#voltageimaging — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #voltageimaging, aggregated by home.social.
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"Saline-free preparation for chronic in vivo imaging in adult Drosophila", Zhu et al. 2026 (Cheng Huang's lab)
https://www.biorxiv.org/content/10.64898/2026.02.18.706199v1"We demonstrate the utility of this approach by tracking single-neuron spiking and neuronal calcium dynamics over 7–10 days."
"Longitudinal voltage imaging with single-spike resolution across 10 days ... We used the MBON05-specific split-GAL4 line SS01188 to express the voltage indicator pAce into the pair of MBON05 neurons."
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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Great having Mark Schnitzer at today’s #iBehave lecture at the @dzne! Fascinating talk on cell-type specific #VoltageImaging 🧠⚡ of neural #spiking, #oscillations, #waves, and #MemoryDynamics. Showing that spike-resolution #imaging 🔬 in vivo is finally there 💪
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Great having Mark Schnitzer at today’s #iBehave lecture at the @dzne.science! Fascinating talk on cell-type specific #VoltageImaging 🧠⚡ of neural #spiking, #oscillations, #waves, and #MemoryDynamics. Showing that spike-resolution #imaging 🔬 in vivo is finally there 💪 #Neuroscience 🧪 #DZNE
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Promising new #imagedenoising tool: SUPPORT. Designed for #VoltageImaging and time lapse images in general:
🎥 https://static-content.springer.com/esm/art%3A10.1038%2Fs41592-023-02005-8/MediaObjects/41592_2023_2005_MOESM13_ESM.mp4 (demo)
✍️ Eom, M., Han, S., Park, P. et al. Statistically unbiased prediction enables accurate denoising of voltage imaging data. #NatMethods (2023). https://doi.org/10.1038/s41592-023-02005-8
👨💻 https://github.com/NICALab/SUPPORT -
Promising new #imagedenoising tool: SUPPORT. Designed for #VoltageImaging and time lapse images in general:
🎥 https://static-content.springer.com/esm/art%3A10.1038%2Fs41592-023-02005-8/MediaObjects/41592_2023_2005_MOESM13_ESM.mp4 (demo)
✍️ Eom, M., Han, S., Park, P. et al. Statistically unbiased prediction enables accurate denoising of voltage imaging data. #NatMethods (2023). https://doi.org/10.1038/s41592-023-02005-8
👨💻 https://github.com/NICALab/SUPPORT -
Promising new #imagedenoising tool: SUPPORT. Designed for #VoltageImaging and time lapse images in general:
🎥 https://static-content.springer.com/esm/art%3A10.1038%2Fs41592-023-02005-8/MediaObjects/41592_2023_2005_MOESM13_ESM.mp4 (demo)
✍️ Eom, M., Han, S., Park, P. et al. Statistically unbiased prediction enables accurate denoising of voltage imaging data. #NatMethods (2023). https://doi.org/10.1038/s41592-023-02005-8
👨💻 https://github.com/NICALab/SUPPORT -
Promising new #imagedenoising tool: SUPPORT. Designed for #VoltageImaging and time lapse images in general:
🎥 https://static-content.springer.com/esm/art%3A10.1038%2Fs41592-023-02005-8/MediaObjects/41592_2023_2005_MOESM13_ESM.mp4 (demo)
✍️ Eom, M., Han, S., Park, P. et al. Statistically unbiased prediction enables accurate denoising of voltage imaging data. #NatMethods (2023). https://doi.org/10.1038/s41592-023-02005-8
👨💻 https://github.com/NICALab/SUPPORT -
Promising new #imagedenoising tool: SUPPORT. Designed for #VoltageImaging and time lapse images in general:
🎥 https://static-content.springer.com/esm/art%3A10.1038%2Fs41592-023-02005-8/MediaObjects/41592_2023_2005_MOESM13_ESM.mp4 (demo)
✍️ Eom, M., Han, S., Park, P. et al. Statistically unbiased prediction enables accurate denoising of voltage imaging data. #NatMethods (2023). https://doi.org/10.1038/s41592-023-02005-8
👨💻 https://github.com/NICALab/SUPPORT -
#FIOLA, new pipeline for processing #CalciumImaging or #VoltageImaging 🌌🔬data, including fast speed and online processing 👌
✍️ Cai, C., Dong, C., Friedrich, J. et al. FIOLA: an accelerated pipeline for fluorescence imaging online analysis. #NatMethods
🌍 https://doi.org/10.1038/s41592-023-01964-2 -
#FIOLA, new pipeline for processing #CalciumImaging or #VoltageImaging 🌌🔬data, including fast speed and online processing 👌
✍️ Cai, C., Dong, C., Friedrich, J. et al. FIOLA: an accelerated pipeline for fluorescence imaging online analysis. #NatMethods
🌍 https://doi.org/10.1038/s41592-023-01964-2 -
#FIOLA, new pipeline for processing #CalciumImaging or #VoltageImaging 🌌🔬data, including fast speed and online processing 👌
✍️ Cai, C., Dong, C., Friedrich, J. et al. FIOLA: an accelerated pipeline for fluorescence imaging online analysis. #NatMethods
🌍 https://doi.org/10.1038/s41592-023-01964-2 -
#FIOLA, new pipeline for processing #CalciumImaging or #VoltageImaging 🌌🔬data, including fast speed and online processing 👌
✍️ Cai, C., Dong, C., Friedrich, J. et al. FIOLA: an accelerated pipeline for fluorescence imaging online analysis. #NatMethods
🌍 https://doi.org/10.1038/s41592-023-01964-2 -
#FIOLA, new pipeline for processing #CalciumImaging or #VoltageImaging 🌌🔬data, including fast speed and online processing 👌
✍️ Cai, C., Dong, C., Friedrich, J. et al. FIOLA: an accelerated pipeline for fluorescence imaging online analysis. #NatMethods
🌍 https://doi.org/10.1038/s41592-023-01964-2