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Multi-Parametric Live Cell Microscopy of 3D Tissue Models

  • Book
  • © 2017

Overview

Editors:
  1. Ruslan I. Dmitriev

    1. Metabolic Imaging Group, School of Biochemistry and Cell Biology, University College Cork, Cork, Ireland

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  • Provides easy-to-follow protocols for specialists in cancer biology and tissue engineering
  • Details current achievements in design and application of probes, dye, and nanoparticles as well as sensors for live cell imaging of 3D tissue models
  • Consolidates cross-disciplinary knowledge of modern microscopy with tissue engineering approaches
  • Includes supplementary material: sn.pub/extras

Part of the book series: Advances in Experimental Medicine and Biology (AEMB, volume 1035)

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Table of contents (12 chapters)

  1. Front Matter

    Pages i-xi
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  2. Introduction: 3D Tissue Models, Methodology and Toolkit

    1. Front Matter

      Pages 1-1
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    2. Current State-of-the-Art 3D Tissue Models and Their Compatibility with Live Cell Imaging

      • Katie Bardsley, Anthony J. Deegan, Alicia El Haj, Ying Yang
      Pages 3-18

    3. Simultaneous Phosphorescence and Fluorescence Lifetime Imaging by Multi-Dimensional TCSPC and Multi-Pulse Excitation

      • Wolfgang Becker, Vladislav Shcheslavskiy, Angelika Rück
      Pages 19-30

    4. Quantitative Live Cell FLIM Imaging in Three Dimensions

      • Alix Le Marois, Klaus Suhling
      Pages 31-48

    5. Three-Dimensional Tissue Models and Available Probes for Multi-Parametric Live Cell Microscopy: A Brief Overview

      • Neil O’Donnell, Ruslan I. Dmitriev
      Pages 49-67

  3. Manufacturing

    1. Front Matter

      Pages 69-69
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    2. Fabrication and Handling of 3D Scaffolds Based on Polymers and Decellularized Tissues

      • Anastasia Shpichka, Anastasia Koroleva, Daria Kuznetsova, Ruslan I. Dmitriev, Peter Timashev
      Pages 71-81

  4. Application Methods and Protocols

    1. Front Matter

      Pages 83-83
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    2. Multi-Parametric Imaging of Hypoxia and Cell Cycle in Intestinal Organoid Culture

      • Irina A. Okkelman, Tara Foley, Dmitri B. Papkovsky, Ruslan I. Dmitriev
      Pages 85-103

    3. Imaging of Intracellular pH in Tumor Spheroids Using Genetically Encoded Sensor SypHer2

      • Elena V. Zagaynova, Irina N. Druzhkova, Natalia M. Mishina, Nadezhda I. Ignatova, Varvara V. Dudenkova, Marina V. Shirmanova
      Pages 105-119

    4. Application of Fluorescence Lifetime Imaging (FLIM) to Measure Intracellular Environments in a Single Cell

      • Takakazu Nakabayashi, Kamlesh Awasthi, Nobuhiro Ohta
      Pages 121-133

    5. Quantitative Imaging of Ca2+ by 3D–FLIM in Live Tissues

      • Asylkhan Rakymzhan, Helena Radbruch, Raluca A. Niesner
      Pages 135-141

    6. Live Cell Imaging of Viscosity in 3D Tumour Cell Models

      • Marina V. Shirmanova, Lubov’ E. Shimolina, Maria M. Lukina, Elena V. Zagaynova, Marina K. Kuimova
      Pages 143-153

    7. Live Imaging of Cell Invasion Using a Multicellular Spheroid Model and Light-Sheet Microscopy

      • Marco Marcello, Rosalie Richards, David Mason, Violaine Sée
      Pages 155-161

    8. Raman Imaging Microscopy for Quantitative Analysis of Biological Samples

      • Shinji Kajimoto, Mizuki Takeuchi, Takakazu Nakabayashi
      Pages 163-172
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Keywords

About this book

This book provides an essential overview of existing state-of-the-art quantitative imaging methodologies and protocols (intensity-based ratiometric and FLIM/ PLIM). A variety of applications are covered, including multi-parametric quantitative imaging in intestinal organoid culture, autofluorescence imaging in cancer and stem cell biology, Ca2+ imaging in neural ex vivo tissue models, as well as multi-parametric imaging of pH and viscosity in cancer biology. The current state-of-the-art of 3D tissue models and their compatibility with live cell imaging is also covered. This is an ideal book for specialists working in tissue engineering and designing novel biomaterial.

Editors and Affiliations

  • Metabolic Imaging Group, School of Biochemistry and Cell Biology, University College Cork, Cork, Ireland

    Ruslan I. Dmitriev

About the editor

Ruslan I. Dmitriev graduated from Lomonosov Moscow State Academy of Fine Chemical Technology (MSc) and Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry (PhD, 2008), where he studied membrane ion-transporting proteins and protein interactions. He trained as postdoc at University College Cork, focusing on cell metabolism, hypoxia research and development and biological applications of cell-penetrating phosphorescent probes for molecular oxygen. Since 2014, he leads Metabolic Imaging group at University College Cork, where he designs novel biocompatible FLIM and PLIM biosensors for 3D tissue models for regenerative medicine and cancer biology.

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