Jia, L., M. Chopp, L. Wang, X. Lu, Y. Zhang, A. Szalad and Z. G. Zhang, 2018. MiR-34a Regulates Axonal Growth of Dorsal Root Ganglia Neurons by Targeting FOXP2 and VAT1 in Postnatal and Adult Mouse. Mol Neurobiol 55(12): 9089-9099. https://doi.org/10.1007/s12035-018-1047-3

Jocher, G., S. H. Mannschatz, M. Offterdinger and R. Schweigreiter, 2018. Microfluidics of Small-Population Neurons Allows for a Precise Quantification of the Peripheral Axonal Growth State. Front Cell Neurosci 12: 166. * uses TCND500 silicone devices with mouse sensory DRG and trigeminal neurons.  https://pubmed.ncbi.nlm.nih.gov/29962939/
Tags: DRG, Matrigel, mouse, protocol, sensory neurons, TCND500, trigeminal

Jia, L., M. Chopp, L. Wang, X. Lu, A. Szalad and Z. G. Zhang, 2018. Exosomes derived from high-glucose-stimulated Schwann cells promote development of diabetic peripheral neuropathy. Faseb j 32(12): fj201800597R. https://doi.org/10.1096/fj.201800597r

Van Laar, V. S., B. Arnold, E. H. Howlett, M. J. Calderon, C. M. St Croix, J. T. Greenamyre, L. H. Sanders and S. B. Berman, 2018. Evidence for Compartmentalized Axonal Mitochondrial Biogenesis: Mitochondrial DNA Replication Increases in Distal Axons As an Early Response to Parkinson's Disease-Relevant Stress. J Neurosci 38(34): 7505-7515. https://doi.org/10.1523/jneurosci.0541-18.2018
Tags: cortical neurons, rat, SND450, SND900

Nagendran, T., V. Poole, J. Harris and A. M. Taylor, 2018. Use of Pre-Assembled Plastic Microfluidic Chips for Compartmentalizing Primary Murine Neurons. Journal of visualized experiments : JoVE(141). * uses XC150, XC450, XC900 XonaChips with rat hippocampal neurons.  https://dx.doi.org/10.3791/58421
Tags: hippocampal neurons, mouse, protocol, rat, XC150, XC450, XC900, Xona author

Nijssen, J., Aguila, J., Hoogstraaten, R., Kee, N., Hedlund, E., 2018. Axon-Seq Decodes the Motor Axon Transcriptome and Its Modulation in Response to ALS. Stem Cell Reports 11, 1565-1578. * uses SND150 silicone devices with human motor neurons.  https://www.cell.com/stem-cell-reports/fulltext/S2213-6711(18)30473-9
Tags: ALS, human, motor neurons, SND150

Naumann, M., Pal, A., Goswami, A., Lojewski, X., Japtok, J., Vehlow, A., Naujock, M., Günther, R., Jin, M., Stanslowsky, N., Reinhardt, P., Sterneckert, J., Frickenhaus, M., Pan-Montojo, F., Storkebaum, E., Poser, I., Freischmidt, A., Weishaupt, J.H., Holzmann, K., Troost, D., Ludolph, A.C., Boeckers, T.M., Liebau, S., Petri, S., Cordes, N., Hyman, A.A., Wegner, F., Grill, S.W., Weis, J., Storch, A., Hermann, A., 2018. Impaired DNA damage response signaling by FUS-NLS mutations leads to neurodegeneration and FUS aggregate formation. Nature Communications 9, 335. * uses Xona’s Silicone Devices (RD900) with human iPSC-differentiated motor neurons https://doi.org/10.1038/s41467-017-02299-1
Tags: hiPSC-derived motor neurons, human, RD900

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