Intravital Longitudinal Imaging of Vascular Dynamics in the Calvarial Bone Marrow

Intravital longitudinal fluorescence microscopy imaging has emerged as a crucial technique for studying dynamic biological processes, notably in the context of tissue regeneration, tumor development, and therapeutic responses.

Particularly, the calvarial bone marrow is a highly dynamic tissue, where the hematopoietic fate is interconnected with the surrounding microenvironment, with specialized vessels responding to normal and pathologic hematopoiesis.

Traditional imaging of fixed tissues offers static information, often limiting a comprehensive understanding of these processes.

The integration of transgenic animals expressing cell-specific markers, live cell tracers, advancements in imaging equipment, and the use of specialized chambers has elevated intravital microscopy to a pivotal tool for gaining insights into dynamic biological phenomena.

One application of intravital imaging is the investigation of tumor vessel behavior and therapeutic effects. A newly designed 3D-printed titanium head fixation implant can be stably connected to the mouse skull and is suitable for longitudinal imaging during multiple sessions.

The proposed protocol allows for the spatial and temporal examination of vascular dynamics in the calvarial bone marrow, including visualization and quantification of vascular heterogeneity, interaction with stromal and hematopoietic cells, and measurement of vascular functional parameters.

Additionally, the technique enables the visualization of established vascular beds and the monitoring of therapeutic effects, stem cell mobilization, and the localization of chemotherapeutic compounds over time using two-photon microscopy.

Overall, this intravital longitudinal imaging protocol provides a comprehensive platform for investigating both tumor vessel behavior and hematopoietic cell dynamics, offering valuable insights into the intricate processes governing these biological phenomena.

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