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Literature DB >> 19617885

Long-term, high-resolution imaging in the mouse neocortex through a chronic cranial window.

Anthony Holtmaat¹, Tobias Bonhoeffer, David K Chow, Jyoti Chuckowree, Vincenzo De Paola, Sonja B Hofer, Mark Hübener, Tara Keck, Graham Knott, Wei-Chung A Lee, Ricardo Mostany, Tom D Mrsic-Flogel, Elly Nedivi, Carlos Portera-Cailliau, Karel Svoboda, Joshua T Trachtenberg, Linda Wilbrecht.

Abstract

To 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 (approximately 0.8-12 mm(2)). The surgical procedure can be completed within approximately 1 h. The preparation allows imaging over time periods of months with arbitrary imaging intervals. The large size of the imaging window facilitates imaging of ongoing structural plasticity of small neuronal structures in mice, with low densities of labeled neurons. The entire dendritic and axonal arbor of individual neurons can be reconstructed.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Luminescent Proteins

Year: 2009 PMID： 19617885 PMCID： PMC3072839 DOI： 10.1038/nprot.2009.89

Source DB: PubMed Journal: Nat Protoc ISSN： 1750-2799 Impact factor: 13.491

52 in total

Long-term, high-resolution imaging in the mouse neocortex through a chronic cranial window.

1. Neocortex patterning by the secreted signaling molecule FGF8.

2. A miniature head-mounted two-photon microscope. high-resolution brain imaging in freely moving animals.

3. Dendritic stability in the adult olfactory bulb.

4. Systematic regulation of spine sizes and densities in pyramidal neurons.

5. Long-term in vivo imaging of experience-dependent synaptic plasticity in adult cortex.

6. AMPA receptors regulate dynamic equilibrium of presynaptic terminals in mature hippocampal networks.

7. Fibrillar amyloid deposition leads to local synaptic abnormalities and breakage of neuronal branches.

8. Two-photon laser scanning fluorescence microscopy.

9. Long-term dendritic spine stability in the adult cortex.

10. ScanImage: flexible software for operating laser scanning microscopes.

1. Delayed stabilization of dendritic spines in fragile X mice.

2. Characterization and adaptive optical correction of aberrations during in vivo imaging in the mouse cortex.

3. Chronic imaging of cortical sensory map dynamics using a genetically encoded calcium indicator.

4. Notch4 normalization reduces blood vessel size in arteriovenous malformations.

5. Precision mapping of the vibrissa representation within murine primary somatosensory cortex.

6. Neuronal plasticity and antidepressant actions.

Review 7. Technologies for imaging neural activity in large volumes.

Review 8. Improving data quality in neuronal population recordings.

9. In vivo two-photon imaging of experience-dependent molecular changes in cortical neurons.

10. Longitudinal in vivo two-photon fluorescence imaging.