Upcoming
D’Amario S, Ruttle JE, ’t Hart BM, Henriques DYP. Implicit Adaptation is Fast, Robust and Independent from Explicit Adaptation. Preprint, 2024, doi: 10.1101/2024.04.10.588930 [PDF, bioRxiv]
Modchalingam S, King A, ’t Hart BM, Henriques DYP. Motor adaptation to environment changes predicting interactable object behaviour can be flexible and implicit. Preprint, 2024, doi: 10.1101/2024.02.06.579172 [bioRxiv]
Articles published in refereed journals
’t Hart BM, Taqvi U, Gastrock RQ, Ruttle JE, Modchalingam S, Henriques DYP. Measures of Implicit and Explicit Adaptation Do Not Linearly Add. eNeuro, 2024, doi: [bioRxiv; Web; PDF]
Clayton HA, Abbas S, ’t Hart BM, Henriques DYP. Visuomotor adaptation across the lifespan. PLOS One, 2024, doi: 10.1371/journal.pone.0306276 [Web]
Gastrock RQ, ’t Hart BM, Henriques DYP. Distinct learning, retention, and generalization patterns in de novo learning versus motor adaptation. Sci Rep, 2024, doi: 10.1038/s41598-024-59445-1 [Web; bioRxiv]
Modchalingam S, Ayala MN, Henriques DYP. Movement-goal relevant object shape properties act as poor but viable cues for the attribution of motor errors to external objects. PLOS One, 2024, doi: 10.1371/journal.pone.0300020 [Web; bioRxiv]
Bansal A, ’t Hart BM, Chauhan U, Eggert T, Straube A, Henriques DYP. Motor adaptation does not differ when a perturbation is introduced abruptly or gradually. Exp Brain Res, 2023, doi: 10.1007/s00221-023-06699-2 [Web; bioRxiv]
Modchalingam S, Ciccone M, D’Amario S, ’t Hart BM, Henriques DYP. Adapting to visuomotor rotations in stepped increments increases implicit motor learning. Sci Rep, 2023, doi: 10.1038/s41598-023-32068-8 [Web; PDF; biorxiv]
Ruttle JE, ’t Hart BM, Henriques DYP. Reduced feedback barely slows down proprioceptive recalibration. J Neurophys, 2022, doi: 10.1152/jn.00082.2022 [Web; PDF; bioRxiv]
Gabriel GA, Harris LR, Henriques DYP, Pandi M, Campos JL. Multisensory visual-vestibular training improves visual heading estimation in younger and older adults. Front Aging Neurosci, 2022, doi: 10.3389/fnagi.2022.816512 [Web; PDF]
Albert ST, Jang J, Modchalingam S, ’t Hart M, Henriques D, Lerner G, Della-Maggiore V, Haith AM, Krakauer JW, Shadmehr R. Competition between parallel sensorimotor learning systems. eLife, 2022. doi: 10.7554/eLife.65361 [bioRxiv; Web; PDF]
’t Hart BM, Henriques, DYP, Cavanagh, P. Measuring the double-drift illusion and its resets with hand trajectories. J Vis, 2022. doi: 10.1167/jov.22.2.16 [bioRxiv; Web; PDF]
Clayton HA, ’t Hart BM, Henriques, DYP. Sensing hand position in Ehlers-Danlos syndrome. Somatosens Mot Res, 2021. doi: 10.1080/08990220.2021.1973403 [Web, bioRxiv, PDF]
Ayala MN, Henriques DYP. Differential contributions of implicit and explicit learning mechanisms to various contextual cues in dual adaptation. PLOS ONE, 2021. doi: 10.1371/journal.pone.0253948 [Web; PDF; PsyArXiv]
Cressman EK, Salomonczyk D, Constantin A, Miyasaki J, Moro E, Chen R, Strafella A, Fox S, Lang AE, Poizner H, Henriques DYP. Proprioceptive recalibration following implicit visuomotor adaptation is preserved in Parkinson’s disease. Exp Brain Res, 2021. doi: 10.1007/s00221-021-06075-y [Web; PDF]
Eggert T, Henriques DYP, ’t Hart BM, Straube A. Modeling inter-trial variability of pointing movements during visuomotor adaptation. Biol Cybern, 2021. doi: 10.1007/s00422-021-00858-w [Web; PDF]
Ruttle JE, ’t Hart BM, Henriques, DYP. Implicit motor learning within three trials. Sci Rep, 2021. doi: 10.1038/s41598-021-81031-y [Web; PDF; bioRxiv]
Gastrock RQ, Modchalingam S, ’t Hart BM, Henriques DYP. External error attribution dampens efferent-based predictions but not proprioceptive changes in hand localization. Sci Rep, 2020. doi: 10.1038/s41598-020-76940-3 [Web; PDF; bioRxiv]
Vachon CM, Modchalingam S, ’t Hart BM, Henriques DYP. The effect of age on visuomotor learning processes. PLOS ONE, 2020. doi: 10.1371/journal.pone.0239032 [PDF; Web]
Mostafa AA, ’t Hart BM, Henriques DYP. Motor Learning Without Moving: Proprioceptive and Predictive Hand Localization After Passive Visuoproprioceptive Discrepancy Training. PLoS One, 2019. doi: 10.1371/journal.pone.0221861 [PDF; bioRxiv; Web]
Modchalingam S, Vachon C, ’t Hart BM, Henriques DYP. The effects of awareness of the perturbation during motor adaptation on hand localization. PLoS One, 2019. doi: 10.1371/journal.pone.0220884 [PDF; PsyArXiv; Web]
Ruttle JE,’t Hart BM, Henriques D.Y. (2018). The fast contribution of visual-proprioceptive discrepancy to reach aftereffects and proprioceptive recalibration. PLoS One, 13(7):e0200621. doi: 10.1371/journal.pone.0200621 [Web; PDF]
Ayala, M., Henriques, D.Y.P. (2018). Context-dependent concurrent adaptation to static and moving targets. PLoS One, 13(2):e0168825. doi: 10.1371/journal.pone.0192476. [Web; PDF]
’t Hart, B.M., Henriques, D.Y.P. (2016). Separating predicted and perceived sensory consequences of motor learning. PLoS ONE, 11(9): e0163556. doi: 10.1371/journal.pone.0163556 [Web, PDF]
Ruttle, J.E., Cressman, E.K., ’t Hart, B.M., Henriques, D.Y. (2016) Time Course of Reach Adaptation and Proprioceptive Recalibration during Visuomotor Learning. PLoS ONE, 11(10): e0163695. doi: 10.1371/journal.pone.0163695 [Web; PDF]
Zbib, B., Henriques, D.Y.P., Cressman, E.K. (2016) Proprioceptive recalibration arises slowly compared to reach adaptation. Exp Brain Res. doi: 10.1007/s00221-016-4624-6 [PDF]
Ayala, M., ‘t Hart, B.M., Henriques, D.Y.P. (2015) Concurrent adaptation to opposing visuomotor rotations by varying hand and body postures. Exp Brain Res. 233, 3433-45. doi: 10.1007/s00221-015-4411-9 [PDF; Web]
Leone, F.T., Monaco, S., Henriques, D.Y., Toni, I., Medendorp, W.P. (2015) Flexible reference frames for grasp planning in human parietofrontal cortex. eNeuro, 2(3) DOI: 10.1523/ENEURO.0008-15. [PDF]
Clayton, H.A., Jones, S.A.H., Henriques, D.Y.P. (2015) Proprioceptive precision is impaired in Ehlers-Danlos Syndrome. SpringerPlus, 4: 323-330. doi: 10.1186/s40064-015-1089-1 [PDF; Web]
Cressman, E.K., Henriques, D.Y.P. (2015) Generalization patterns for reach adaptation and proprioceptive recalibration differ after visuomotor learning. J Neurophysiology; 114(1):354-65. [PDF]
Schutz, I., Henriques, D.Y., Fiehler, K. (2015) No effect of delay on the spatial representation of serial reach targets. Exp Brain Res. [PDF]
Nourouzpour, N., Salomonczyk, D., Cressman, E.K., Henriques, D.Y. (2014) Retention of proprioceptive recalibration following visuomotor adaptation. Exp Brain Res. [PDF]
Mostafa, A.A., Kamran-Disfani, R., Bahari-Kashani, G., Cressman, E.K., Henriques, D.Y.P. (2014) Generalization of reach adaptation and proprioceptive recalibration at different distances in the workspace. Exp Brain Res. [PDF]
Henriques, D.Y.P., Filippopulos, F., Straube, A., Eggert, T. (2014) The cerebellum is not necessary for visually driven recalibration of hand proprioception. Neuropsychologia, 64: 195–204. [PDF]
Barkley, V., Salomonczyk, D., Cressman, E.K., Henriques, D.Y. (2014) Reach adaptation and proprioceptive recalibration following terminal visual feedback of the hand. Front Hum Neurosci. [PDF]
Chen, Y., Monaco, S., Byrne, P., Yan, X., Henriques, D.Y., Crawford, J.D. (2014) Allocentric versus egocentric representation of remembered reach targets in human cortex. J Neurosci. 34(37):12515-26. [PDF]
Thompson, A.A., Bryne, P.A., Henriques, D.Y.P. (2014) Visual targets aren’t irreversibly converted to motor coordinates: eye-centered updating of visuospatial memory in online reach control. PLoS One, 18, e92455. [PDF]
Clayton, H.A., Cressman, E.K., Henriques, D.Y.P. (2014) The effect of visuomotor adaptation on proprioceptive localization: the contributions of perceptual and motor changes. Exp Brain Res. 232(7):2073-86. [PDF]
Mostafa, A.A., Salomonczyk, D., Cressman, E.K., Henriques, D.Y.P. (2014) Intermanual transfer and proprioceptive recalibration following training with translated visual feedback of the hand, Exp Brain Res. 232(6):1639-51. [PDF]
Lee, D., Poizner, H., Corcos, D.M., Henriques, D.Y. (2013) Unconstrained reaching modulates eye-hand coupling, Exp Brain Res, 232(1), 211-23. [PDF]
Clayton, H.A., Cressman, E.K., Henriques, D.Y. (2013) Proprioceptive sensitivity in Ehlers-Danlos syndrome patients, Exp Brain Res, 230(3), 311-21. [PDF]
Schuts, I., Henriques, D.Y., Fiehler, K. (2013) Gaze-centered spatial updating in delayed reaching even in the presence of landmarks, Vision Res, 87, 46-52. [PDF]
Salomonczyk, D., Cressman, E.K., Henriques, D.Y. (2013) The role of cross-sensory error signal in visuomotor adaptation, Exp Brain Res, 228(3), 313-25. [PDF]
Martin, B.C., Dehghan, K., Henriques, D.Y. (2013) Bias and sensitivity of proprioception of a passively felt hand path with and without a secondary task, Exp Brain Res, 228(3):385-96. [PDF]
Baldeo, R., Henriques, D. (2013) Dual adaptation to opposing visuomotor rotations with similar hand movement trajectories, Exp Brain Res, 227, 231-241. [PDF]
Neva, J.L., Henriques, D.Y.P. (2013) Visuomotor adaptation and generalization with repeated and varied training, Exp Brain Res, 226, 363-372. [PDF]
Monaco, S., Chen, Y., Medendorp, W.P., Crawford, J.D., Fiehler, K., Henriques, D.Y.P. (2013) Functional Magnetic Resonance Imaging Adaptation Reveals the Cortical Networks for Processing Grasp-Relevant Object Properties, Cereb Cortex. [PDF]
Henriques, D.Y.P., Cressman, E.K. (2012) Visuomotor Adaptation and Proprioceptive Recalibration, J Mot Behav, 44, 435-444. [PDF]
Byrne, P.A., Henriques, D.Y.P. (2012) When more is less: Increasing allocentric visual information can switch visual–proprioceptive combination from an optimal to sub-optimal process, Neuropsychologia, 51, 26-37. [PDF]
Thompson, A.A., Glover, C.V., Henriques, D.Y. (2012) Allocentrically implied target locations are updated in an eye-centred reference frame, Neurosci Lett, 514, 214-218. [PDF]
Jones, S.A., Fiehler, K., Henriques, D.Y. (2012) A task-dependent effect of memory and hand-target on proprioceptive localization, Neuropsychologia, 50, 1462-1470. [PDF]
Jones, S.A., Byrne, P.A., Fiehler, K., Henriques, D.Y. (2012) Reach endpoint errors do not vary with movement path of the properioceptive target, J Neurophysiol, 107,3316-3324. [PDF]
Reuschel, J., Rosler, F., Henriques,D.Y., Fiehler, K. (2012) Spatial updating depends on gaze direction even after loss of vision, J Neuroscience, 32, 2422-2429. [PDF]
Salomonczyk, D., Henriques, D. Y., Cressman, E.K. (2012) Proprioceptive recalibration in the right and left hands following abrupt visuomotor adaptation, Exp Brain Res, 217, 187–196. [PDF]
Salomonczyk, D., Cressman, E.K., Henriques, D. Y. (2011) Proprioceptive recalibration following prolonged training and increasing distortions in visuomotor adaptation, Neuropsychologia, 49, 3053-3062. [PDF]
Cressman, E. K., Henriques, D.Y. (2011) Motor adaptation and proprioceptive recalibration. Prog Bran Res, 191, 91-99. [PDF]
Crawford, J.D., Henriques, D.Y., Medendorp, W.P. (2011) Three-dimensional transformations for goal-directed action (invited review). Annual Reviews of Neuroscience, 34, 309-331. [PDF]
Reuschel, J., Rosler, F., Henriques, D.Y, Fiehler, K. (2011) Testing the limits of optimal integration of visual and proprioceptive information of path trajectory. Experimental Brain Research, 209, 619-630. [PDF]
Fiehler, K., Schütz. I., Henriques, D.Y.P. (2011) Gaze-centered spatial updating of reach targets across different memory delays. Vision Research, 51, 890-897. [PDF]
Thompson, A.A., Henriques, D.Y.P. (2011) The coding and updating of visuospatial memory for goal-directed reaching and pointing (review). Vision Research, 51, 819-826. [PDF]
Beets, I.A.M., ‘t Hart, B.M., Rösler, F., Henriques, D.Y.P., Einhäuser, W., & Fiehler, K. (2010) Online action-to-perception transfer: only percept-dependent action affects perception. Vision Research, 50, 2633-2641, 2010. [PDF]
E. K. Cressman, D. Salomonczyk, D. Y. Henriques. (2010) Visuomotor adaptation and proprioceptive recalibration in older adults. Experimental Brain Research, 205, 533-544. [PDF]
Jones, S.A., Henriques, D.Y.P. (2010) Memory for proprioceptive and multisensory targets is coded relative to gaze. Neuropsychologia, 48: 3782-3792, 2010. [PDF]
Thompson, A.A ., Henriques, D.Y.P. (2010) Locations of serial reach targets are coded in multiple reference frames. Vision Research, 2651-2660, 2010. [PDF]
K. Fiehler, F. Rosler, D. Y. Henriques (2010) Interaction between gaze and visual and proprioceptive position judgments. Experimental Brain Research, 203: 485-498. [PDF]
E. K. Cressman, D. Y. Henriques (2010). Reach adaptation and proprioceptive recalibration following exposure to misaligned sensory input . J. Neurophysiology, 103: 1888-1895 [PDF]
A. K. Balitsky-Thompsn, D. Y. Henriques. (2010) The visuomotor adaptation and intermanual transfer under different viewing conditions. Experimental Brain Research, 202(3) 543-552. [PDF]
B. Martin, D. Y. Henriques. (2010) The effects of secondary task interference on shape reproduction. Experimental Brain Research, 202, 65-77 [PDF]
J. Reuschel, K. Drewing, D. Y. Henriques, F. Rosler, K. Fiehler (2010). Optimal integration of visual and proprioceptive movement information for the perception of trajectory geometry. Experimental Brain Research, 201(4), 853-862 [PDF]
E. K. Cressman, D. Y. Henriques (2009). Sensory recalibration of hand position following visuomotor adaptation. J. Neurophysiology, 102(6):3505-3518. [PDF]
S. A. H. Jones, D. Y. Henriques (2010). Proprioceptive localization of the left and right hands. Experimental Brain Research, 204: 373-383. [PDF]
T. Wong, D. Y. Henriques (2009). Visuomotor adaptation does not recalibrate kinesthetic sense of felt hand path. J. Neurophysiology, 101: 614-623. [PDF]
M. Vesia, X. Yan, D. Y. Henriques, L. E. Sergio, J. D. Crawford (2008). Trancranial magnetic stimulation over human dorsal-lateral posterior parietal cortex disrupts integration of hand position signals into the reach plan. J. Neurophysiology, 100: 2005-15. [PDF]
A. A. Thompson, D. Y. P. Henriques (2008). Updating visual memory across eye movements for ocular and arm motor control. J. Neurophysiology, 100: 2507-2514. [PDF]
J. Dionne, D. Y. P. Henriques (2008). Interpreting ambiguous visual information in motor learning . J. Vision, 8(15):2, 1-10. [PDF]
G. Sorrento, D. Y. P. Henriques (2008). Reference frame conversion for repeated arm movements. J. Neurophysiology, 99(6): 2968-84. [PDF]
N. Malfait, D. Y. P. Henriques, P. L Gribble (2008). Shape distortion produced by isolated mismatch between vision and proprioception. J. Neurophysiology, 99: 231-243. [PDF]
L. Ren, A.Z. Khan, G. Blohm, D. Y. P. Henriques, L. E. Sergio and J. D. Crawford (2006). Proprioceptive guidance of saccades in eye-hand coordination. J. Neurophysiology, 96: 1464-1477. [PDF]
D. Y. P. Henriques, and J. F. Soechting (2005). Approaches to the study of haptic sensing. J. Neurophysiology, 93: 3036-3043. [PDF]
D. Y. P. Henriques, M. Flanders and J. F. Soechting (2005). Distortions in the visual perception of shape. Exp Brain Res, 160: 384-393. [PDF]
D. Y. P. Henriques, M. Flanders and J. F. Soechting (2004). Haptic synthesis of shapes and sequences. J. Neurophysiology, 91: 1808-1821. [PDF]
D. Y. P. Henriques, W.P. Medendorp, C.C.A.M. Gielen, and J. D. Crawford (2003). Geometric computations underlying eye-hand coordination: Orientations of the two eyes and the head. Exp Brain Res, 152: 70-78. [PDF]
D. Y. P. Henriques, and J. F. Soechting (2003). Bias and sensitivity in haptic perception of geometry. Exp Brain Res, 150: 95-108. [PDF]
D. Y. P. Henriques and J. D. Crawford (2002). Role of eye, head and shoulder geometry in the planning of accurate arm movements. J. Neurophysiology, 87 (4): 1677 -1685. [PDF]
W. P. Medendorp, J. D. Crawford, D. Y. P Henriques, J. A. M. Van Gisbergen, and C. C. A. M. Gielen. (2000). Kinematic strategies for upper arm – forearm coordination in three dimensions. J. Neurophysiology, 84, 2303–2316. [PDF]
J. D. Crawford, D. Y. P Henriques and T. Vilis (2000). Curvature of visual space under vertical eye rotation: Implications for spatial vision and visuomotor control. J. Neuroscience, 20, 2360–2368. [PDF]
M. Z. Ceylan, D. Y. P. Henriques, D. B. Tweed, and J. D. Crawford (2000). Task-dependent constraints in motor control: Pinhole goggles make the head move like an eye. J. Neuroscience, 20, 2719–2730. [PDF]
D. Y. P. Henriques and J. D. Crawford (2000) Direction dependent distortions of retinocentric space in the visuomotor transformation for pointing. Exp Brain Res, 132(2), 179–194. [PDF]
D. Y. P Henriques, E. M. Klier, M. A. Smith, D. Lowey, and J. D. Crawford (1998). Gaze-centered re-mapping of remembered visual space in an open-loop pointing task. J. Neuroscience, 18, 1583–1594. [PDF]
Book chapters and conference proceedings
Jones, S.A., Fiehler, K., Henriques, D.Y. (2012) Proprioceptive acuity varies with task, hand target, and when memory is used. Eurohaptics ’10 Proceedings of the 2010 international conference on Haptics. 321-326. [PDF]
J. D. Crawford, D. Y. P. Henriques, W. P. Medendorp, and A. Z. Khan (2003) Ocular kinematics and eye-hand coordination. Strabismus, 11, 33-47. [PDF]
D. Y. P. Henriques, W. P. Medendorp, A. Z. Khan, and J. D. Crawford (2002) Visuomotor transformations for eye-hand coordination. Prog Brain Res, 140, 329-340. [PDF]
D. Y. P. Henriques, J. D. Crawford and T. Vilis (2002) The visuomotor transformation for arm movement accounts for 3-D eye orientation and retinal geometry. Annals of New York Academy of Sciences, 956, 515-9. [PDF]
E. M. Klier, D. Y. P. Henriques and J. D. Crawford (2002) Visuomotor transformation accounts for three dimensional eye position. Archives Italiennes Biologie, 140(3), 193-201. [PDF]
D. Y. P. Henriques and J. D. Crawford. (2001) Testing the three-dimensional reference frame transformation for express and memory-delay saccades. Neurocomputing, 38–40, 1267–1280. [PDF]