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Engineering Translational Models of Lung Homeostasis and Disease

  • Book
  • © 2023

Overview

Editors:
  1. Chelsea M. Magin

    1. University of Colorado, Denver | Anschutz Medical Campus, Aurora, USA

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  • Each section focuses on a specific region of the lung and presents both the biological & clinical perspective
  • Covers the interface of engineering and the lung between lung physiology and engineering
  • Highlights emerging new models to study lung stem cells and regeneration

Part of the book series: Advances in Experimental Medicine and Biology (AEMB, volume 1413)

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Table of contents (18 chapters)

  1. Front Matter

    Pages i-x
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  2. An Introduction to Engineering and Modeling the Lung

    • Alicia E. Tanneberger, Daniel J. Weiss, Chelsea M. Magin
    Pages 1-13

  3. Engineering and Modeling the Developing Lung

    1. Front Matter

      Pages 15-15
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    2. Simple Models of Lung Development

      • Charlotte H. Dean, Sek-Shir Cheong
      Pages 17-28

    3. Lung Development in a Dish: Models to Interrogate the Cellular Niche and the Role of Mechanical Forces in Development

      • Brea Chernokal, Cailin R. Gonyea, Jason P. Gleghorn
      Pages 29-48

    4. Multipotent Embryonic Lung Progenitors: Foundational Units of In Vitro and In Vivo Lung Organogenesis

      • Laertis Ikonomou, Maria Yampolskaya, Pankaj Mehta
      Pages 49-70Open Access

  4. Engineering and Modeling Large Airways

    1. Front Matter

      Pages 71-71
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    2. Basic Science Perspective on Engineering and Modeling the Large Airways

      • Lalit K. Gautam, Noa C. Harriott, Adrian M. Caceres, Amy L. Ryan
      Pages 73-106

    3. Computational, Ex Vivo, and Tissue Engineering Techniques for Modeling Large Airways

      • Rebecca L. Heise
      Pages 107-120

    4. Engineering Large Airways

      • Tehreem Khalid, Cian O’Leary
      Pages 121-135

  5. Engineering and Modeling the Mesenchyme and Parenchyma

    1. Front Matter

      Pages 137-137
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    2. Engineering and Modeling the Lung Mesenchyme

      • Melinda E. Snitow, Fatima N. Chaudhry, Jarod A. Zepp
      Pages 139-154

    3. Engineering Dynamic 3D Models of Lung

      • Rachel Blomberg, Rukshika S. Hewawasam, Predrag Å erbedžija, Kamiel Saleh, Thomas Caracena, Chelsea M. Magin
      Pages 155-189

    4. Lung-on-a-Chip Models of the Lung Parenchyma

      • Pauline Zamprogno, Jan Schulte, Dario Ferrari, Karin Rechberger, Arunima Sengupta, Lisette van Os et al.
      Pages 191-211

    5. Assessment of Collagen in Translational Models of Lung Research

      • Claudia A. Staab-Weijnitz, Ceylan Onursal, Deepika Nambiar, Roberto Vanacore
      Pages 213-244

  6. Engineering and Modeling the Pulmonary Vasculature

    1. Front Matter

      Pages 245-245
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    2. Understanding and Engineering the Pulmonary Vasculature

      • Wai Hoe Ng, Barbie Varghese, Xi Ren
      Pages 247-264

    3. An Overview of Organ-on-a-Chip Models for Recapitulating Human Pulmonary Vascular Diseases

      • Trieu Nguyen, Fakhrul Ahsan
      Pages 265-272

    4. Clinical Translation of Engineered Pulmonary Vascular Models

      • Yifan Yuan
      Pages 273-288

  7. Engineering and Modeling the Interface Between Medical Devices and the Lung

    1. Front Matter

      Pages 289-289
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Keywords

About this book

Cutting-edge engineering approaches towards modelling lung homeostasis and disease have created dynamic new opportunities for interdisciplinary collaboration and unprecedented progress toward understanding and treating lung disease. This text connects established research in lung biology and physiology to innovative engineering strategies for pulmonary modelling. This unique approach aims to encourage and facilitate progress among a greater audience of basic and translational scientists, clinicians, and medical practitioners. 

Engineering Translational Models of Lung Homeostasis and Disease illustrates the advances in lung tissue characterization, revealing dynamic changes in the structure, mechanics, and composition of the extracellular matrix. This information paves the way for tissue-informed engineering models of pulmonary tissue, improved design of clinical materials, and advances against a variety of common pathologies. Current translational challenges arehighlighted, as are engineering opportunities to overcome these barriers. This foundational text holds valuable lessons for researchers and clinicians throughout the fields of engineering, materials science, cell biology, pulmonary medicine, and clinical science.

·         Each section focuses on a specific region of the lung, presenting either the biological or clinical perspective along with complimentary engineering approaches

 

·         Covers the interface of engineering and lung biology

 

·         Highlights emerging new models to study lung disease and repair

Chapter 4 is available openaccess under a Creative Commons Attribution 4.0 International License via link.springer.com


Editors and Affiliations

  • University of Colorado, Denver | Anschutz Medical Campus, Aurora, USA

    Chelsea M. Magin

About the editor

Dr. Chelsea Magin is an Assistant Professor in the Department of Bioengineering, Department of Pediatrics, and the Division of Pulmonary Sciences and Critical Care Medicine in the Department of Medicine at the University of Colorado, Denver | Anschutz Medical Campus. Dr. Magin leads a laboratory that engineers biomaterials for translational studies of lung disease and repair.



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