Refereed Journal Articles, Proceedings & Book chapters
[28] Multimodal characterization of cortical neuron response to permanent magnetic field induced nanomagnetic force map. C. L. Beck, A. M. Kirby, S. Roberts, and A. Kunze, ACS Nano 2024, 18, 51, 34630–34645 2024, [DOI link]
[27] Parallelized mechanical stimulation of neuronal calcium through cell-internal nanomagnetic forces provokes lasting shifts in the network activity state. C. L. Beck, and A. Kunze, Small, 2024, [DOI link]
[26] Nanomagnetic guidance shapes the structure–function relationship of developing cortical networks. C. L. Beck, C. T. Killeen, S. C. Johnson, and A. Kunze, Nano Lett. 2024, 24, 43, 13564–13573, 2024, [DOI link]
[25] Antiviral responses in a Jamaican fruit bat intestinal organoid model of SARS-CoV-2 infection., M. Hashimi, T. A. Sebrell, J. F. Hedges, D. Snyder, K. N. Lyon, S. D. Byrum, S. G. Mackintosh, D. Crowley, M. D. Cherne, D. Skwarchuk, A. Robison, B. Sidar, A. Kunze, E. K. Loveday, M. P. Taylor, C. B. Chang, J. N. Wilking, S. T. Walk, T. Schountz, M. A. Jutila, and D. Bimczok, Nat Commun, 14, 6882, 2023, [DOI link].
[24] Archetypal Analysis for Neuronal Clique Detection in Low Rate Calcium Fluorometry., C.L. Beck, A. Kunze, and D. P. Zosso, In: Proceedings of the 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC), July 11-15, 2022, Scottish Event Campus, Glasgow, UK 2022, [link].
[23] Biomechanical modulation of calcium event rates in soft matter neuro patterns. C.L. Beck, H. Khan, and A. Kunze, In: Proceedings of the 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, October 10 - 14, 2021, p. 1355 - 1356.
[22] Unraveling selective signals of neurodegeneration with neurofluidic devices. Z. Malkoc, and A. Kunze, In: Proceedings of the 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, October 10 - 14, 2021, p. 705 - 706.
[21] Multi-curvature micropatterns unveil distinct calcium and mitochondrial dynamics in neuronal networks. H. Khan, C.L. Beck, and A. Kunze, Lab on a Chip, 21, 2021, p. 1164 - 1174. https://doi.org/10.1039/D0LC01205J
[20] Sequestering extracellular vesicle profiles in neurofluidics. Z. Malkoc, S. E, McCalla, and A. Kunze, In: Proceedings of the 24th International Conference on Miniaturized Systems for Chemistry and Life Sciences, October 4 - 9, 2020, p. 863 - 864. [link to pdf]
[19] Low-cost calcium fluorometry for long-term nanoparticle studies in living cells. C. L. Beck, C. J. Hickman, and A. Kunze, Sci. Reports, 10:12568, 2020, p. 1-11. [link] [pdf]
[18] Neural network growth under heterogenous magnetic gradient patterns. D. Judge and A. Kunze, In: Proceedings of the 9th Int’l IEEE EMBS Conf. on Neural Engineering, San Francisco, California, USA, 2019, p.191 - 194. [link]
[17] Force-Mediating Magnetic Nanoparticles to Engineer Neuronal Cell Function , T. Gahl and A. Kunze, Front. Neurosci. 12:299, 2018, p. 1-16. [link]
[16] Modulating motility of intracellular vesicles in cortical neurons with nanomagnetic forces on-chip, A. Kunze, C. Murray , C. Godzich , J. Lin , K. Owsley , A. Tay and D. Di Carlo, Lab Chip 17(5), 2017, p. 842-854. [link]
Prior to Montana State University
[15] The Age of Cortical Neural Networks Affects their Interactions with Nanoparticles, A. Tay, A. Kunze, D. Jun, E. Hoek and D. Di Carlo, Small 12(26), 2016, p. 3559-3567. [link]
[14] Induction of Calcium Influx in Cortical Neural Networks by Nanomagnetic Forces, A. Tay*, A. Kunze*, C. Murray, and D. Di Carlo
ACS Nano 10(2), 2016, p. 2331-2341. *equally contributed [link]
ACS Nano 10(2), 2016, p. 2331-2341. *equally contributed [link]
[13] Compartmentalized Microfluidics for In Vitro Alzheimer’s Disease Studies, Yufei Ren, A. Kunze and Ph. Renaud , in Microfluidic and Compartmentalized Platforms for Neurobiological Research, Springer New York: 2015; Vol. 103, pp 197-215. [link]
[12] Engineering cortical neuron polarity with nanomagnets on a chip, A. Kunze, P. Tseng, C. Godzich, C. Murray, A. Caputo, F. E. Schweizer and D. Di Carlo, ACS Nano 9(4), 2015, p. 3664-3676. [link]
[11] Research highlights: cell separation at the bench and beyond, A. Kunze, J. Che, A. Karimi, D. Di Carlo, Lab on a Chip 15, 2015, p. 605-609. [link]
[10] Flexible and stretchable micromagnet arrays for tunable biointerfacing, P. Tseng, J. Lin, K. Owsley, J. Kong, A. Kunze, C. Murray, and D. Di Carlo, Advanced Materials 27(6), 2015, p. 1083–1089. [link]
[9] Research highlights: measuring and manipulating cell migration, A. Kunze, I. Pushkarsky, H.
Kittur and D. Di Carlo, Lab on a Chip 14(21), 2014, p. 4117-4121. [link]
[8] Research highlights: microtechnologies for engineering the cellular environment, P. Tseng, A. Kunze, H. Kittur and D. Di Carlo Lab on a Chip 14(7), 2014, p. 1226-1229. [link]
[7] Review article: Advances in High-Throughput Single-Cell Microtechnologies, W. M. Weaver, P. Tseng, A. Kunze, M. Masaeli, A. Chung, J. S. Dudani, H. Kittur, R. P. Kulkarni and D. Di Carlo, Curr. Op. in Biotechn. 25, 2014, p. 114–123. [link]
[6] Astrocyte
neuron co-culture on microchips based on the model of SOD mutation to mimic ALS, A. Kunze, S. Lengacher, E. Dirren, P.
Aebischer, P. J. Magistretti, Ph. Renaud, Integr. Biol. 5(7), 2013, p. 964-975. [link] [pdf request]
[5] Synergistic NGF/B27 gradients position synapses heterogeneously in 3D micropatterned neural cultures, A. Kunze, A. Valero, D. P. Zosso and Ph. Renaud, PLoS ONE 6(10): e26187. 2011 [link] [pdf]
[4] Co-pathological connected primary neurons in a microfluidic device for Alzheimer studies. A. Kunze*, R. Meissner*, S. Brando and Ph. Renaud, Biotechnology and Bioengineering 108(9), 2011, p. 2241-2245. *equally contributed, [link] [pdf request]
[3] Micropatterning neural cell cultures in 3D with a multi-layered scaffold. A. Kunze, M. Giugliano, A. Valero and Ph. Renaud, Biomaterials 8 (32) 2011, p. 2088-2098. [link] [pdf request]
[2] A
virtual valve for smooth contamination-free flow switching. T.
Braschler, J. Theytaz, R. Zvitov-Marabi, H. van Lintel, G. Loche,
A. Kunze, N. Demierre, R. Tornay, M.
Schlund and Ph. Renaud, Lab Chip 9 (7) 2007, p. 1111-1113. [link]
[1] Influence
of solvent viscosity on surface graft-polymerization. P.
Farquet, A. Kunze, C. Padeste, H. H.
Solak, S. A. Gürsel, G. G. Scherer and A. Wokaun, Polymer 48 (17) 2007,
p. 4936-4942. [link]
(c) 2007 - 2025 Kunze Lab