFFOLD PLATFORM TECHNOLOGY},
author={Bahcevanci S, Hathaway H, de la Rosa VR, Aksakal S, Dye J et al.},
pages={S429-S429},
year = "2022"
}
Increased connectivity of hiPSC-derived neural networks in multiphase granular hydrogel scaffolds.
Hsu C-C, George JH, Waller S, Besnard C, Nagel DA et al. (2022), Bioactive materials, 9, 358-372
Reprogramming Synthetic Cells for Targeted Cancer Therapy.
Lim B, Yin Y, Ye H, Cui Z, Papachristodoulou A et al. (2022), ACS synthetic biology
Voltage-driven alterations to neuron viscoelasticity
Kayal C, Tamayo-Elizalde M, Adam C, Ye H & Jerusalem A (2022), Bioelectricity, 4(1), 31-38
EXPLORING SEEDING METHODS TO EVENLY DISTRIBUTE CELLS IN A 3D ELECTROSPUN SCAFFOLD
Dvorak N, Savic L, Waters SL, Ye H, Carr A et al. (2022), TISSUE ENGINEERING PART A, 28, S366-S366
BibTeX
@misc{exploringseedin-2022/,
title={EXPLORING SEEDING METHODS TO EVENLY DISTRIBUTE CELLS IN A 3D ELECTROSPUN SCAFFOLD},
author={Dvorak N, Savic L, Waters SL, Ye H, Carr A et al.},
year = "2022"
}
Development of an in vitro microvasculature model for non-penetrating trauma research
Fuenteslopez CV, Ye H & Thompson M (2022), TISSUE ENGINEERING PART A, 28, 202-202
BibTeX
@inproceedings{developmentofan-2022/,
title={Development of an in vitro microvasculature model for non-penetrating trauma research},
author={Fuenteslopez CV, Ye H & Thompson M},
pages={202-202},
year = "2022"
}
Single cell electrophysiological alterations under dynamic loading at ultrasonic frequencies
Tamayo-Elizalde M, Kayal C, Ye H & Jerusalem A (2021), Brain Multiphysics, 2