Real-Time and 3D Quantification of Cancer Cell Dynamics: Exploiting a Bioengineered Human Bone Metastatic Microtissue
Male
570
Intravital Microscopy
Cell Culture Techniques
Cancer cell
Antineoplastic Agents
Bone Neoplasms
Bone and Bones
Metastasis
Spatio-Temporal Analysis
Cell Movement
Cell Line, Tumor
Cell Adhesion
Image Processing, Computer-Assisted
Cancer model
Humans
Cell migration
Bone
Live cell imaging
Cell Proliferation
Cell dynamics
Microscopy, Confocal
Osteoblasts
Tissue Engineering
Morphometry
Prostatic Neoplasms
3. Good health
Luminescent Proteins
Tumor microenvironment
Drug Screening Assays, Antitumor
Software
Microtissue
DOI:
10.1007/978-1-4939-9769-5_3
Publication Date:
2019-09-03T08:21:27Z
AUTHORS (2)
ABSTRACT
The study of dynamic processes in the bone metastatic compartment has been challenged by the restrictive access and limited live imaging capabilities that in vivo bone models provide. In this protocol, we show the use of a human bone metastatic bioengineered microtissue for the quantitative investigation of cancer cells in an in vitro bone-like microenvironment. Using live cell epifluorescence microscopy, traditional- and spinning disc-confocal laser scanning microscopy, we demonstrate how to obtain multidimensional real-time data of fluorescently labeled cancer cells in the metastatic microenvironment. Using 4D imaging data processing software such as ImageJ and Imaris, we show how to transform qualitative images and videos into quantitative data of cancer cell attachment, morphology, proliferation, and migration in vitro in the human bone metastatic microtissue.
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CITATIONS (2)
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