Kandhavivorn, W.; Glaß, H.; Herrmannsdörfer, T.; Böckers, T.M.; Uhlarz, M.; Gronemann, J.; Funk, R.H.W.; Pietzsch, J.; Pal, A.; Hermann, A.
Restoring Axonal Organelle Motility and Regeneration in Cultured FUS-ALS Motoneurons through Magnetic Field Stimulation Suggests an Alternative Therapeutic Approach. Cells 2023, 12, 1502.
https://doi.org/10.3390/cells12111502
AMA Style
Kandhavivorn W, Glaß H, Herrmannsdörfer T, Böckers TM, Uhlarz M, Gronemann J, Funk RHW, Pietzsch J, Pal A, Hermann A.
Restoring Axonal Organelle Motility and Regeneration in Cultured FUS-ALS Motoneurons through Magnetic Field Stimulation Suggests an Alternative Therapeutic Approach. Cells. 2023; 12(11):1502.
https://doi.org/10.3390/cells12111502
Chicago/Turabian Style
Kandhavivorn, Wonphorn, Hannes Glaß, Thomas Herrmannsdörfer, Tobias M. Böckers, Marc Uhlarz, Jonas Gronemann, Richard H. W. Funk, Jens Pietzsch, Arun Pal, and Andreas Hermann.
2023. "Restoring Axonal Organelle Motility and Regeneration in Cultured FUS-ALS Motoneurons through Magnetic Field Stimulation Suggests an Alternative Therapeutic Approach" Cells 12, no. 11: 1502.
https://doi.org/10.3390/cells12111502
APA Style
Kandhavivorn, W., Glaß, H., Herrmannsdörfer, T., Böckers, T. M., Uhlarz, M., Gronemann, J., Funk, R. H. W., Pietzsch, J., Pal, A., & Hermann, A.
(2023). Restoring Axonal Organelle Motility and Regeneration in Cultured FUS-ALS Motoneurons through Magnetic Field Stimulation Suggests an Alternative Therapeutic Approach. Cells, 12(11), 1502.
https://doi.org/10.3390/cells12111502
