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Biobanking is considered to be one of the ten ideas changing the world with an estimated value of $45 billion by 2025. Despite the challenges, as the climate for innovation in the biobanking industry continues to flourish around the world, it is certain that amazing discoveries will emerge from this large-scale method of preserving and accessing human samples; biobanking is no longer just a place for collecting and storing samples. This book will cover a wide variety of subjects from across the future biobanking spectrum including scientific strategies, personalized medicine, regenerative medicine and stem cell challenges, disease surveillance, population genetics and innovative methods of biobanking.
Book Synopsis Biobanking and Cryopreservation of Stem Cells by : Feridoun Karimi-Busheri
Download or read book Biobanking and Cryopreservation of Stem Cells written by Feridoun Karimi-Busheri and published by Springer. This book was released on 2016-11-10 with total page 245 pages. Available in PDF, EPUB and Kindle. Book excerpt: Biobanking is considered to be one of the ten ideas changing the world with an estimated value of $45 billion by 2025. Despite the challenges, as the climate for innovation in the biobanking industry continues to flourish around the world, it is certain that amazing discoveries will emerge from this large-scale method of preserving and accessing human samples; biobanking is no longer just a place for collecting and storing samples. This book will cover a wide variety of subjects from across the future biobanking spectrum including scientific strategies, personalized medicine, regenerative medicine and stem cell challenges, disease surveillance, population genetics and innovative methods of biobanking.
The study of mental health disorders and the genetics behind these disorders can be greatly enhanced by the use of induced pluripotent stem cells (iPSC). Since many mental health disorders develop after puberty, the only way in which to study the genetic mechanism of these diseases previously was through cellular surrogates, such as blood or cultured fibroblasts. Having the ability to reprogram adult cells to the pluripotent stage provides the capacity to study the onset of these disorders during a culture model of neural development and to include the impact of genetic risk factors and potential environmental triggers. Working with the National Institute of Mental Health (NIMH), the Rutgers Cell and DNA Repository (RUCDR) has begun banking iPSC source cells and converting those source cells into iPSC for distribution to the scientific community. Although initial protocols were developed to reprogram fibroblasts, the ability to reprogram blood cells has several advantages including less invasive collection, less post collection manipulation, and the large number of samples in existing collections. Here, we provide detailed protocols for reprogramming either fibroblasts with retroviral vectors or cryopreserved lymphocytes with Sendai viral vectors. Our goal is to support the discovery of effective treatments for mental health disorders. Table of Contents: Acknowledgments / Introduction / Appendix / General Protocols / References / Author Biographies
Book Synopsis Biobanking in the Era of the Stem Cell by : Jennifer C. Moore
Download or read book Biobanking in the Era of the Stem Cell written by Jennifer C. Moore and published by Morgan & Claypool Publishers. This book was released on 2012 with total page 87 pages. Available in PDF, EPUB and Kindle. Book excerpt: The study of mental health disorders and the genetics behind these disorders can be greatly enhanced by the use of induced pluripotent stem cells (iPSC). Since many mental health disorders develop after puberty, the only way in which to study the genetic mechanism of these diseases previously was through cellular surrogates, such as blood or cultured fibroblasts. Having the ability to reprogram adult cells to the pluripotent stage provides the capacity to study the onset of these disorders during a culture model of neural development and to include the impact of genetic risk factors and potential environmental triggers. Working with the National Institute of Mental Health (NIMH), the Rutgers Cell and DNA Repository (RUCDR) has begun banking iPSC source cells and converting those source cells into iPSC for distribution to the scientific community. Although initial protocols were developed to reprogram fibroblasts, the ability to reprogram blood cells has several advantages including less invasive collection, less post collection manipulation, and the large number of samples in existing collections. Here, we provide detailed protocols for reprogramming either fibroblasts with retroviral vectors or cryopreserved lymphocytes with Sendai viral vectors. Our goal is to support the discovery of effective treatments for mental health disorders. Table of Contents: Acknowledgments / Introduction / Appendix / General Protocols / References / Author Biographies
Regenerative medicine and tissue engineering play significant roles in the treatment of currently intractable conditions, such as chronic heart failure, stroke, chronic osteoarthritis, and other maladies. Regenerative medicine and tissue engineering generally depend on the utilization of stem cells to treat patients but may also utilize mature cells that would not normally be considered as stem cells (e.g., skin). Stem cells (like mature cells) may be obtained from many sources in the body including bone marrow, cord blood, cord tissue, adipose tissue, etc. Although stem cells are often used in therapy immediately upon isolation, in many circumstances, the stem and progenitor cells will be harvested, processed and banked frozen until a later time. Biobanking is a convenient alternative to same-day therapeutic use, in that it allows for patient recovery (e.g., from liposuction), provides time to identify the best treatment options, and may allow for multiple interventions with additional patient inconvenience or risk.
Book Synopsis Biobanking and Regenerative Medicine by : David T. Harris
Download or read book Biobanking and Regenerative Medicine written by David T. Harris and published by MDPI. This book was released on 2020-11-19 with total page 100 pages. Available in PDF, EPUB and Kindle. Book excerpt: Regenerative medicine and tissue engineering play significant roles in the treatment of currently intractable conditions, such as chronic heart failure, stroke, chronic osteoarthritis, and other maladies. Regenerative medicine and tissue engineering generally depend on the utilization of stem cells to treat patients but may also utilize mature cells that would not normally be considered as stem cells (e.g., skin). Stem cells (like mature cells) may be obtained from many sources in the body including bone marrow, cord blood, cord tissue, adipose tissue, etc. Although stem cells are often used in therapy immediately upon isolation, in many circumstances, the stem and progenitor cells will be harvested, processed and banked frozen until a later time. Biobanking is a convenient alternative to same-day therapeutic use, in that it allows for patient recovery (e.g., from liposuction), provides time to identify the best treatment options, and may allow for multiple interventions with additional patient inconvenience or risk.
This volume covers protocols related to both pluripotent and somatic stem cells, including the ethical procurement of tissues and cells for the provision of “seed stock,” standardized methods for deriving hESCs and iPSCs, isolating mesenchymal stem cells, cell culture and cryopreservation, in addition to quality assurance and information management. Stem Cell Banking: Concepts and Protocols aims to contribute to the development of this field by providing information that is essential to establishing a bona fide stem cell bank. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and thorough, Stem Cell Banking: Concepts and Protocols is a valuable resource for stem cell scientists and novices to the field, and will help strengthen and maximize their use of existing and future stem cell resources.
Book Synopsis Stem Cell Banking by : Jeremy M. Crook
Download or read book Stem Cell Banking written by Jeremy M. Crook and published by Humana. This book was released on 2017-03-29 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This volume covers protocols related to both pluripotent and somatic stem cells, including the ethical procurement of tissues and cells for the provision of “seed stock,” standardized methods for deriving hESCs and iPSCs, isolating mesenchymal stem cells, cell culture and cryopreservation, in addition to quality assurance and information management. Stem Cell Banking: Concepts and Protocols aims to contribute to the development of this field by providing information that is essential to establishing a bona fide stem cell bank. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and thorough, Stem Cell Banking: Concepts and Protocols is a valuable resource for stem cell scientists and novices to the field, and will help strengthen and maximize their use of existing and future stem cell resources.
Bone Marrow transplantation or Hematopoietic stem cell transplantation is a life saving procedure in a number of diseases,hematological and non hematological, which fail alternative medical management or have no other treatment options. It has transformed the lives of thousands of patients and their families around the world battling with fatal or debilitating diseases.There are many unique aspects of bone marrow transplantation which makes it very different from solid organ transplants. There is an enormous amount of research going on in this field both at clinical and basic science levels.With the rapidly changing world and field of transplantation, there is a need for an authoritative and up to date resource for transplant professionals. This book titled Contemporary Bone Marrow Transplantation aims to be a reference text comprehensively covering various facets of hematopoietic stem cell transplants with latest insights about the technique and basic science behind it . The book is the product of collective effort of transplant professionals round the world, and will reflect their experience as well as the current standard of care practices in Stem cell transplantation.The book will be divided into different sections focusing on the basic science of bone marrow transplant, the technical aspects of the procedure itself and the supportive care of transplant patients.There will also be a section each on epidemiology, upcoming trends and also case studies , which will discuss real case scenarios from the experience of the authors, to illustrate the practical challenges in managing bone marrow transplant recipients.
Book Synopsis Contemporary Bone Marrow Transplantation by : Mammen Chandy
Download or read book Contemporary Bone Marrow Transplantation written by Mammen Chandy and published by Springer. This book was released on 2021-03-25 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Bone Marrow transplantation or Hematopoietic stem cell transplantation is a life saving procedure in a number of diseases,hematological and non hematological, which fail alternative medical management or have no other treatment options. It has transformed the lives of thousands of patients and their families around the world battling with fatal or debilitating diseases.There are many unique aspects of bone marrow transplantation which makes it very different from solid organ transplants. There is an enormous amount of research going on in this field both at clinical and basic science levels.With the rapidly changing world and field of transplantation, there is a need for an authoritative and up to date resource for transplant professionals. This book titled Contemporary Bone Marrow Transplantation aims to be a reference text comprehensively covering various facets of hematopoietic stem cell transplants with latest insights about the technique and basic science behind it . The book is the product of collective effort of transplant professionals round the world, and will reflect their experience as well as the current standard of care practices in Stem cell transplantation.The book will be divided into different sections focusing on the basic science of bone marrow transplant, the technical aspects of the procedure itself and the supportive care of transplant patients.There will also be a section each on epidemiology, upcoming trends and also case studies , which will discuss real case scenarios from the experience of the authors, to illustrate the practical challenges in managing bone marrow transplant recipients.
Book Synopsis Characterization of Human Amniotic Fluid Stem Cells for Biobanking and Stem Cell Therapy by : Eleni Antoniadou Dimokidis
Download or read book Characterization of Human Amniotic Fluid Stem Cells for Biobanking and Stem Cell Therapy written by Eleni Antoniadou Dimokidis and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
This book exemplifies experience across the globe in banking of cord blood, mesenchymal, embryonic and induced pluripotent stem cells for clinical use from the United States, Canada, the European Union, Switzerland and Japan to Iran, India and Serbia. The concerns are similar regardless of stem cell type or origin. Implementing core values and common standards depend often on specific circumstances of political and economic setting, which makes flexibility as important as systematic planning. Banking of stem cells is not just building a repository and storing samples. The planning, design, construction and maintenance involve multiple skilled professionals. Stem cell banks are points where technology and medicine converge with ethics, laws and regulations. If properly designed and organized, their utilization will have a broad impact not only on the scientific community and medical professionals but also on the general public.
Book Synopsis Stem Cell Banking by : Dusko Ilic
Download or read book Stem Cell Banking written by Dusko Ilic and published by Springer. This book was released on 2014-05-05 with total page 175 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book exemplifies experience across the globe in banking of cord blood, mesenchymal, embryonic and induced pluripotent stem cells for clinical use from the United States, Canada, the European Union, Switzerland and Japan to Iran, India and Serbia. The concerns are similar regardless of stem cell type or origin. Implementing core values and common standards depend often on specific circumstances of political and economic setting, which makes flexibility as important as systematic planning. Banking of stem cells is not just building a repository and storing samples. The planning, design, construction and maintenance involve multiple skilled professionals. Stem cell banks are points where technology and medicine converge with ethics, laws and regulations. If properly designed and organized, their utilization will have a broad impact not only on the scientific community and medical professionals but also on the general public.
Book Synopsis Biotechnology. Biobanking. Requirements for Human and Mouse Pluripotent Stem Cells by : British Standards Institution
Download or read book Biotechnology. Biobanking. Requirements for Human and Mouse Pluripotent Stem Cells written by British Standards Institution and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Cryopreservation is a method used to preserve the quality of various cell types over long periods of time (up to several years). Using this preservation method can vastly improve cellular therapies and regenerative medicine by allowing the creation of biobanks containing high-quality cell products. For example, biobanks of red blood cells (RBCs) would be beneficial for cellular therapies such as RBC transfusions, which are used to treat patients suffering from hemorrhages, anemias, and to replace blood loss after traumatic/surgical events. RBCs are currently preserved via hypothermic storage which limits their shelf life to 42 days. Similarly, biobanks of hematopoietic stem cells (HSCs) from umbilical cord blood would be beneficial for regenerative medicine therapies such as HSC transplantations, which offer treatment for blood- and immune-related diseases by reconstituting hematopoiesis. The outcome of these transplantations depends greatly on the quality of the cell product; therefore, it is important for preserved HSCs to have a minimum loss of viability and functionality. The cryopreservation of cells at low sub-zero temperatures (-80 to -196 degC) in a cryoprotectant solution allows for long-term storage. Common cryoprotectants used are 40% glycerol for the cryopreservation of RBCs and 10% dimethyl sulfoxide (DMSO) for the cryopreservation of HSCs. Before clinical use of cryopreserved products, DMSO and glycerol must be removed as they are severely toxic to patients upon infusion. The removal of 40% glycerol from RBCs is complicated, time consuming, and can result in a significant amount of cell damage. DMSO and glycerol also do not address the occurrence of ice recrystallization, which is the main cause of cellular damage during cryopreservation. Ice recrystallization describes the process of ice crystals growing larger and replacing smaller ice crystals, and significantly contributes to the damage of cells post-thaw. Therefore, methods to decrease the concentration of cryoprotectants to improve their removal process while also mitigating ice recrystallization is of interest. In nature, antifreeze proteins and glycoproteins (AF(G)Ps) are found in animals that can survive below-freezing temperatures. The Ben laboratory has used the structural components of AF(G)Ps to design several small-molecule carbohydrates that exhibit ice recrystallization (IRI) activity. O-aryl-b-D-glucosides and N-aryl-D-gluconamides are two classes of IRIs developed that have been used as supplemental additives to DMSO and glycerol to improve the post-thaw viabilities and functionalities of RBCs and HSCs. While many structure-activity relationship studies have been performed amongst these classes, one area of improvement is their solubilities to facilitate their use as cryoprotectants. This thesis focuses on the design of a new class of effective IRIs that have high solubilities (>100 mM in phosphate-buffered saline). Previous studies on the structure of small-molecule IRIs have demonstrated the importance of balancing the hydrophobicity and hydrophilicity within a molecule, making it difficult to achieve high solubilities. This thesis further explores this point by the design and synthesis of IRIs with polar functional groups possessing an overall molecular charge. N-aryl-D-gluconamides bearing amino- and azido-substituents were designed, however their synthesis was unsuccessful. Instead, this work revealed a synthetically facile route towards N-xylo-L-furanosyl amide and ester compounds. Phosphonate-substituted carbohydrates were also designed and synthesized as a means to obtain highly soluble IRIs. All of these compounds displayed high solubilities, however the majority of the compounds exhibited moderate IRI activities. While there are many assays used to measure IRI activity, this thesis also evaluates two of the most common IRI assays and their effect on IRI activity. In addition, the effect that cryoprotective agents (CPAs) like DMSO and glycerol have on IRI activity was also evaluated. In both cases, the type of assay used and the addition of CPAs affected the quantitative values describing IRI activity. Notably, DMSO and glycerol, had an antagonistic effect on the IRI activity of N-aryl-D-gluconamides and antifreeze protein type I. This was a significant observation since these IRIs are sufficient cryoprotectants in the presence of DMSO or glycerol. Lastly in this thesis, phosphonate-substituted IRIs and antifreeze (glyco)proteins (AF(G)Ps) were evaluated as cryoprotectants for the cryopreservation of RBCs and/or HSCs. These studies showed that phosphonate IRIs and AF(G)Ps were not toxic to RBCs and/or HSCs, however the concentrations evaluated were unable to improve the post-thaw viability and/or functionality of these cell types.
Book Synopsis Addressing Solubility Limitations in Small-Molecule Ice Recrystallization Inhibitors and Evaluating Their Use in Hematopoietic Stem Cell and Red Blood Cell Cryopreservation by : Anna A. Ampaw
Download or read book Addressing Solubility Limitations in Small-Molecule Ice Recrystallization Inhibitors and Evaluating Their Use in Hematopoietic Stem Cell and Red Blood Cell Cryopreservation written by Anna A. Ampaw and published by . This book was released on 2022 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Cryopreservation is a method used to preserve the quality of various cell types over long periods of time (up to several years). Using this preservation method can vastly improve cellular therapies and regenerative medicine by allowing the creation of biobanks containing high-quality cell products. For example, biobanks of red blood cells (RBCs) would be beneficial for cellular therapies such as RBC transfusions, which are used to treat patients suffering from hemorrhages, anemias, and to replace blood loss after traumatic/surgical events. RBCs are currently preserved via hypothermic storage which limits their shelf life to 42 days. Similarly, biobanks of hematopoietic stem cells (HSCs) from umbilical cord blood would be beneficial for regenerative medicine therapies such as HSC transplantations, which offer treatment for blood- and immune-related diseases by reconstituting hematopoiesis. The outcome of these transplantations depends greatly on the quality of the cell product; therefore, it is important for preserved HSCs to have a minimum loss of viability and functionality. The cryopreservation of cells at low sub-zero temperatures (-80 to -196 degC) in a cryoprotectant solution allows for long-term storage. Common cryoprotectants used are 40% glycerol for the cryopreservation of RBCs and 10% dimethyl sulfoxide (DMSO) for the cryopreservation of HSCs. Before clinical use of cryopreserved products, DMSO and glycerol must be removed as they are severely toxic to patients upon infusion. The removal of 40% glycerol from RBCs is complicated, time consuming, and can result in a significant amount of cell damage. DMSO and glycerol also do not address the occurrence of ice recrystallization, which is the main cause of cellular damage during cryopreservation. Ice recrystallization describes the process of ice crystals growing larger and replacing smaller ice crystals, and significantly contributes to the damage of cells post-thaw. Therefore, methods to decrease the concentration of cryoprotectants to improve their removal process while also mitigating ice recrystallization is of interest. In nature, antifreeze proteins and glycoproteins (AF(G)Ps) are found in animals that can survive below-freezing temperatures. The Ben laboratory has used the structural components of AF(G)Ps to design several small-molecule carbohydrates that exhibit ice recrystallization (IRI) activity. O-aryl-b-D-glucosides and N-aryl-D-gluconamides are two classes of IRIs developed that have been used as supplemental additives to DMSO and glycerol to improve the post-thaw viabilities and functionalities of RBCs and HSCs. While many structure-activity relationship studies have been performed amongst these classes, one area of improvement is their solubilities to facilitate their use as cryoprotectants. This thesis focuses on the design of a new class of effective IRIs that have high solubilities (>100 mM in phosphate-buffered saline). Previous studies on the structure of small-molecule IRIs have demonstrated the importance of balancing the hydrophobicity and hydrophilicity within a molecule, making it difficult to achieve high solubilities. This thesis further explores this point by the design and synthesis of IRIs with polar functional groups possessing an overall molecular charge. N-aryl-D-gluconamides bearing amino- and azido-substituents were designed, however their synthesis was unsuccessful. Instead, this work revealed a synthetically facile route towards N-xylo-L-furanosyl amide and ester compounds. Phosphonate-substituted carbohydrates were also designed and synthesized as a means to obtain highly soluble IRIs. All of these compounds displayed high solubilities, however the majority of the compounds exhibited moderate IRI activities. While there are many assays used to measure IRI activity, this thesis also evaluates two of the most common IRI assays and their effect on IRI activity. In addition, the effect that cryoprotective agents (CPAs) like DMSO and glycerol have on IRI activity was also evaluated. In both cases, the type of assay used and the addition of CPAs affected the quantitative values describing IRI activity. Notably, DMSO and glycerol, had an antagonistic effect on the IRI activity of N-aryl-D-gluconamides and antifreeze protein type I. This was a significant observation since these IRIs are sufficient cryoprotectants in the presence of DMSO or glycerol. Lastly in this thesis, phosphonate-substituted IRIs and antifreeze (glyco)proteins (AF(G)Ps) were evaluated as cryoprotectants for the cryopreservation of RBCs and/or HSCs. These studies showed that phosphonate IRIs and AF(G)Ps were not toxic to RBCs and/or HSCs, however the concentrations evaluated were unable to improve the post-thaw viability and/or functionality of these cell types.
Helps those that use cell preservation to develop new protocols or improve existing protocols This book provides readers with the tools needed to develop or debug a preservation protocol for cells. The core structure and content of the text grew from a professional short course that has been offered at the Biopreservation Core Resource for the last 10 years. This comprehensive text describes, step by step, the individual elements of a protocol, including the relevant scientific principles for each phase of the protocol. It can be used by anyone who is involved in cell preservation—even by those who are not experts in freezing of cells—because it provides the scientific basis for those that want to understand the basis for the protocol. Preservation of Cells: A Practical Manual begins by first introducing readers to the subject of preserving cells. It then goes on to cover Pre-freeze Processing and Characterization; Formulation and Introduction of Cryopreservation Solutions; Freezing Protocols; Storage and Shipping of Frozen Cells; Thawing and Post Thaw Processing; Post-thaw Assessment; and Algorithm-driven Protocol Optimization. Clearly explains the reasons behind every step in the development of a preservation protocol and the scientific principles behind them Provides alternative modes of preservation for when conventional methods of cryopreservation are not appropriate for a given cell type or application Enables more organization to achieve improved post thaw recoveries and process consistency Preservation of Cells: A Practical Manual is an important book for researchers, laboratory technicians and students in cell biology, stem cell biology, tissue engineering, and regenerative medicine. It is also useful to cell bankers, regenerative medicine, biomarker discovery or precision medicine companies, and cell therapy labs, blood bankers, biobankers, and biotechnology companies.
Book Synopsis Preservation of Cells by : Allison Hubel
Download or read book Preservation of Cells written by Allison Hubel and published by John Wiley & Sons. This book was released on 2018-02-13 with total page 212 pages. Available in PDF, EPUB and Kindle. Book excerpt: Helps those that use cell preservation to develop new protocols or improve existing protocols This book provides readers with the tools needed to develop or debug a preservation protocol for cells. The core structure and content of the text grew from a professional short course that has been offered at the Biopreservation Core Resource for the last 10 years. This comprehensive text describes, step by step, the individual elements of a protocol, including the relevant scientific principles for each phase of the protocol. It can be used by anyone who is involved in cell preservation—even by those who are not experts in freezing of cells—because it provides the scientific basis for those that want to understand the basis for the protocol. Preservation of Cells: A Practical Manual begins by first introducing readers to the subject of preserving cells. It then goes on to cover Pre-freeze Processing and Characterization; Formulation and Introduction of Cryopreservation Solutions; Freezing Protocols; Storage and Shipping of Frozen Cells; Thawing and Post Thaw Processing; Post-thaw Assessment; and Algorithm-driven Protocol Optimization. Clearly explains the reasons behind every step in the development of a preservation protocol and the scientific principles behind them Provides alternative modes of preservation for when conventional methods of cryopreservation are not appropriate for a given cell type or application Enables more organization to achieve improved post thaw recoveries and process consistency Preservation of Cells: A Practical Manual is an important book for researchers, laboratory technicians and students in cell biology, stem cell biology, tissue engineering, and regenerative medicine. It is also useful to cell bankers, regenerative medicine, biomarker discovery or precision medicine companies, and cell therapy labs, blood bankers, biobankers, and biotechnology companies.
