Add to ORKGTo understand the cellular and circuit mechanisms of experience-dependent plasticity, neurons and their synapses need to be studied in the intact brain over extended periods of time. Two-photon excitation laser scanning microscopy (2PLSM), together with expression of fluorescent proteins, enables high-resolution imaging of neuronal structure in vivo. In this protocol we describe a chronic cranial window to obtain optical access to the mouse cerebral cortex for long-term imaging. A small bone flap is replaced with a coverglass, which is permanently sealed in place with dental acrylic, providing a clear imaging window with a large field of view (similar to 0.8-12 mm(2)). The surgical procedure can be completed within similar to 1 h. The prepa...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon excitation scanning microscopy has sev-eral advantages for imaging brain cells and other ...
Chronic in vivo imaging and electrophysiology are important for better understanding of neural funct...
To understand the cellular and circuit mechanisms of experience-dependent plasticity, neurons and th...
The rich structural dynamics of axonal arbors and neuronal circuitry can only be revealed through di...
Introduction Structural plasticity with synapse formation and elimination is a key component of m...
In the mammalian cortex, neurons form extremely complicated networks and exchange information at syn...
International audienceSignificance: All functional brain imaging methods have technical drawbacks an...
The fluorescence microscope has been widely used to explore dynamic processes in vivo in mouse brain...
Time-lapse in vivo imaging of neuronal structures is critical for understanding the assembly of neur...
Two-photon microscopy is a fundamental tool for neuroscience as it permits investigation of the brai...
Recently, two-photon microscopy has been used for high spatial resolution imaging of the intact neoc...
<div><p>Growing interest in long-term visualization of cortical structure and function requires meth...
Two-photon microscopy has been used to perform high spatial resolution imaging of spine plasticity i...
SummaryTwo-photon imaging of cortical neurons in vivo has provided unique insights into the structur...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon excitation scanning microscopy has sev-eral advantages for imaging brain cells and other ...
Chronic in vivo imaging and electrophysiology are important for better understanding of neural funct...
To understand the cellular and circuit mechanisms of experience-dependent plasticity, neurons and th...
The rich structural dynamics of axonal arbors and neuronal circuitry can only be revealed through di...
Introduction Structural plasticity with synapse formation and elimination is a key component of m...
In the mammalian cortex, neurons form extremely complicated networks and exchange information at syn...
International audienceSignificance: All functional brain imaging methods have technical drawbacks an...
The fluorescence microscope has been widely used to explore dynamic processes in vivo in mouse brain...
Time-lapse in vivo imaging of neuronal structures is critical for understanding the assembly of neur...
Two-photon microscopy is a fundamental tool for neuroscience as it permits investigation of the brai...
Recently, two-photon microscopy has been used for high spatial resolution imaging of the intact neoc...
<div><p>Growing interest in long-term visualization of cortical structure and function requires meth...
Two-photon microscopy has been used to perform high spatial resolution imaging of spine plasticity i...
SummaryTwo-photon imaging of cortical neurons in vivo has provided unique insights into the structur...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon excitation scanning microscopy has sev-eral advantages for imaging brain cells and other ...
Chronic in vivo imaging and electrophysiology are important for better understanding of neural funct...