The Historical Overview of Stem Cells
Page: 1-17 (17)
Author: Leisheng Zhang*, Hao Yu, Wenjing Du, Shuang Chen, Yuan-guang Zhao, Jun Yao* and Cunrong Chen
DOI: 10.2174/9789815196627124010004
PDF Price: $15
Abstract
Stem cells of hierarchical clustering have emerged as alternative and
promising sources for tissue engineering and regenerative medicine. Owing to the
unique self-renewal and multi-lineage differentiation attributes, stem cell-based
cytotherapy has evoked great expectations in handling numerous refractory and
recurrent diseases. Of note, quality control (QC), good manufacturing practice (GMP),
and guidelines for stem cells and the derivations are prerequisites for evaluating the
safety and efficacy of stem cell-based remedies. In this book, we principally focus on
the definition, classification, signatures and functions, safety and efficacy of stem cells,
together with the core concerns upon stem cell-based clinical applications and
investigational new drug (IND) and new drug application (NDA). Collectively, this book will effectively benefit the novel stem cell-based tissue engineering and
regenerative medicine.
Biomaterials and Stem Cells
Page: 18-28 (11)
Author: Leisheng Zhang*, Xiaodong Xu, Rucai Zhan, Shuang Chen, Shixun Ma, Yuanguang Zhao, Zhihai Han, Xianghong Xu, Yonghong Li, Miao Yu, Tiankang Guo, Hui Cai, Hao Yao* and Ping Wang*
DOI: 10.2174/9789815196627124010005
PDF Price: $15
Abstract
Longitudinal studies have indicated the involvement and performance of
multitudinous biomaterials for stem cell-based cytotherapy and regenerative medicine
largely attribute to their specific biocompatibility. Currently, stem cells and biomaterial
scaffolds have been considered as the two essential elements of the cornerstone of
tissue engineering. On the one hand, biomaterials are beneficial to provide suitable
microenvironments for enhancing the cellular vitality and therapeutic effect of stem
cells. On the other hand, biomaterial-induced fibrosis and inflammation remain a
prominent challenge in designing and synthesizing appropriate materials to facilitate
tissue repair and organ regeneration. In this book chapter, we summarize the classification and physicochemical properties of the indicated biomaterials, and appraise the
latest literatures of biomaterial and stem cell composite for broad biomedical
applications in tissue engineering and regenerative medicine. Collectively, we
retrospect the current advancement of biomaterial engineering and science, and
highlight the multifaceted biomaterial-assisted stem cell-based tissue engineering and
regenerative medicine, and in particular, the biomaterial-based composites with
mesenchymal stem/stromal cells (MSCs) and the derivatives (e.g., exosomes, small
microvesicles) for intractable disease administration.
Hematopoietic Stem Cells in Regenerative Medicine
Page: 29-57 (29)
Author: Leisheng Zhang*, Xiaorong Bai, Shan Huang, Jiechao Ma, Yuan Meng, Xiaoming Feng, Tiankang Guo* and Hui Cai*
DOI: 10.2174/9789815196627124010006
PDF Price: $15
Abstract
Hematopoietic stem cells (HSCs) are a common origin of blood cells and the
intermediate progenitor cells and precursor cells including the myeloid or lymphoid
lineages, which are the footstones of short-term and long-term blood regeneration.
HSCs are precisely orchestrated by the constituents in the hematopoietic
microenvironment in the bone marrow niches such as stromal cells, immune cells, and
cytokines. The dysfunction and genetic variations of HSCs might lead to hematopoietic
abnormality, haematopoietic equilibrium and even hematologic malignancies.
Meanwhile, the cellular and molecular mechanisms of HSC maintenance and
differentiation according to the niche are of great importance for disease administration
via hematopoietic stem cell transplantation (HSCT). In the chapter, we mainly focus on the works of literature on the definition, biological phenotypes, preclinical
investigation and clinical trials of HSCs, which will collectively facilitate the clinical
application of HSCT and the relative regenerative medicine for hematological diseases
and immune diseases in future.
Neural Stem Cells in Tissue Engineering
Page: 58-71 (14)
Author: Leisheng Zhang*, Xiaowei Gao, Hongjun Chen, Yimeng Wei, Ping Wang* and Chaohui Zheng*
DOI: 10.2174/9789815196627124010007
PDF Price: $15
Abstract
Neural stem cells (NSCs) are unique subsets of stem cells with self-renewal
and multiple lineage differentiation potential, which are considered promising cell
sources for neuron generation and complex cognitive and sensory functions, and the
resultant NSC-based cryotherapy for regenerative purposes. Of them, distinguished
from the small amount of activated subset, most of the NSCs are maintained in the
quiescent state and reveal a low level of metabolic activity but a high sensitivity to the
environment. The dynamic balance between quiescence and the activity of NSCs
determines both the efficiency of neurogenesis and the long-term maintenance and
self-renewal of the NSC pool as well as the neurogenic capacity of the brain. In this
chapter, we mainly review the classification and biofunction of NSCs, and introduce
the significant progress in the understanding of NSC-based applications and the
underlying molecular mechanism for NSC quiescence, the dysfunction in neurogenesis,
and the pathogenesis of neurological disorders. Collectively, these data will facilitate the development of NSC-based cytotherapy for a broad spectrum of refractory and
recurrent diseases in the future.
Biomaterials and Mesenchymal Stem Cells
Page: 72-143 (72)
Author: Leisheng Zhang*, Bin Li, Hao Yao, Zongjin Li and Chenxi Ouyang*
DOI: 10.2174/9789815196627124010008
PDF Price: $15
Abstract
Mesenchymal stem/stromal cells are splendid cell sources for tissue
engineering and regenerative medicine attributed to the unique hematopoietic-support
and immunomodulatory properties as well as the multi-dimensional differentiation
potential towards adipocytes, osteoblasts, and chondrocytes in vitro and in vivo. To
date, MSCs have been identified from various approaches, such as perinatal tissues,
and adult tissues, and even derived from human pluripotent stem cells (hPSCs).
Longitudinal studies have indicated the ameliorative effect and therapeutic efficacy
upon a variety of refractory and recurrent disorders such as acute-on-chronic liver
failure (ACLF), acute myeloid leukemia (ACLF), premature ovarian failure (POF), and
intractable wounds. To date, MSCs have been a to have various origins, including
mesoderm, endoderm and ectoderm. In this chapter, we mainly focus on the concepts,
and biological and therapeutic properties of MSCs, together with the standardizations
for industrial transformation. Overall, the descriptions would help promote a better understanding of MSCs in disease pathogenesis and management and benefit the
preclinical and clinical applications in the future.
Stem Cells-Based Technological Innovation in Tissue Engineering
Page: 144-159 (16)
Author: Leisheng Zhang*, Dong Zhang, Wenjing Miao, Zhihai Han, Xianghong Xu, Hongju Yang* and Baoquan Song*
DOI: 10.2174/9789815196627124010009
PDF Price: $15
Abstract
Stem cells are a category of cells with self-renewal and multi-lineage
differentiation capacity, which have been recognized as advantaged sources for tissue
engineering and regenerative medicine. To date, stem cells and their derivatives alone
or combined with biomaterials have aroused extensive and sustained attention to
investigations in the field of fundamental research and clinical practice. In recent years,
a series of novel technologies have been involved in stem cell-based cytotherapy, such
as three-dimensional (3D) printing, organoid research, and multitudinous kinds of
gene-editing technologies, which collectively facilitate the development of tissue
engineering for disease administration. In this chapter, we summarized the rudimentary
knowledge of the aforementioned new technologies, together with the promising
perspective and the concomitant challenges, which would help increase the cognition
of technological innovation for stem cell-based investigations and remedies in the
future.
MSCs as Biological Drugs: From Manufacturing to Commercialization
Page: 160-173 (14)
Author: Hao Yu, Xiaonan Yang, Meng Zhao and Leisheng Zhang*
DOI: 10.2174/9789815196627124010010
PDF Price: $15
Abstract
Mesenchymal stem/stromal cells (MSCs) can be used as a therapeutic agent
in regenerative medicine, owing to their unique self-renewal, multi-lineage
differentiation, and immunoregulation properties. The manufacturing of authorized
MSC products should depend on good manufacturing practices (GMP), Good
Laboratory Practice (GLP), and Good Clinical Practice (GCP). Until now, many
biotech companies have invested in developing the clinical application of MSC product
all over the world. Meanwhile, the application of MSC products for human use must
comply with regulations and guidance for a biotech company. In this chapter, we
discuss the process and development of MSC products from production-manufacturing
to commercialization.
Introduction
Stem cells with self-renewal and multi-lineage differentiation potential have potential for developing medicines for a range of refractory and recurrent disease. This book mainly focuses on the landscape of the biological properties and translational research of stem cells types, including hematopoietic stem cells (HSCs), neural stem cells (NSCs) and mesenchymal stem/stromal cells (MSCs). The book also introduces readers to the current updates and development prospects of stem cells in singular or combination therapies with advanced biomaterials and technological innovations towards large-scale standardization and productization. Key Features: - Introduces readers to stem cell biology and tissue engineering - Covers innovations in stem cell therapy and biomaterials - Includes a brief guide to commercialization of stem cell technology - Includes references for advanced readers The contents will strengthen the reader’s understanding of stem cell-based therapies. This book is a primer on stem cell and regenerative medicine for a wide readership including students, healthcare professionals, researchers and general readers.