Specificity of Visuomotor Adaptation to Movement Dynamics. Society

Specificity of Visuomotor Adaptation to Movement Dynamics
Matthew J. Crossley Jiang Lan Fan Richard B. Ivry
Hand
Baseline
Rotation
Washout
Trial
CCW
CW
Hand Angle
Movement Speed
Time (ms)
Trial
2-Target Pause
- Compensation for opposing rotations: Yes
- Gradual washout: No
- Adaptation is modestly attenuated for shared start locations
Trial
2-Target Static
- Compensation for opposing rotations: Yes
- Gradual washout: No
- Marked increase/decrease in RT at onset/offset of rotation (not shown)
References
Herzfeld, D. J., Vaswani P. A., Marko, M. K., & Shadmehr, R. (2014). A memory of errors in sensorimotor learning. Science 345, 1349-1353.
Howard, I. S., Ingram, J. N., Franklin, D. W., & Wolpert, D. M. (2012). Gone in 0.6 seconds: the encoding of motor memories depends on recent sensorimotor states. The
Journal of Neuroscience, 32(37), 12756-12768.
Howard, I. S., Wolpert, D. M., & Franklin, D. W. (2013). The effect of contextual cues on the encoding of motor memories. Journal of neurophysiology, 109(10), 2632-2644.
Morehead, R. M., Crossley, M. J., & Ivry, R. B. (in prep). Savings upon re-aiming in visuomotor adaptation.
CCW
CW
CW
CCW
CCW CW
No
Rotation
CCW
Rotation
Movement Speed
Time (ms)
Rotation 1
Washout
Rotation 2
Rotation 1
Rotation 2
CCW
Time (ms)
Retention via dynamic cues observed
with gradual perturbation
4-Target Dyno
- Compensation for opposing rotations: Yes
- Gradual washout: Yes
Gradual
Trial
Hand Angle
CW
Example Trial
Rotation 2
Trial
AAB
- Re-adaptation may proceed slightly faster than adaptation
- Memory for errors (Herzfeld et al., 2014)?
- Explicit awareness due to novel rotation direction + novel context?
Dynamic cue facilitation extends to
multiple dynamic cues
Hand Angle
Movement Speed
CCW
Rotation
Rotation 1
Baseline
CCW
Example Trial
Rotation direction cued
by visual landmark
CCW
Rotation
Rotation 2
Trial
ABA
- Re-adaptation begins approximately where original adaptation finished
- Retention is near perfect with different washout context
Hand Angle
CW
1 Sec
Dwell
Washout
CW
Trial
No
Rotation
Rotation 1
CW
CW
Example Trial
Opposing VM rotations prevent motor adaptation
Baseline
Dynamic cue facilitation is prevented
by1s pause in movement
CCW
Rotation 2
Trial
AAA
- Re-adaptation proceeds at the same pace as original adaptation
- Consistent with prior observation of no savings after complete washout
of a 15 degree rotation (Morehead, Crossley, Ivry, in prep)
2-Target Dyno
- Compensation for opposing rotations: Yes
- Gradual washout: Yes
- Adaptation is modestly attenuated for shared start locations
Target
- Participants move a cursor by moving a digital pen on a digitizing tablet
- Vision of hand is occluded
- Baseline & Washout phase: Cursor position is mapped veridically to hand position
- Rotation phases: Cursor position is rotated relative to hand position
- Adaptation indicated by:
1. Successful compensation for the rotated cursor during the adaptation phase
2. Gradual "washout" when the rotation is turned off
Hand Angle
Time (ms)
Rotation 1
Gradual-Dwell
Hand Angle
Cursor
Rotation 2
CCW
Example Trial
CCW
Rotation
Washout
CW
CW
No
Rotation
Rotation 1
Hand Angle
Gradual washout
Hand Angle
Compensation for rotation
Baseline
Hand Angle
Visuomotor adaptation gradually tunes
motor commands to reduce experienced errors
CCW
Adaptation via dynamic cues is acquired
and retained independently
Hand Angle
Trial-by-trial switching between opposing sensorimotor perturbations impairs
adaptation. However, opposing force fields can be learned if field direction is
signaled by unique start locations (Howard et al., J Neurophysiology 2012). We
show:
1. Opposing visuomotor rotations can also be adapted to if they are signaled by
unique start locations (henceforth called "dynamic cues" or simply ”contexts”,
following Howard et al.)
2. Adaptation via dynamic cues exhibits marked within-session retention
3. Retention via dynamic cues also observed with gradual perturbations
Dynamic cues facilitate adaptation
to opposing VM rotations
Movement Speed
Introduction
Trial
Adaptation to gradual rotation:
1. Prevented by a 1s pause
2. Retained with little decay
Trial