Intrinsic signal imaging data and list of reference papers
Mouse In Vivo Intrinsic Optical Signal Imaging (MiCAM ULTIMA-H)
- Sample
- Mouse In Vivo Bain (Somatosensory Barrel Cortex)
- Method
- Piezo Whisker Flick Stimulation
- Imaging System
- MiCAM ULTIMA
- Pixels
- 100x100 pixels
- Frame Rate
- 100fps (10msec/frame)
- Provided by
- Dr.Isabelle Ferezou and Dr.Carl C.H. Petersen, Brain Mind Institute, EPFL, Switzerland
Intrinsic Optical Signal (IOS) imaging
- Acute Ablation of Cortical Pericytes Leads to Rapid Neurovascular Uncoupling.
- Temporal refinement of sensory-evoked activity across layers in developing mouse barrel cortex.
- In vivo imaging and analysis of cerebrovascular hemodynamic responses and tissue oxygenation in the mouse brain.
- Pericyte degeneration leads to neurovascular uncoupling and limits oxygen supply to brain.
- Probing the functional impact of sub-retinal prosthesis.
- Susceptibility of Primary Sensory Cortex to Spreading Depolarizations.
- Orofacial Neuropathic Pain Leads to a Hyporesponsive Barrel Cortex with Enhanced Structural Synaptic Plasticity.
- Sensory-Evoked Intrinsic Imaging Signals in the Olfactory Bulb Are Independent of Neurovascular Coupling.
Flavoprotein Autofluorescence Imaging
- Numerical Analysis of Microcoil-Induced Electric Fields and Evaluation of In vivo Magnetic Stimulation of the Mouse Brain.
- Potentiating a non-neuronal cardiac cholinergic system reinforces the functional integrity of the blood brain barrier associated with systemic anti-inflammatory responses.
- Sound- and current-driven laminar profiles and their application method mimicking acoustic responses in the mouse auditory cortex in vivo.
- In vivo transcranial flavoprotein autofluorescence imaging of tonotopic map reorganization in the mouse auditory cortex with impaired auditory periphery.
- Micromagnetic Stimulation of the Mouse Auditory Cortex In Vivo Using an Implantable Solenoid System.
- Micro-coil-induced Inhomogeneous Electric Field Produces sound-driven-like Neural Responses in Microcircuits of the Mouse Auditory Cortex In Vivo.
- Flavoprotein fluorescence imaging-based electrode implantation for subfield-targeted chronic recording in the mouse auditory cortex.
- Salicylate-induced frequency-map reorganization in four subfields of the mouse auditory cortex.
- Spatiotemporal dynamics of functional clusters of neurons in the mouse motor cortex during a voluntary movement.
Product suitable for this kind of application
- Fluorescence Mesoscope
- THT Series
The THT is a fluorescence widefield mesoscope developed for detecting low light fluorescence that is emitted from biological sample at a low magnicifation. This mesoscope has a very simple optical path combining two large-diameter objective lenses and a custom-made large fluorescent filter
- High Speed Imaging System
- MiCAM03-N256
MiCAM03-N256 is a high-speed imaging system that captures and visualizes small changes in fluorescence intensity from biological samples stained with fluorescent probes, such as voltage sensitive dyes and calcium dyes.
- Spatial Resolution :
-
128x128 - 256x256 pixles
(32x32 pixels - 256x256 pixles with option) - Maximum Frame Rate :
- 1,000fps
(20,000 fps available with option) - Up to 2 camera heads can be used with completely synchronization.