iPSCs in Tissue Engineering
- 1st Edition - August 12, 2021
- Latest edition
- Editor: Alexander Birbrair
- Language: English
The series Advances in Stem Cell Biology is a timely and expansive collection of comprehensive information and new discoveries in the field of stem cell biology. iPSCs… Read more
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Description
Description
The series Advances in Stem Cell Biology is a timely and expansive collection of comprehensive information and new discoveries in the field of stem cell biology.
iPSCs in Tissue Engineering, Volume 11 addresses how induced pluripotent stem cells (iPSCs) are being used to advance tissue engineering.
Somatic cells can be reprogrammed into iPSCs by the expression of specific transcription factors. These cells have been transforming biomedical research over the last 15 years. This book will address the advances in research of how iPSCs are being used for the generation of different tissues and organs such as the lungs, trachea, salivary glands, skeletal muscle, liver, intestine, kidney, even the brain, and much more.
This volume is written for researchers and scientists interested in stem cell therapy, cell biology, regenerative medicine, and tissue engineering and is contributed by world-renowned authors in the field.
iPSCs in Tissue Engineering, Volume 11 addresses how induced pluripotent stem cells (iPSCs) are being used to advance tissue engineering.
Somatic cells can be reprogrammed into iPSCs by the expression of specific transcription factors. These cells have been transforming biomedical research over the last 15 years. This book will address the advances in research of how iPSCs are being used for the generation of different tissues and organs such as the lungs, trachea, salivary glands, skeletal muscle, liver, intestine, kidney, even the brain, and much more.
This volume is written for researchers and scientists interested in stem cell therapy, cell biology, regenerative medicine, and tissue engineering and is contributed by world-renowned authors in the field.
Key features
Key features
- Provides overview of the fast-moving field of stem cell biology and function, regenerative medicine, and therapeutics
- Covers the engineering of the following organs: lungs, trachea, salivary glands, skeletal muscle, liver, intestine, kidney, even the brain, and more
- Is contributed from stem cell leaders around the world
Readership
Readership
Researchers and scientists in stem cell therapy, cell biology, regenerative medicine, and organ transplantation Graduate and undergraduate students in the above fields
Table of contents
Table of contents
1. Pluripotent Stem Cell-derived Brain-Region-Specific Organoids
2. The Construction Of 3D Cognitive Networks Through Precise Spatiotemporal Specification
3. Induced Pluripotent Stem Cells for Vascular Tissue Engineering
4. Induced Pluripotent Stem-Cell-Derived Corneal Grafts and Organoids
5. Induced Pluripotent Stem-Cell-Derived Salivary Glands
6. Induced Pluripotent Stem Cells for Trachea Engineering
7. Looking Back, Moving Forward: The Renaissance, Applications and Vascularization Strategies of Human Induced Pluripotent Stem Cell-Derived Lung Organoids
8. Skeletal Muscle Using Human Induced Pluripotent Stem Cells for In Vitro Disease Modeling
9. iPSC Bioprinting for Musculoskeletal Tissue
10. iPSC-Derived 3D Human Fatty Liver Models
11. iPSC-Derived Intestinal Organoids and Current 3D Intestinal Scaffolds
12. Models of Kidney Glomerulus Derived from Human-Induced Pluripotent Stem Cells
13. Ureteric Bud Structures Generated from Human iPSCs
2. The Construction Of 3D Cognitive Networks Through Precise Spatiotemporal Specification
3. Induced Pluripotent Stem Cells for Vascular Tissue Engineering
4. Induced Pluripotent Stem-Cell-Derived Corneal Grafts and Organoids
5. Induced Pluripotent Stem-Cell-Derived Salivary Glands
6. Induced Pluripotent Stem Cells for Trachea Engineering
7. Looking Back, Moving Forward: The Renaissance, Applications and Vascularization Strategies of Human Induced Pluripotent Stem Cell-Derived Lung Organoids
8. Skeletal Muscle Using Human Induced Pluripotent Stem Cells for In Vitro Disease Modeling
9. iPSC Bioprinting for Musculoskeletal Tissue
10. iPSC-Derived 3D Human Fatty Liver Models
11. iPSC-Derived Intestinal Organoids and Current 3D Intestinal Scaffolds
12. Models of Kidney Glomerulus Derived from Human-Induced Pluripotent Stem Cells
13. Ureteric Bud Structures Generated from Human iPSCs
Product details
Product details
- Edition: 1
- Latest edition
- Published: August 12, 2021
- Language: English
About the editor
About the editor
AB
Alexander Birbrair
Dr. Alexander Birbrair received his bachelor’s biomedical degree from Santa Cruz State University in Brazil. He completed his PhD in Neuroscience, in the field of stem cell biology, at the Wake Forest School of Medicine under the mentorship of Osvaldo Delbono. Then, he joined as a postdoc in stem cell biology at Paul Frenette’s laboratory at Albert Einstein School of Medicine in New York. In 2016, he was appointed faculty at Federal University of Minas Gerais in Brazil, where he started his own lab. His laboratory is interested in understanding how the cellular components of different tissues function and control disease progression. His group explores the roles of specific cell populations in the tissue microenvironment by using state-of-the-art techniques. His research is funded by the Serrapilheira Institute, CNPq, CAPES, and FAPEMIG. In 2018, Alexander was elected affiliate member of the Brazilian Academy of Sciences (ABC), and, in 2019, he was elected member of the Global Young Academy (GYA), and in 2021, he was elected affiliate member of The World Academy of Sciences (TWAS). He is the Founding Editor and Editor-in-Chief of Current Tissue Microenvironment Reports, and Associate Editor of Molecular Biotechnology. Alexander also serves in the editorial board of several other international journals: Stem Cell Reviews and Reports, Stem Cell Research, Stem Cells and Development, and Histology and Histopathology.
Affiliations and expertise
Department of Pathology, Federal University of Minas Gerais, Belo Horizonte, Minas Gerais, Brazil
Department of Radiology, Columbia University Medical Center, Medical Center, USAView book on ScienceDirect
View book on ScienceDirect
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