Scientifica IVM Triple
Design & Specifications
- Number of axes: 3 orthogonal. Optional virtual 4th axis with Rotation Kit
- Travel distance: 70 mm (in X, Y and Z axes)
- Electronic resolution: 20 nm
- Minimum step size: 0.1 µm
- Minimum speed: 0.01 µm per second
- Maximum speed: 4 mm per second
- Memory positions: 50 on control device (unlimited via LinLab)
- Software: LinLab for Windows
- Angular accuracy: +/- 1° (when using the IVM Rotation Kit)
Research Papers
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Prefrontal cortex neurons encode ambient light intensity differentially across regions and layers
Zangen, E., Hadar, S., Lawrence, C., Obeid, M., Rasras, H., Hanzin, E., Aslan, O., Zur, E., Schulcz, N., Cohen-Hatab, D., Samama, Y., Nir, S., Li, Y., Dobrotvorskia, I., & Sabbah, S. (2024). Prefrontal cortex neurons encode ambient light intensity differentially across regions and layers. Nature Communications, 15(1). https://doi.org/10.1038/s41467...
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Distinct forms of synaptic plasticity during ascending vs descending control of medial olivocochlear efferent neurons
Romero, G. E., & Trussell, L. O. (2021). Distinct forms of synaptic plasticity during ascending vs descending control of medial olivocochlear efferent neurons. eLife, 10. https://doi.org/10.7554/elife....
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A transcriptomic taxonomy of mouse brain-wide spinal projecting neurons
Winter, C. C., Jacobi, A., Su, J., Chung, L., Van Velthoven, C. T. J., Yao, Z., Lee, C., Zhang, Z., Yu, S., Gao, K., Salazar, G. D., Kegeles, E., Zhang, Y., Tomihiro, M. C., Zhang, Y., Yang, Z., Zhu, J., Tang, J., Song, X., . . . He, Z. (2023). A transcriptomic taxonomy of mouse brain-wide spinal projecting neurons. Nature, 624(7991), 403–414. https://doi.org/10.1038/s41586...
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Ultrahigh-Density 256-Channel Neural Sensing Microsystem Using TSV-Embedded Neural Probes
Huang, Y., Huang, P., Wu, S., Hu, Y., You, Y., & Chen, J. et al. (2017). Ultrahigh-Density 256-Channel Neural Sensing Microsystem Using TSV-Embedded Neural Probes. IEEE Transactions On Biomedical Circuits And Systems, 1-13. http://dx.doi.org/10.1109/tbca...
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Weak signal amplification and detection by higher-order sensory neurons
Jung, S., Longtin, A., & Maler, L. (2016). Weak signal amplification and detection by higher-order sensory neurons. Journal Of Neurophysiology, 115(4), 2158-2175. http://dx.doi.org/10.1152/jn.0...
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A refined model of water and CO2 membrane diffusion: Effects and contribution of sterols and proteins
Kai, L., & Kaldenhoff, R. (2014). A refined model of water and CO2 membrane diffusion: Effects and contribution of sterols and proteins. Scientific Reports, 4(1). http://dx.doi.org/10.1038/srep...
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Combining pharmacology and whole-cell patch recording from CNS neurons, in vivo
Rose, G., Alluri, R., Vasquez-Opazo, G., Odom, S., Graham, J., & Leary, C. (2013). Combining pharmacology and whole-cell patch recording from CNS neurons, in vivo. Journal Of Neuroscience Methods, 213(1), 99-104. http://dx.doi.org/10.1016/j.jn...
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Species-specificity of temporal processing in the auditory midbrain of gray treefrogs: interval-counting neurons
Rose, G., Hanson, J., Leary, C., Graham, J., Alluri, R., & Vasquez-Opazo, G. (2015). Species-specificity of temporal processing in the auditory midbrain of gray treefrogs: interval-counting neurons. Journal Of Comparative Physiology A, 201(5), 485-503. http://dx.doi.org/10.1007/s003...
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Visual System Impairment in a Mouse Model of Krabbe Disease: The Twitcher Mouse
Tonazzini, I., Cerri, C., Del Grosso, A., Antonini, S., Allegra, M., Manuela Allegra., Caleo, M., & Cecchini, M. (2020). Visual System Impairment in a Mouse Model of Krabbe Disease: The Twitcher Mouse. Biomolecules 2021, 11(1), 7. https://doi.org/10.3390/biom11...