Developments in Stem Cell Research (Technical Insights)

Published by: Frost & Sullivan

Published: Mar. 31, 2007 - 127 Pages

Table of Contents

1. Executive Summary

1. Scope and Methodology

1. Scope

2. Methodology

2. Stem Cell Research--Current Status and Promise

1. The Promise of Stem Cell Research

2. Current Technologies and Trends

3. Snapshot of Regulatory Issues and Funding

2. Technology Adoption Factor Analysis

1. Technology Primer

1. Prologue--The 'Mother' Cell

2. Stem Cell Properties

3. Stem Cell Hierarchy

4. Stem Cell Types and Sources

5. Stem Cells in the Middle Ground

6. Mining the Potential--Applications of Stem Cells Research

2. Drivers and Challenges in Stem Cell Technology

1. Technology and Industry Drivers--Catalysts for Stem Cell Research

2. Stem Cell Challenges--An Introduction

3. Technical Challenges and Barriers

4. Industry Challenges and Barriers

3. Stem Cells Research--In the Spotlight

1. Scope and Applications of Stem Cell Research--SWOT Analysis

2. Strategic Recommendations for Stem Cell Research

3. Prospects of Stem Cells Research--Analyst Insights

4. Analysis of Ethical, Regulatory, and Funding Issues in Stem Cell Research

1. Ethical Issues--Status of the Embryo as an Entity

2. Ethical Issues--Abortions and Stem Cell Research

3. Legal Issues in Applying Stem Cells as Therapeutic Products

4. Global Regulatory and Funding Scenario

3. Key Innovations in Stem Cell Research

1. Innovations in Stem Cell Research in Industry

1. Progenitor Cells Inspire a Therapy for Renal Failure

2. Autologous Cells Offer a Platform for Cartilage Repair

3. Cell Processing Device Positively Impacts Stem Cell Banking

4. Drug-Based Induction of Stem Cells Offers Hope for Treating Neural Disorders

5. Stem Cell Separation Leads the Way in Effective Cell-Based Therapy

6. Developing Neural Cells Patients Can Call Their Own

7. The First Clinical Demonstration of an Embryonic Stem Cell Product for Spinal Cord Injury

8. Stem Cells Merge into Biological Scaffolds to Redefine Wound Management

9. Stem Cells Provide a Platform for the Development of Therapies for Neurological Disorders

10. Encapsulation System Evades Immune Response Post Cell Transplantation

11. Differentiated Stem Cells Offer Hope for Respite from Metabolic Disorders

12. Stem Cell Therapy Offers New Hope for a Healthy Heart

13. Technology Enables the Body to Realize the Potential to Replace Damaged Organs

14. Autologous Cells Give the Heart a Fresh Lease of Life

15. Diversity of Cell-Based Platforms Redefines the Scope of Stem Cell Research

16. Bioreactor System Controls the Differentiation of Stem Cells

2. Innovations in Stem Cell Research in Academia

1. 'New Born Neurons’ Show Promise

2. Stem Cells for Low Back Pain Therapy

3. A Hybridized Approach for Tooth Regeneration

4. ‘Ethical’ and ‘Cure’ Potent Stem Cells in the Amniotic Fluid

5. A Regenerative Device--Stem Cell Coated Stents

6. ‘Reprogramming’ Adult Cells to Pluripotency

7. Stem Cells as 'Smart Bombs' to Attack Metastatic Tumors

8. Embryonic ‘Remnants’ in the Adult Hair Follicle

9. Embryonic Stem Cells Generate a Beating Heart and Blood Vessels in the Lab

4. Key Patents and Contacts in Stem Cell Research

1. Key Patents

1. Industry Patents

2. Academia Patents

2. Database of Key Participants

1. Key Industry Participants

2. Key Academic Participants

5. Decision Support Database

1. Database Tables

1. Global Government R&D Expenditure for Biotechnology (2002-2012)

2. Global Percent Government R&D Investment in Biotechnology (2002-2012)

3. Global Pharmaceutical R&D Expenditure in Biotechnology (2002-2012)

4. Global Percentage Government Pharmaceutical R&D Investment in Biotechnology (2002-2012)

Abstract

The Frost & Sullivan research service titled Developments in Stem Cell Research provides an overview of the advances in stem cell technologies and covers at length on the drivers and challenges that are associated with the same. A section on SWOT analysis of stem cell research provides the reader with some useful insights that would enable an entrant or a mature participant in the market take appropriate measures to improve the prospects of stem cell research as a business model. In this research service, Frost & Sullivan's expert analysts thoroughly examine stem cell technologies.

Technology Overview

Stem Cell Research Opening the Doors for Novel Therapies and New Drug Discoveries

The ability of stem cells to differentiate into the many types of cells that serve as precursors for organ development offers unlimited possibilities of capitalizing on stem cell research to generate new therapies and alternatives for treatment of a wide array of disorders. Current research toward triggering the growth and differentiation of stem cells and cell precursors in the brain and the heart has opened up possibilities to investigate treatment options for diseases affecting these organs in the long run. The technology as it stands today has given rise to over 50 companies that are involved in growing adult stem cells and inducing their differentiation into neurons, muscle cells, and pancreatic islets. Although the research carried out in these areas is still at its infancy, the possibilities of such therapies are endless. This apart, stem cells have transformed as workbenches for drug discovery. With improved cell transformation tools in hand, it has now become possible for scientists to investigate the physiological effects of drugs in various cell types. While the current trend involves exploring the effect of neuronal drugs on neural stem cells, there are positive signs of stem cells being employed for discovery of drugs for cardiac disorders as well.

However, regulatory and ethical issues still remain a major impediment to further progress. The confrontation relates largely toward defining a human embryo in moral terms from a philosophical standpoint and not as much as its use from a scientific standpoint. In most countries, permission has been granted only for employing adult stem cells, and such cells, while being useful indicators and tools for therapeutic development, are seriously limited in their ability to sustain the undifferentiated state eternally. "Embryonic stem cells, on the other hand, possess the ability to remain in a constantly undifferentiated state and hence serve as ideal systems to be triggered into differentiation," notes the analyst of this research service. "While current legal protocols allow the use of embryos not more than 14 days old or the use of supernumerary embryos that have resulted out of the in vitro fertilization procedures, there lies a possibility of laws becoming more stringent in the future in order to prevent indiscriminate use of embryonic stem cells."

Progenitor Cells Inspire a Therapy for Renal Failure

Notable innovations in stem cell research include the development of an artificial renal filtration system derived from the application of renal embryonic cells, which would mimic kidney functions and enable proper renal function. The technology termed RBI-01, developed by Renamed, offers an efficient renal bioreplacement therapy that solves the central issues faced by traditional methods such as kidney transplantation and dialysis. The technology involves the use of adult progenitor RE cells from human kidneys that have been donated for transplant but cannot be used for the same due to anatomical, sclerotic, structural or similar medical reasons. The epithelial cells from these kidneys are cultivated using the company’s proprietary cell culture procedures and eventually introduced into a hollow fiber made of a biocompatible membrane, in a cartridge containing 4.000 such fibers, where they grow into a monolayer. These fibers are designed to perform as fully functional and differentiated RE cells as a result of cells that are cultured on the inside of the hollow fibres. The fibers in the cartridge contain tiny pores on their surface through which small molecules and water can pass. Other noteworthy developments include the first clinical demonstration of an embryonic stem cell product for spinal cord injury, a drug based induction of stem cells that offers hope for treating neural disorders and autologus cells that offer a platform for cartilage repair.

Summing up, while stem cell research has often looked upon as being equivalent to Pandora’s Box, it is in reality a spring of opportunity, health, and hope. "Encouraging collaborative efforts amongst private and federal research institutions is vital to furthering the growth of stem cell research," says the analyst. "This would strengthen the existing workforce dedicated to stem cell research and thereby attract funding possibilities, which would significantly accelerate stem cell research."

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