Scientifica IVM Single
Schematics
IVM Single - Front View
IVM Single - Side View
IVM Single - Top View
Accessories
Dovetail probe holder to fit bars/probes
Allows you to mount the IVM in one of four mounting positions on the Kopf or Stoelting manipulator.
This allows the approach axis of the LBM-7 to be removed, enabling the IVM be mounted in its place. It can then be rotated and locked in position at the correct angle.
Allows you to mount the IVM on the LBM-7 either to the approach axis stage or to the sliding carriage attached to the approach axis. If mounted on the approach axis stage it can only do so in the same axis as the stage. If mounted on the sliding bracket it can be mounted at 90º or in the same axis as the approach axis.
To hold capillary glass of 1-2 mm in diameter.
Allows you to mount the IVM in a single mounting position on the Kopf or Stoelting manipulator.
Design and specifications
- Number of axes: 1
- Travel distance: 70 mm
- Electronic resolution: 20 nm
- Minimum step size: 0.1 µm
- Minimum speed: 1 µm per second
- Maximum speed: 4 mm per second
- Memory positions: 50 on control device (unlimited via LinLab)
- Software: LinLab for Windows
调查报告
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Orexinergic theta rhythm in the rat hippocampal formation: In vitro and in vivo findings.
Bocian, R., Kazmierska, P., Kłos-Wojtczak, P., Kowalczyk, T., & Konopacki, J. (2015). Orexinergic theta rhythm in the rat hippocampal formation: In vitro and in vivo findings. Hippocampus, 25(11), 1393-1406. http://dx.doi.org/10.1002/hipo...
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Cholinergic modulation of the parafacial respiratory group.
Boutin, R., Alsahafi, Z., & Pagliardini, S. (2016). Cholinergic modulation of the parafacial respiratory group. The Journal Of Physiology, 595(4), 1377-1392. http://dx.doi.org/10.1113/jp27...
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Postnatal Development of the Posterior Hypothalamic Theta Rhythm and Local Cell Discharges in Rat Brain Slices.
Caban, B., Staszelis, A., Kazmierska, P., Kowalczyk, T., Konopacki, J. (2018). Postnatal Development of the Posterior Hypothalamic Theta Rhythm and Local Cell Discharges in Rat Brain Slices. Developmental Neurobiology, 78(11), 1049-1063. https://doi.org/10.1002/dneu.22628
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Modified toolbox for optogenetics in the nonhuman primate.
Dai, J., Ozden, I., Brooks, D., Wagner, F., May, T., Agha, N., Brush, B., Borton, D., Nurmikko, A., Sheinberg, D. (2015). Modified toolbox for optogenetics in the nonhuman primate. Neurophotonics, 2(3), 031202. https://doi.org/10.1117/1.NPh.2.3.031202
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Developmental alterations in noxious-evoked EEG activity recorded from rat primary somatosensory cortex.
Devonshire, I., Greenspon, C., & Hathway, G. (2015). Developmental alterations in noxious-evoked EEG activity recorded from rat primary somatosensory cortex. Neuroscience, 305, 343-350. http://dx.doi.org/10.1016/j.ne...
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A quantification of the relationship between neuronal responses in the rat rostral ventromedial medulla and noxious stimulation-evoked withdrawal reflexes.
Devonshire, I., Kwok, C., Suvik, A., Haywood, A., Cooper, A., & Hathway, G. (2015). A quantification of the relationship between neuronal responses in the rat rostral ventromedial medulla and noxious stimulation-evoked withdrawal reflexes. European Journal Of Neuroscience, 42(1), 1726-1737. http://dx.doi.org/10.1111/ejn....
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Representation of spontaneous movement by neurons is cell-type selective and disrupted in parkinsonism.
Dodson, P., Dreyer, J., Jennings, K., Syed, E., Wade-Martins, R., & Cragg, S. et al. (2016). Representation of spontaneous movement by neurons is cell-type selective and disrupted in parkinsonism. Proceedings Of The National Academy Of Sciences, 113(15), E2180-E2188. http://dx.doi.org/10.1073/pnas...
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Distinct Developmental Origins Manifest in the Specialized Encoding of Movement by Adult Neurons of the External Globus Pallidus.
Dodson, P., Larvin, J., Duffell, J., Garas, F., Doig, N., & Kessaris, N. et al. (2015). Distinct Developmental Origins Manifest in the Specialized Encoding of Movement by Adult Neurons of the External Globus Pallidus. Neuron, 86(2), 501-513. http://dx.doi.org/10.1016/j.ne...
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Cortical and Thalamic Excitation Mediate the Multiphasic Responses of Striatal Cholinergic Interneurons to Motivationally Salient Stimuli.
Doig, N., Magill, P., Apicella, P., Bolam, J., & Sharott, A. (2014). Cortical and Thalamic Excitation Mediate the Multiphasic Responses of Striatal Cholinergic Interneurons to Motivationally Salient Stimuli. Journal Of Neuroscience, 34(8), 3101-3117. http://dx.doi.org/10.1523/jneu...
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Tuning of Ranvier node and internode properties in myelinated axons to adjust action potential timing.
Ford, M., Alexandrova, O., Cossell, L., Stange-Marten, A., Sinclair, J., & Kopp-Scheinpflug, C. et al. (2015). Tuning of Ranvier node and internode properties in myelinated axons to adjust action potential timing. Nature Communications, 6, 8073. http://dx.doi.org/10.1038/ncom...
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Lamina-specific population encoding of cutaneous signals in the spinal dorsal horn using multi-electrode arrays.
Greenspon, C., Battell, E., Devonshire, I., Donaldson, L., Chapman, V., & Hathway, G. (2019). Lamina-specific population encoding of cutaneous signals in the spinal dorsal horn using multi-electrode arrays. The Journal of Physiology, 597(2), 377-397. https://physoc.onlinelibrary.w...
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Development of theta rhythm in hippocampal formation slices perfused with 5-HT1A antagonist, S)WAY 100135
Kazmierska, P., & Konopacki, J. (2015). Development of theta rhythm in hippocampal formation slices perfused with 5-HT1A antagonist, (S)WAY 100135. Brain Research, 1625, 142-150. http://dx.doi.org/10.1016/j.br...
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Spinal interleukin-6 contributes to central sensitisation and persistent pain hypersensitivity in a model of juvenile idiopathic arthritis.
Kwok, C., Learoyd, A., Canet-Pons, J., Trang, T., & Fitzgerald, M. (2020). Spinal interleukin-6 contributes to central sensitisation and persistent pain hypersensitivity in a model of juvenile idiopathic arthritis. Elsevier. https://doi.org/10.1016/j.bbi.2020.08.004
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Relationships between the Firing of Identified Striatal Interneurons and Spontaneous and Driven Cortical Activities In Vivo.
Sharott, A., Doig, N., Mallet, N., & Magill, P. (2012). Relationships between the Firing of Identified Striatal Interneurons and Spontaneous and Driven Cortical Activities In Vivo. Journal Of Neuroscience, 32(38), 13221-13236. http://dx.doi.org/10.1523/jneu...
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ON-OFF receptive fields in auditory cortex diverge during development and contribute to directional sweep selectivity.
Sollini, J., Chapuis, G A., Clopath, C., & Chadderton, C. (2018). ON-OFF receptive fields in auditory cortex diverge during development and contribute to directional sweep selectivity. Nature Communications, 2084(9). https://www.nature.com/article...
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Single neuron activity and c-Fos expression in the rat striatum following electrical stimulation of the peripheral vestibular system.
Stiles, L., Reynolds, J N., Napper, R., Zheng, Y., & Smith, P F. (2018). Single neuron activity and c-Fos expression in the rat striatum following electrical stimulation of the peripheral vestibular system. Physiological Reports, 6(13). https://physoc.onlinelibrary.w...
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Shared rhythmic subcortical GABAergic input to the entorhinal cortex and presubiculum.
Viney, T J., Salib, M., Joshi, A., Unal, G., Berry, N., & Somogyi, P. Shared rhythmic subcortical GABAergic input to the entorhinal cortex and presubiculum. (2018). https://elifesciences.org/arti...
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Microinjection of acetylcholine into cerebellar fastigial nucleus induces blood depressor response in anesthetized rats.
Zhang, C., Luo, W., Zhou, P., & Sun, T. (2016). Microinjection of acetylcholine into cerebellar fastigial nucleus induces blood depressor response in anesthetized rats. Neuroscience Letters, 629, 79-84. http://dx.doi.org/10.1016/j.ne...
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Role of Muscarinic Acetylcholine Receptor-2 in the Cerebellar Cortex in Cardiovascular Modulation in Anaesthetized Rats.
Zhang, C., Sun, T., Zhou, P., Zhu, Q., & Zhang, L. (2015). Role of Muscarinic Acetylcholine Receptor-2 in the Cerebellar Cortex in Cardiovascular Modulation in Anaesthetized Rats. Neurochemical Research, 41(4), 804-812. http://dx.doi.org/10.1007/s110...
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Spread of pathological human Tau from neurons to oligodendrocytes and loss of high-firing pyramidal neurons in aging mice.
Viney, T.J., Sarkany, B., Ozdemir, A.T., Hartwich, K., Schweimer, J., Bannerman, D., and Somogyi, P. (2022). Spread of pathological human Tau from neurons to oligodendrocytes and loss of high-firing pyramidal neurons in aging mice. Cell Rep 41, 111646. https://doi.org/10.1016/j.celr...