Titlebook: Brain Tumors; Giorgio Seano Book 2021 Springer Science+Business Media, LLC, part of Springer Nature 2021 brain metastases.microscopy.cereb

fiscal

Yixin Chen,Jia Li,James Z. Wangat respond differently to perturbation. The goal of this chapter is to provide readers with detailed methods for generating and applying GBM organoids. In addition, we review the past, present, and future of GBM research to frame the utility of this technology in the broader context of the field.

amplitude

The Information Retrieval Seriesospinning to generate nanofibers to study glioma linear motility in 3D environments. Our goal is to provide the reader with guidelines on how to prepare these substrates and how to image them and to highlight advantages and limitations of the different approaches.

災(zāi)難

In Vivo Models of Brain Metastasesy as possible. This chapter will cover the different methods currently used to establish . models of brain metastasis, which include (1) intracranial, (2) intracarotid, (3) intracardiac, and (4) spontaneous (resected) routes of cancer cell inoculation, with specific human or murine-derived cells or cell lines tailored for different purposes.

fulcrum

Human Glioblastoma Organoids to Model Brain Tumor Heterogeneity Ex Vivoat respond differently to perturbation. The goal of this chapter is to provide readers with detailed methods for generating and applying GBM organoids. In addition, we review the past, present, and future of GBM research to frame the utility of this technology in the broader context of the field.

果核

In Vitro Mechanobiology of Glioma: Mimicking the Brain Blood Vessels and White Matter Tracts Invasioospinning to generate nanofibers to study glioma linear motility in 3D environments. Our goal is to provide the reader with guidelines on how to prepare these substrates and how to image them and to highlight advantages and limitations of the different approaches.

accrete

表示向前

Organotypic Brain Cultures for Metastasis Researchained in vitro. Here, we describe the use of organotypic brain cultures for brain metastasis research, which recapitulate the in vivo phenotype in an ex vivo procedure, and discuss their multiple applications for basic and clinical research, thus providing a useful tool for improving the current landscape of brain metastasis preclinical models.

尊嚴(yán)

Allure

HAVOC