幹細胞的相關最新動向 是由出版商Insight Pharma Reports在2008年11月所出版的。
這份英文市場調查報告書包含200 pages 價格從美金2995起跳。
此報告書中彙整了幹細胞技術的現狀與應用領域、規定的障壁、商業性預測等最新動向。報告書之內容摘要如下所示。
第1章 說明
- 幹細胞科學與技術現狀
- 在日常開發中的幹細胞
- 從幹細胞科學邁向技術
第2章 技術環境
第3章 應用
- 創藥與創新藥開發
- 反覆發病的幹細胞
- 治療
- 3種治療法
第4章 商業上的洞察
- 財政
- 規定的障壁
- 行銷的問題
- 智慧財產權
- 一般對於幹細胞技術的認知
- 根據誇大不實廣告與錯誤情報的醫療保健旅行
- 生物倫理問題
- 政策收集
第5章 專家訪談
第6章 企業簡介
參考情報
用語解說
企業索引
Abstract
Report Overview
Commercialization of stem cells can potentially help to treat an astounding
variety of medical conditions. After a slow start, the stem cell age is
finally poised to begin, as numerous factors converge to catapult stem cell
technology into the medical mainstream.
This report considers:
- The current state of stem cell science and technology
- Supplies and services
- Major applications of stem cell science
- Sources of funding, regulatory hurdles, and the commercial outlook
- IP challenges, public perception, bioethical concerns, and diversity in
policies
Stem cell science is on the precipice of becoming big business. These
enigmatic cells lie at the heart of a fledgling technology with great clinical
promise. Stem Cells Come of Age analyzes the current state of stem cell
science and technology, and explores some of the non-scientific issues that
are part of the emerging, complex, stem cell picture. We begin by tracing the
experiments that set the stage for today' s stem cell technology, as well as
examining the state of “stemness” and factors outside the genome
that affect cell fate. Human embryonic stem (ES) and induced pluripotent stem
(iPS) cells are contrasted - while each can become any cell type of the body
(i.e., are pluripotent), each has its own niche.
We consider the technological landscape, continuing our look at ES and iPS
cells with a description of many types of multipotent, or “adult,”
stem cells, which are more restricted in their fates, and how we might use
them. We cover the care and feeding of stem cells - their isolation,
derivation, culture, and characterization. We explore how stem cells fit into
tissue engineering, and then consider suppliers of reagents, devices, and
materials.
Stem Cells Come of Age highlights three major applications of stem cell
science. In drug discovery and development, stem cells are being used to
identify novel drug targets, describe the earliest inklings of disease, and
reveal disease subtypes. ES and iPS cells will be particularly valuable in the
second major arena for stem cell science, recapitulating pathogenesis in
vitro. In the third area, therapeutics, we take a closer look at three
therapeutic goals: treating the failing heart, cancer, and eye diseases.
We present a commercial outlook, looking at a mix of areas that are critical
to the translation of stem cell science from bench to bedside. Pharma is just
beginning to fund stem cell research at academic centers and biotech
companies, and venture capitalists are on the lookout for researchers who can
succinctly pitch a stem cell-based product or service.
Expert roundtables and exclusive interviews offer the voices of those in the
field of stem cell research. These conversations reveal how the people who
invented the enabling technologies and have done groundbreaking experiments
think and share ideas. Finally, we profile a handful of companies that work
with stem cells or supply the tools of the trade, selected for their diversity.
Table of Contents
Chapter - 1
- INTRODUCTION
- 1.1. The State of Stem Cell Science and Technology
- Types of Stem Cells
- Stem Cell R&D
- 1.2. Stem Cells in Normal Development
- From Fertilized Ovum to Multicellular Organism
- Defining Characteristics of Stem Cells
- 1.3. From Stem Cell Science to Technology
- Early Thoughts on Reprogramming and Cloning
- The Origin of Embryonic Stem (ES) Cells
- The State of Stemness
- “PluriNet,” the Regulatory Network behind Pluripotency
- Epigenetics and MicroRNAs
- Induced Pluripotent Stem (iPS) Cells
- The Future: hES or iPS Cells?
- Medical Tourism: Protecting Healthcare Consumers
Chapter - 2
- THE TECHNOLOGICAL LANDSCAPE
- 2.1. Adult (Tissue-Specific) Stem Cells
- Reproductive Structures and Prenatal Tissues
- Postnatal Tissues
- Hematopoietic Stem Cells (HSCs)
- Mesenchymal Stem Cells (MSCs)
- Perivascular Stem Cells (“Pericytes”)
- Neural Stem and Progenitor Cells
- 2.2. Tools and Technologies in Context
- Culturing ES Cells
- Characterizing ES Cells
- Maintaining or Differentiating ES Cells
- Umbilical Cord Stem Cells to Treat Bronchopulmonary Dysplasia
- 2.3. Tissue Engineering
- Different Tissues, Different Challenges
- Cells + ECM
- Hydrogels
- 2.4. Supplies and Services
- The Care and Feeding of Stem Cells: Media, Markers, and Matrix
- Cells for Sale (or Free)
Chapter - 3
- APPLICATIONS
- 3.1. Drug Discovery and Development
- Identifying New - and Not So New - Drug Targets
- Targeting the Pre-manifest Stage of Disease
- Revealing Disease Subtypes
- Toxicology
- 3.2. Stem Cells to Recapitulate Disease
- 3.3. Therapeutics
- 3.4. A Trio of Therapeutics
- The Failing Heart
- Cancer Stem Cells
- The Eye
Chapter - 4
- COMMERCIAL OUTLOOK
- 4.1. Funding
- Pharma Comes on Board
- Venture Capital
- 4.2. Regulatory Hurdles
- 4.3. Marketing Concerns
- 4.4. Intellectual Property
- Human ES Cells: The WARF Patents
- Adult Stem Cells: Patenting Neurospheres
- iPS Cells: Donor Sources
- 4.5. Public Perception of Stem Cell Technology
- 4.6. Hype and False Hope Breed Medical Tourism
- 4.7. Bioethical Concerns
- Medical Tourism Revisited
- Protecting Cell Donors
- Stem Cell Banks
- 4.8. A Policy Patchwork
- Global Policy
- The United States: A Closer Look
Chapter - 5
- EXPERT INTERVIEWS
- 5.1. Expert Roundtable 1: Induced Pluripotent (iPS) Cells
- Participants: George Daley, MD, PhD, past president of ISSCR and
associate in medicine at Children' s Hospital Boston; Shinya Yamanaka, MD,
PhD, senior investigator, Gladstone Institute of Cardiovascular Disease and
the L.K. Whittier Foundation Investigator in stem cell biology and professor
of anatomy at the University of California, San Francisco and director,
Center for iPS Cell Research and Application and professor, Institute for
Frontier Medical Sciences, Kyoto University, Japan; Kathrin Plath, PhD,
assistant professor at UCLA; Rudolf Jaenisch, MD, member of the Whitehead
Institute and a professor of biology at MIT (Cambridge, MA); Junying Yu,
PhD, assistant scientist in James Thomson' s lab at the University of
Wisconsin in Madison; Sir Ian Wilmut, PhD, director of the Centre for
Regenerative Medicine at the Queen' s Medical Research Institute, University
of Edinburgh.
- 5.2. Expert Roundtable 2: Stem Cells - From Bench to Bedside
- Participants: Katherine A. High, MD, professor of pediatrics at the
University of Pennsylvania School of Medicine and director of the Center for
Cellular and Molecular Therapeutics at The Children' s Hospital of
Philadelphia; Giulio Cossu, MD, director of the Stem Cell Research
Institute, San Raffaele Scientific Institute, Milan; Judy Lieberman, MD,
PhD, senior investigator at the Immune Disease Institute, professor of
pediatrics, and director, division of AIDS, all at Harvard Medical School;
Alok Srivastava, MD, head of the department of hematology at Christian
Medical College (Vellore, India).
- 5.3. Interview with Dennis Steindler, PhD
- Executive Director, the Evelyn F. and William L. McKnight Brain
Institute, University of Florida in Gainesville
- 5.4. Interview with Sally Temple, PhD
- Scientific Director, the New York Neural Stem Cell Institute
- Professor, Albany Medical College and the University at Albany
- 5.5. Interview with Amy Wagers, PhD
- Investigator, Joslin Diabetes Center
- Assistant Professor of Pathology, Harvard Medical School
Chapter - 6
- SELECTED COMPANY PROFILES
- 6.1. Cellartis
- 6.2. Cryo-Cell
- 6.3. Geron
- 6.4. Novocell
- 6.5. Osiris Therapeutics
- 6.6. PrimeGen Biotech
- 6.7. Stem Cell Sciences
- 6.8. StemCells
- 6.9. Vet-Stem Regenerative Veterinary Medicine
References
Glossary of Selected Terms
Company Index with Web Addresses
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