John Frampton
Cited by
Cited by
Fabrication and optimization of alginate hydrogel constructs for use in 3D neural cell culture
JP Frampton, MR Hynd, ML Shuler, W Shain
Biomedical materials 6 (1), 015002, 2011
Rapid generation of multiplexed cell cocultures using acoustic droplet ejection followed by aqueous two-phase exclusion patterning
Y Fang, JP Frampton, S Raghavan, R Sabahi-Kaviani, G Luker, CX Deng, ...
Tissue Engineering Part C: Methods 18 (9), 647-657, 2012
Directed cell growth on protein-functionalized hydrogel surfaces
MR Hynd, JP Frampton, N Dowell-Mesfin, JN Turner, W Shain
Journal of neuroscience methods 162 (1-2), 255-263, 2007
Emerging biotechnology applications of aqueous two‐phase systems
AG Teixeira, R Agarwal, KR Ko, J Grant‐Burt, BM Leung, JP Frampton
Advanced healthcare materials 7 (6), 1701036, 2018
Aqueous two-phase system patterning of detection antibody solutions for cross-reaction-free multiplex ELISA
JP Frampton, JB White, AB Simon, M Tsuei, S Paczesny, S Takayama
Scientific reports 4 (1), 4878, 2014
Rounded multi-level microchannels with orifices made in one exposure enable aqueous two-phase system droplet microfluidics
D Lai, JP Frampton, H Sriram, S Takayama
Lab on a Chip 11 (20), 3551-3554, 2011
Effects of Glial Cells on Electrode Impedance Recorded from Neural Prosthetic Devices In Vitro
JP Frampton, MR Hynd, ML Shuler, W Shain
Annals of biomedical engineering 38, 1031-1047, 2010
Precisely targeted delivery of cells and biomolecules within microchannels using aqueous two-phase systems
JP Frampton, D Lai, H Sriram, S Takayama
Biomedical microdevices 13, 1043-1051, 2011
Three-dimensional hydrogel cultures for modeling changes in tissue impedance around microfabricated neural probes
JP Frampton, MR Hynd, JC Williams, ML Shuler, W Shain
Journal of neural engineering 4 (4), 399, 2007
Templated assembly of collagen fibers directs cell growth in 2D and 3D
GY Liu, R Agarwal, KR Ko, M Ruthven, HT Sarhan, JP Frampton
Scientific reports 7 (1), 9628, 2017
Cell co-culture patterning using aqueous two-phase systems
JP Frampton, JB White, AT Abraham, S Takayama
JoVE (Journal of Visualized Experiments), e50304, 2013
Functionalized hydrogel surfaces for the patterning of multiple biomolecules
MR Hynd, JP Frampton, MR Burnham, DL Martin, NM Dowell‐Mesfin, ...
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2007
Biopatterning of keratinocytes in aqueous two-phase systems as a potential tool for skin tissue engineering
R Agarwal, KR Ko, PF Gratzer, JP Frampton
MRS Advances 2, 2443-2449, 2017
Developments in 3D neural cell culture models: the future of neurotherapeutics testing?
KR Ko, JP Frampton
Expert Review of Neurotherapeutics 16 (7), 739-741, 2016
Microfluidic systems: A new toolbox for pluripotent stem cells
SC Lesher‐Perez, JP Frampton, S Takayama
Biotechnology journal 8 (2), 180-191, 2013
Inflammation-induced miRNA-155 inhibits self-renewal of neural stem cells via suppression of CCAAT/enhancer binding protein β (C/EBPβ) expression
K Obora, Y Onodera, T Takehara, J Frampton, J Hasei, T Ozaki, ...
Scientific reports 7 (1), 43604, 2017
Rapid Self‐Assembly of Macroscale Tissue Constructs at Biphasic Aqueous Interfaces
JP Frampton, BM Leung, EL Bingham, SC Lesher‐Perez, JD Wang, ...
Advanced Functional Materials 25 (11), 1694-1699, 2015
Aqueous two-phase systems enable multiplexing of homogeneous immunoassays
AB Simon, JP Frampton, NT Huang, K Kurabayashi, S Paczesny, ...
Technology 2 (02), 176-184, 2014
Localized micro‐scale disruption of cells using laser‐generated focused ultrasound
HW Baac, J Frampton, JG Ok, S Takayama, LJ Guo
Journal of Biophotonics 6 (11‐12), 905-910, 2013
Aqueous two‐phase system‐mediated antibody micropatterning enables multiplexed immunostaining of cell monolayers and tissues
JP Frampton, M Tsuei, JB White, AT Abraham, S Takayama
Biotechnology journal 10 (1), 121-125, 2015
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