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#crossmodal — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #crossmodal, aggregated by home.social.

  1. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) science.org/doi/10.1126/sciadv The basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior." #crossmodal #neuroscience

  2. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) science.org/doi/10.1126/sciadv The basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior." #crossmodal #neuroscience

  3. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) science.org/doi/10.1126/sciadv The basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior." #crossmodal #neuroscience

  4. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) science.org/doi/10.1126/sciadv The basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior."

  5. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) science.org/doi/10.1126/sciadv The basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior." #crossmodal #neuroscience

  6. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) www.science.org/doi/10.1126/... Basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior" #crossmodal #neuroscience

    Selective attention to auditor...

  7. Selective attention to auditory and visual modalities converges onto noncholinergic basal forebrain neurons (in rats) www.science.org/doi/10.1126/... Basal forebrain "may serve as a subcortical hub integrating attention signals across modalities to guide adaptive behavior" #crossmodal #neuroscience

    Selective attention to auditor...

  8. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment nature.com/articles/s41598-025 "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

  9. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment nature.com/articles/s41598-025 "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

  10. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment nature.com/articles/s41598-025 "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

  11. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment nature.com/articles/s41598-025 "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding";

  12. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment nature.com/articles/s41598-025 "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

  13. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment www.nature.com/articles/s41... "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

    Disentangling the functional r...

  14. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment www.nature.com/articles/s41... "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

    Disentangling the functional r...

  15. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment www.nature.com/articles/s41... "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

    Disentangling the functional r...

  16. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment www.nature.com/articles/s41... "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

    Disentangling the functional r...

  17. Disentangling the functional roles of pre-stimulus oscillations in crossmodal associative memory formation via sensory entrainment www.nature.com/articles/s41... "externally induced pre-stimulus alpha entrainment boosts audiovisual associative encoding"; #crossmodal #multisensory #neuroscience

    Disentangling the functional r...

  18. Saccades adapt to visual and auditory stepping targets and display an asymmetrical pattern of cross-modal transfer journals.physiology.org/doi/ab #crossmodal

  19. Saccades adapt to visual and auditory stepping targets and display an asymmetrical pattern of cross-modal transfer journals.physiology.org/doi/ab #crossmodal

  20. Saccades adapt to visual and auditory stepping targets and display an asymmetrical pattern of cross-modal transfer journals.physiology.org/doi/ab #crossmodal

  21. Saccades adapt to visual and auditory stepping targets and display an asymmetrical pattern of cross-modal transfer journals.physiology.org/doi/ab

  22. Saccades adapt to visual and auditory stepping targets and display an asymmetrical pattern of cross-modal transfer journals.physiology.org/doi/ab #crossmodal

  23. Saccades adapt to visual and auditory stepping targets and display an asymmetrical pattern of cross-modal transfer journals.physiology.org/doi/abs/10.1... #crossmodal

    Saccades adapt to visual and a...

  24. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/articl #crossmodal #plasticity #neuroscience

  25. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/artic... #crossmodal #plasticity #neuroscience

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  26. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/articl #crossmodal #plasticity #neuroscience

  27. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/artic... #crossmodal #plasticity #neuroscience

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  28. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/artic... #crossmodal #plasticity #neuroscience

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  29. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/articl #crossmodal #plasticity #neuroscience

  30. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/artic... #crossmodal #plasticity #neuroscience

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  31. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/articl

  32. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/articl #crossmodal #plasticity #neuroscience

  33. Lack of cross modal plasticity potentially linked to ongoing activation of visual cortex and superior colliculus in the rd10 mouse model of retinitis pigmentosa academic.oup.com/cercor/artic... #crossmodal #plasticity #neuroscience

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  34. Visual context affects the perceived timing of tactile sensations elicited through intra-cortical microstimulation: a case study of two participants journals.physiology.org/doi/ab #multisensory #crossmodal #BCI #NeuroTech

  35. Visual context affects the perceived timing of tactile sensations elicited through intra-cortical microstimulation: a case study of two participants journals.physiology.org/doi/ab #multisensory #crossmodal #BCI #NeuroTech

  36. Visual context affects the perceived timing of tactile sensations elicited through intra-cortical microstimulation: a case study of two participants journals.physiology.org/doi/ab #multisensory #crossmodal #BCI #NeuroTech

  37. Visual context affects the perceived timing of tactile sensations elicited through intra-cortical microstimulation: a case study of two participants journals.physiology.org/doi/ab

  38. Visual context affects the perceived timing of tactile sensations elicited through intra-cortical microstimulation: a case study of two participants journals.physiology.org/doi/ab #multisensory #crossmodal #BCI #NeuroTech

  39. Visual context affects the perceived timing of tactile sensations elicited through intra-cortical microstimulation: a case study of two participants journals.physiology.org/doi/abs/10.1... #multisensory #crossmodal #BCI #NeuroTech

    Visual context affects the per...

  40. Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) frontiersin.org/journals/neuro #crossmodal #integration #plasticity #V1 #neuroscience

    "The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."

  41. Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) frontiersin.org/journals/neuro #crossmodal #integration #plasticity #V1 #neuroscience

    "The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."

  42. Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) frontiersin.org/journals/neuro #crossmodal #integration #plasticity #V1 #neuroscience

    "The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."

  43. Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) frontiersin.org/journals/neuro

    "The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."

  44. Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) frontiersin.org/journals/neuro #crossmodal #integration #plasticity #V1 #neuroscience

    "The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."

  45. Multimodality in the collicular pathway: Towards compensatory visual processes mdpi.com/2073-4409/14/9/635 "By exploring the interplay between fundamental neuroscience and translational applications, we aim to address multisensory integration as a pivotal target for its potential role in visual rehabilitation strategies."

    #multisensory #crossmodal #neuroscience #BCI #blindness