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Frontiers of Cord Blood Science
Cord blood is a significant source of hematopoietic stem and progenitor cells for the treatment of blood and genetic disorders. Cord blood is also an alternative to embryos as a source of tissue for regenerative medicine. Cells from cord blood have been shown to transdifferentiate into nonhematopoietic cells, including those of the brain, heart, liver, pancreas, bone, and cartilage, in tissue culture and in animal systems. Recently it has been demonstrated that both cardiac and glial cell differentiation of cord blood donor cells occurred in recipients of unrelated donor cord blood transplantation as part of a treatment regime for Krabbe disease and Sanfilippo syndrome. These observations raise the possibility that cord blood may serve as a source of cells to facilitate tissue repair and regeneration in the future. CD34 stem cell-rich umbilical cord whole blood transfusion has the potential to have an immediate benefit of better tissue oxygenation with an additional delayed benefit of possible engraftment of umbilical cord stem cells.
Human Fetal Growth and Development
This unique book delves into the mysteries of human fetal growth and maturation. Growing knowledge in genetics indicates that factors that impact on/influence fetal growth and maturation may have a role in determining a person’s health and disease in later years. Placental, maternal, environmental, nutrient as well as fetal genome factors each play a role in producing a healthy, unhealthy or abnormal baby. A study of fetal growth and maturation is therefore basic to the understanding of why fetal growth problems occur, what implications these can have for adult disease, and how clinical intervention can help to reverse growth problems. The present study will be comprehensive and will be a ...
Stem Cell Therapy for Organ Failure
The book “STEM CELL THERAPY FOR ORGAN FAILURES” edited by Dr. S. Indumathi demonstrates the In Vitro and In vivo therapeutic strategies and applications of pre- and post-natal stem cells for treating the failures of various organ systems of our body in a wide perspective. It explores the past, present and the futuristic approach of the exciting field of stem cells and its intriguing properties involved in tissue repair and regeneration. The prime focus of this volume is to unravel the basic, advanced, therapeutic and translational approaches put-forth so far in the field of stem cells and regenerative medicine at research, pre-clinical and clinical levels. Stem cells has ushered in wides...
Regenerative Medicine
This book represents a major contribution to the emerging science of regenerative medicine using non-fetal sources of stem cells. The Editors, Dr Niranjan Bhattacharya and Professor Phillip Stubblefield, have brought together some of the most pre-eminent scientists working on regenerative medicine to share information on currently ongoing work in this area alongside unpublished observations that will help to shape the contours of future therapies. Regenerative Medicine: Using Non-Fetal Sources of Stem Cells discusses the potential clinical and therapeutic applications using non-fetal stem cells as well as providing instruction on the collection, isolation and characterization of stem cells from various non-fetal sources, such as menstrual blood, adipose tissue, breast milk and uprooted decidual teeth. This book will be an invaluable resource for both active researches and those entering the field. The Editors truly hope that the text will act as a stimulant to professionals and clinical scientists, who may be inspired to further the work of the pioneering scientists who have contributed to this volume.
Advanced Biomaterials
Enables readers to take full advantage of the latest advances in biomaterials and their applications. Advanced Biomaterials: Fundamentals, Processing, and Applications reviews the latest biomaterials discoveries, enabling readers to take full advantage of the most recent findings in order to advance the biomaterials research and development. Reflecting the nature of biomaterials research, the book covers a broad range of disciplines, including such emerging topics as nanobiomaterials, interface tissue engineering, the latest manufacturing techniques, and new polymeric materials. The book, a contributed work, features a team of renowned scientists, engineers, and clinicians from around the world whose expertise spans the many disciplines needed for successful biomaterials development. All readers will gain an improved understanding of the full range of disciplines and design methodologies that are used to develop biomaterials with the physical and biological properties needed for specific clinical applications.
Human Umbilical Cord Blood in Emerging Disease
At the very beginning, I wish to express my sincere gratitude to my respected principal investigator Prof Dr. Niranjan Bhattacharya, former professor and HOD, Department of Regenerative Medicine and Translational Science, STM, Kolkata and co-investigator Prof. Dr Rita Ghosh, professor department of Biochemistry and Biophysics, university of Kalyani. I have received his and her valuable guidance at every moment in my long journey. Without the continuous support it would have been very difficult to complete the work. I also express my sincere thanks to the respected Professor Dr. Sanjukta Bhattacharya, Professor (retired), Jadavpur University, for her continuous support during my research work and assistance in developing tools of research.
Regenerative Medicine: Laboratory to Clinic
This book discusses the two different cellular approaches that are pursued in regenerative medicine: cell therapy and tissue engineering. It examines in detail the therapeutic application of hematopoietic stem cells in marrow regeneration, multi-potent mesenchymal stem cells (MSCs), also referred to as mesenchymal stromal cells. The interest in MSCs can be seen in more than 150 clinical trials, some of which have progressed to Phase III, despite the cells’ limited differentiation potential. The book also explores how embryonic stem (ES) cells, being pluripotent in nature, can resolve some of the problems associated with adult stem cells, yet entail other challenges like risks of teratoma f...
Human Fetal Tissue Transplantation
Many diseases earlier considered to be incurable are now being treated with modern innovations involving fetal tissue transplants and stem cells derived from fetal tissues. Fetal tissues are the richest source of fetal stem cells as well as other varying states of differentiated cells and support or stromal cells. The activity of such stem cells is at their peak provided they are given the correct niche. Stem cells, as we know, are immortal cells with the capacity to regenerate into any kind of differentiated cell as per niche-guidance. As such, fetal tissues have the potential capacity to mend, regenerate and repair damaged cells or tissues in adults, when directly transplanted to the site ...
The Regeneration Promise: The Facts behind Stem Cell Therapies
The Regeneration Promise is a reader-friendly guide to the world of regenerative medicine and stem cell technology. It covers the history of stem cell technology as a general introduction to the subject and then continues with a description of the many known types of stem cells and how these can potentially be used to treat disease. The author explains the pros and cons of using stem cell technology to treat patients in simple and factual terms throughout the book while clarifying many stem cell myths. There is valuable advice for people considering undergoing stem cell therapy and also for those who are considering stem cell storage such as umbilical cord blood storage at the birth of a bab...
