Speed and direction selectivity of macaque middle temporal neurons

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Speed and direction selectivity of macaque middle temporal neurons

L. Lagae, S. Raiguel and G. A. Orban
Laboratorium voor Neuro- en Psychofysiologie, Katholieke Universiteit te Leuven, Belgium.

1. We tested quantitatively the responses of 147 middle temporal (MT) cells to light and dark bars moving at different speeds ranging over a 1,000-fold range (0.5-512 deg/s). 2. We derived the following quantities from the speed-response (SR) curves obtained for opposite directions of motion. Speed selectivity was characterized by the maximum response, optimum speed, upper cutoff speed, response to slow movement, and tuning width. Direction selectivity was characterized by the direction index (DI) averaged over speeds yielding significant responses (MDI) and by the direction index at optimal speed (PDI). 3. There was an excellent correlation between speed characteristics for light and dark bars. These correlations were stronger than the correlations between direction indexes. The strongest correlations were obtained for maximum response and upper cutoff. 4. SR curves were classified into three groups: low pass (25%), tuned (43%), and broadband (28%), leaving 4% unclassified. 5. In the majority (75%) of MT cells, there was an agreement between the typology of speed selectivity for light and dark bars. Cells were classified as tuned (33%), low pass (22%), broadband (19%), and mixed (22%), leaving 4% unclassified. In addition to differences in speed characteristics, these groups also differed in response level, direction selectivity, and distribution of preferred directions. 6. For tuned cells, there was a very tight correlation of most speed characteristics for light and dark bars. 7. Direction selectivity depended on stimulus speed in most neurons, yielding a tuned average speed-DI curve. 8. Speed characteristics, proportions of speed selectivity types, and direction selectivity indexes showed little dependence on laminar position. 9. Speed characteristics and direction selectivity indexes were not dependent on eccentricity. Proportion of speed selectivity types however, changed dramatically with eccentricity: low-pass cells dominated foveally, tuned cells parafoveally, and broadband cells peripherally. 10. There were also small eccentricity effects on the range of optimal speeds shown by tuned cells and on the speed at which direction selectivity decreases in the slow speed range.

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				G. A. Orban Higher Order Visual Processing in Macaque Extrastriate Cortex Physiol Rev, January 1, 2008; 88(1): 59 - 89. [Abstract] [Full Text] [PDF]

				B. S. Webb, T. Ledgeway, and P. V. McGraw Cortical pooling algorithms for judging global motion direction PNAS, February 27, 2007; 104(9): 3532 - 3537. [Abstract] [Full Text] [PDF]

				H. Tabata, K. Miura, M. Taki, K. Matsuura, and K. Kawano Preparatory Gain Modulation of Visuomotor Transmission for Smooth Pursuit Eye Movements in Monkeys J Neurophysiol, December 1, 2006; 96(6): 3051 - 3063. [Abstract] [Full Text] [PDF]

				J. A. Perrone A Single Mechanism Can Explain the Speed Tuning Properties of MT and V1 Complex Neurons. J. Neurosci., November 15, 2006; 26(46): 11987 - 11991. [Abstract] [Full Text] [PDF]

				B. Krekelberg, R. J. A. van Wezel, and T. D. Albright Interactions between Speed and Contrast Tuning in the Middle Temporal Area: Implications for the Neural Code for Speed. J. Neurosci., August 30, 2006; 26(35): 8988 - 8998. [Abstract] [Full Text] [PDF]

				R. Philipp, C. Distler, and K.-P. Hoffmann A Motion-sensitive Area in Ferret Extrastriate Visual Cortex: an Analysis in Pigmented and Albino Animals Cereb Cortex, June 1, 2006; 16(6): 779 - 790. [Abstract] [Full Text] [PDF]

				K. Nelissen, W. Vanduffel, and G. A. Orban Charting the lower superior temporal region, a new motion-sensitive region in monkey superior temporal sulcus. J. Neurosci., May 31, 2006; 26(22): 5929 - 5947. [Abstract] [Full Text] [PDF]

				H. Gomi, N. Abekawa, and S. Nishida Spatiotemporal tuning of rapid interactions between visual-motion analysis and reaching movement. J. Neurosci., May 17, 2006; 26(20): 5301 - 5308. [Abstract] [Full Text] [PDF]

				H. Nover, C. H. Anderson, and G. C. DeAngelis A Logarithmic, Scale-Invariant Representation of Speed in Macaque Middle Temporal Area Accounts for Speed Discrimination Performance J. Neurosci., October 26, 2005; 25(43): 10049 - 10060. [Abstract] [Full Text] [PDF]

				N.S.C. Price, M. R. Ibbotson, S. Ono, and M. J. Mustari Rapid Processing of Retinal Slip During Saccades in Macaque Area MT J Neurophysiol, July 1, 2005; 94(1): 235 - 246. [Abstract] [Full Text] [PDF]

				C. C. Pack, J. N. Hunter, and R. T. Born Contrast Dependence of Suppressive Influences in Cortical Area MT of Alert Macaque J Neurophysiol, March 1, 2005; 93(3): 1809 - 1815. [Abstract] [Full Text] [PDF]

				J. Liu and W. T. Newsome Correlation between Speed Perception and Neural Activity in the Middle Temporal Visual Area J. Neurosci., January 19, 2005; 25(3): 711 - 722. [Abstract] [Full Text] [PDF]

				E. P. Cook and J. H. R. Maunsell Attentional Modulation of Motion Integration of Individual Neurons in the Middle Temporal Visual Area J. Neurosci., September 8, 2004; 24(36): 7964 - 7977. [Abstract] [Full Text] [PDF]

				D. Wegener, W. A. Freiwald, and A. K. Kreiter The Influence of Sustained Selective Attention on Stimulus Selectivity in Macaque Visual Area MT J. Neurosci., July 7, 2004; 24(27): 6106 - 6114. [Abstract] [Full Text] [PDF]

				B. J. A. Palanca and G. C. DeAngelis Macaque Middle Temporal Neurons Signal Depth in the Absence of Motion J. Neurosci., August 20, 2003; 23(20): 7647 - 7658. [Abstract] [Full Text] [PDF]

				G. C. DeAngelis and T. Uka Coding of Horizontal Disparity and Velocity by MT Neurons in the Alert Macaque J Neurophysiol, February 1, 2003; 89(2): 1094 - 1111. [Abstract] [Full Text] [PDF]

				J. Liu and W. T. Newsome Functional Organization of Speed Tuned Neurons in Visual Area MT J Neurophysiol, January 1, 2003; 89(1): 246 - 256. [Abstract] [Full Text] [PDF]

				W. Bair, J. R. Cavanaugh, M. A. Smith, and J. A. Movshon The Timing of Response Onset and Offset in Macaque Visual Neurons J. Neurosci., April 15, 2002; 22(8): 3189 - 3205. [Abstract] [Full Text] [PDF]

				K.-P. Hoffmann, F. Bremmer, A. Thiele, and C. Distler Directional Asymmetry of Neurons in Cortical Areas MT and MST Projecting to the NOT-DTN in Macaques J Neurophysiol, April 1, 2002; 87(4): 2113 - 2123. [Abstract] [Full Text] [PDF]

				R. E. Phinney and R. M. Siegel Speed Selectivity for Optic Flow in Area 7a of the Behaving Macaque Cereb Cortex, April 1, 2000; 10(4): 413 - 421. [Abstract] [Full Text] [PDF]

ARTICLES

Speed and direction selectivity of macaque middle temporal neurons

				G. H. Recanzone and R. H. Wurtz Shift in Smooth Pursuit Initiation and MT and MST Neuronal Activity Under Different Stimulus Conditions J Neurophysiol, October 1, 1999; 82(4): 1710 - 1727. [Abstract] [Full Text] [PDF]

				S. E. Raiguel, D.-K. Xiao, V. L. Marcar, and G. A. Orban Response Latency of Macaque Area MT/V5 Neurons and Its Relationship to Stimulus Parameters J Neurophysiol, October 1, 1999; 82(4): 1944 - 1956. [Abstract] [Full Text] [PDF]

				S. G. Lisberger and J. A. Movshon Visual Motion Analysis for Pursuit Eye Movements in Area MT of Macaque Monkeys J. Neurosci., March 15, 1999; 19(6): 2224 - 2246. [Abstract] [Full Text] [PDF]

				K. H. Britten and W. T. Newsome Tuning Bandwidths for Near-Threshold Stimuli in Area MT J Neurophysiol, August 1, 1998; 80(2): 762 - 770. [Abstract] [Full Text] [PDF]

				G. H. Recanzone, R. H. Wurtz, and U. Schwarz Responses of MT and MST Neurons to One and Two Moving Objects in the Receptive Field J Neurophysiol, December 1, 1997; 78(6): 2904 - 2915. [Abstract] [Full Text] [PDF]

				M. Kahlon and S. G. Lisberger Coordinate System for Learning in the Smooth Pursuit Eye Movements of Monkeys J. Neurosci., November 15, 1996; 16(22): 7270 - 7283. [Abstract] [Full Text] [PDF]