References
- Baily, J. S. (1972). Adaptation to prisms: Do proprioceptive changes mediate adapted behaviour with ballistic arm movements?. Quarterly Journal of Experimental Psychology A, 24(1), 8–20. doi: 10.1080/14640747208400261
- Barkley, V., Salomonczyk, D., Cressman, E. K., & Henriques, D. Y. P. (2014). Reach adaptation and proprioceptive recalibration following terminal visual feedback of the hand. Frontiers in Human Neuroscience, 8, 705.
- Bernier, P.-M., Burle, B., Vidal, F., Hasbroucq, T., & Blouin, J. (2009). Direct evidence for cortical suppression afferents during visuomotor adaptation. Cerebral Cortex, 19(9), 2106–2113. doi: 10.1093/cercor/bhn233
- Bernier, P. M., Chua, R., & Franks, I. M. (2005). Is proprioception calibrated during visually guided movements?. Experimental Brain Research, 167(2), 292–296. doi: 10.1007/s00221-005-0063-5
- Chapman, C. E., Bushnell, M. C., Miron, D., Duncan, G. H., & Lund, J. P. (1987). Sensory perception during movement in man. Experimental Brain Research, 68(3), 516–524.
- Cressman, E. K., & Henriques, D. Y. P. (2009). Sensory recalibration of hand position following visuomotor adaptation. Journal of Neurophysiology, 102(6), 3505–3518. doi: 10.1152/jn.00514.2009
- Cressman, E. K., & Henriques, D. Y. P. (2010). Reach adaptation and proprioceptive recalibration following exposure to misaligned sensory input. Journal of Neurophysiology, 103(4), 1888–1895. doi: 10.1152/jn.01002.2009
- Cressman, E. K., & Henriques, D. Y. P. (2015). Generalization patterns for reach adaptation and proprioceptive recalibration differ after visuomotor learning. Journal of Neurophysiology, 114(1), 354–365. doi: 10.1152/jn.00415.2014
- Cressman, E. K., Salomonczyk, D., & Henriques, D. Y. P. (2010). Visuomotor adaptation and proprioceptive recalibration in older adults. Experimental Brain Research, 205(4), 533–544. doi: 10.1007/s00221-010-2392-2
- Elliott, D., Hansen, S., Grierson, L. E., Lyons, J., Bennett, S. J., & Hayes, S. J. (2010). Goal-directed aiming: Two components but multiple processes. Psychological Bulletin, 136(6), 1023–1044.
- Izawa, J., & Shadmehr, R. (2011). Learning from sensory and reward prediction errors during motor adaptation. PLOS Computational Biology, 7, 1–11.
- Jones, K. E., Wessberg, J., & Vallbo, A. (2001). Proprioceptive feedback is reduced during adaptation to a visuomotor transformation: Preliminary findings. Neuroreport, 12(18), 4029–4033. doi: 10.1097/00001756-200112210-00035
- Kesten, H. (1958). Accelerated stochastic approximation. Annals of Mathematical Statistics, 29(1), 41–59. doi: 10.1214/aoms/1177706705
- Kitazawa, S., Kimura, T., & Uka, T. (1997). Prism adaptation of reaching movements: Specificity for the velocity of reaching. Journal of Neuroscience, 17(4), 1481–1492.
- Krakauer, J. W., Ghilardi, M. F., & Ghez, C. (1999). Independent learning of internal models for kinematic and dynamic control of reaching. Nature Neuroscience, 2, 026–1031.
- Mostafa, A. A., Kamran-Disfani, R., Bahari-Kashani, G., Cressman, E. K., & Henriques, D. Y. P. (2015). Generalization of reach adaptation and proprioceptive recalibration at different distances in the workspace. Experimental Brain Research, 233(3), 817–827. doi: 10.1007/s00221-014-4157-9
- Oldfield, R. C. (1971). The assessment and analysis of handedness: The Edinburgh inventory. Neuropsychologia, 9(1), 97–113.
- Prochazka, A. (1989). Sensorimotor gain control: A basic strategy of motor systems. Progress in Neurobiology, 33(4), 281–307.
- Salomonczyk, D., Cressman, E. K., & Henriques, D. Y. P. (2011). Proprioceptive recalibration following prolonged training and increasing distortions in visuomotor adaptation. Neuropsychologia, 49(11), 3053–3062. doi: 10.1016/j.neuropsychologia.2011.07.006
- Salomonczyk, D., Cressman, E. K., & Henriques, D. Y. P. (2013). The role of the cross-sensory error signal in visuomotor adaptation. Experimental Brain Research, 228(3), 313–325.
- Starr, A., & Cohen, L. G. (1985). 'Gating' of somatosensory evoked potentials beings before the onset of voluntary movement in man. Brain Research, 25, 183–186. doi: 10.1016/0006-8993(85)90377-4
- Taylor, J. A., Krakauer, J. W., & Ivry, R. B. (2014). Explicit and implicit contributions to learning in a sensorimotor adaptation task. Journal of Neuroscience, 34(8), 3023–3032.
- Treutwein, B. (1995). Adaptive psychophysical procedures. Vision Research, 35(17), 2503–2522.
- Tseng, Y.-W., Diedrichsen, J., Krakauer, J. W., Shadmehr, R., & Bastian, A. J. (2007). Sensory prediction errors drive cerebellum-dependent adaptation of reaching. Journal of Neurophysiology, 98(1), 54–62. doi: 10.1152/jn.00266.2007
- Wolpert, D. M., Ghahramani, Z., & Jordan, M. I. (1995). An internal model for sensorimotor integration. Science, 269(5232), 1880–1882. doi: 10.1126/science.7569931
- Wong, A. L., & Shelhamer, M. (2011). Sensorimotor adaptation error signals are derived from realistic predictions of movement outcomes. Journal of Neurophysiology, 105(3), 1130–1140. doi: 10.1152/jn.00394.2010
- Zbib, B., Henriques, D. Y. P., & Cressman, E. K. (2016). Proprioceptive recalibration arises slowly compared to reach adaptation. Experimental Brain Research, 234(8), 2201–2213. doi: 10.1007/s00221-016-4624-6