visual-vestibular interaction hypothesis for the control of orienting gaze shifts by brain stem...

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Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department of Biomedical Engineering, McGill University, Montreal, Quebec, Canada Presented by: Fereshteh Lagzi

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Introduction Gaze =(eye position-in-head + head position-in-space) orienting movements of the visual axis are referred to as gaze shifts and are composed of an initial fast phase followed by a slow phase.

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Page 1: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Visual-Vestibular Interaction Hypothesis for the Control of

Orienting Gaze Shifts by Brain Stem Omnipause Neurons

Mario Prsa and Henrietta L. GalianaDepartment of Biomedical Engineering, McGill

University, Montreal, Quebec, Canada

Presented by: Fereshteh Lagzi

Page 2: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Presentation Agenda

• Introduction

• Model Description

• Simulation Results

• Conclusion

Page 3: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Introduction

Gaze =(eye position-in-head + head position-in-space)

orienting movements of the visual axis arereferred to as gaze shifts and are composed of an initial fastphase followed by a slow phase.

Page 4: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Introduction

target attainment

targetfixation

Page 5: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Omnipause Neurons

These two fundamental requirements of gaze shifts, target attainment and target fixation, are coordinated by omni-directional pause neurons(OPNs) located in the nucleus raphe interpositus of the caudal pontine reticular formation in the brain stem.

OPNs discharge at a regular rate during visual fixation and pause for the duration of the saccadic gaze component.

Page 6: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Gaze Saccade Generation

Page 7: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Robinson’s Model•The classic local feedback model of eye saccade generation (Robinson 1975) compares the actual eye position Theta to the desired target position ThetaT to produce a motor error signal that drives the burst cells.

•Improvements of Robinson’s model rely on a dynamic motor error signal produced by a “comparator” that drives the burst neurons during the saccadic fast phase. Most models either attribute its role to the superior colliculus (SC) or place it downstream of the SC.

Page 8: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Proposed Switching Strategy

Page 9: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Model Description

Page 10: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Head B

rake

Experi

ment

Page 11: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Head Velocity & Gaze Position Error

Page 12: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Gaze Shift Simulation

Page 13: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Head-Fixed Eye Saccades Simulation

Page 14: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

OPN Stimulation

Page 15: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Head Brake Simulation

Page 16: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

Conclusion•The proposed visual-vestibular interaction controlling theactivity of OPNs was shown to accurately reproduce alternations between fast and slow phases of combined eye-head gaze movements, which are not controlled uniquely by a gaze motor error signal.

•Inputs to the OPNs are based on a weighted premotor fusion of different signals.

•The presentedhypothesis for the neural control of OPNs can thus provide insight for further investigations of how the firing activity of these neurons is modulated during all types of eye-head movements.

Page 17: Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons Mario Prsa and Henrietta L. Galiana Department

References

• [1] Prsa M, Galiana H.L. Visual-Vestibular Interaction Hypothesis for the Control of Orienting Gaze Shifts by Brain Stem Omnipause Neurons. J Neurophysiol 97: 1149-1162, 2007

سعيدي، ساره. سمينار درس مدلسازي [2]•سيستمهاي بيولوژيکي، دانشکده مهندسي

پزشکي، دانشگاه صنعتي اميرکبير، تابستان 1386