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Literature DB >> 17678859

Adaptation to stimulus contrast and correlations during natural visual stimulation.

Nicholas A Lesica¹, Jianzhong Jin, Chong Weng, Chun-I Yeh, Daniel A Butts, Garrett B Stanley, Jose-Manuel Alonso.

Abstract

In this study, we characterize the adaptation of neurons in the cat lateral geniculate nucleus to changes in stimulus contrast and correlations. By comparing responses to high- and low-contrast natural scene movie and white noise stimuli, we show that an increase in contrast or correlations results in receptive fields with faster temporal dynamics and stronger antagonistic surrounds, as well as decreases in gain and selectivity. We also observe contrast- and correlation-induced changes in the reliability and sparseness of neural responses. We find that reliability is determined primarily by processing in the receptive field (the effective contrast of the stimulus), while sparseness is determined by the interactions between several functional properties. These results reveal a number of adaptive phenomena and suggest that adaptation to stimulus contrast and correlations may play an important role in visual coding in a dynamic natural environment.

Mesh：

Year: 2007 PMID： 17678859 PMCID： PMC1994647 DOI： 10.1016/j.neuron.2007.07.013

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 17.173

32 in total

Adaptation to stimulus contrast and correlations during natural visual stimulation.

1. Temporal contrast adaptation in the input and output signals of salamander retinal ganglion cells.

2. Spatial scale and cellular substrate of contrast adaptation by retinal ganglion cells.

3. Sparse coding and decorrelation in primary visual cortex during natural vision.

4. Adaptive rescaling maximizes information transmission.

5. Temporal contrast adaptation in salamander bipolar cells.

6. Efficiency and ambiguity in an adaptive neural code.

7. Calculating the contrasts that retinal ganglion cells and LGN neurones encounter in natural scenes.

8. Decoupling functional mechanisms of adaptive encoding.

9. Adaptive filtering enhances information transmission in visual cortex.

10. Cellular basis for contrast gain control over the receptive field center of mammalian retinal ganglion cells.

1. Heterogeneous response dynamics in retinal ganglion cells: the interplay of predictive coding and adaptation.

2. The episodic nature of spike trains in the early visual pathway.

3. On the importance of static nonlinearity in estimating spatiotemporal neural filters with natural stimuli.

Review 4. Functional circuitry of visual adaptation in the retina.

5. Functional consequences of neuronal divergence within the retinogeniculate pathway.

6. Spatial and temporal integration of visual motion signals for smooth pursuit eye movements in monkeys.

7. Distinct expressions of contrast gain control in parallel synaptic pathways converging on a retinal ganglion cell.

8. The spatiotemporal frequency tuning of LGN receptive field facilitates neural discrimination of natural stimuli.

9. Adaptation of the simple or complex nature of V1 receptive fields to visual statistics.

10. Timing precision in population coding of natural scenes in the early visual system.