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Cell Therapy, Stem Cells, and Brain Repair [electronic resource] / edited by Cyndy Davis Sanberg, Paul R. Sanberg.

Call Number	612.8
Title	Cell Therapy, Stem Cells, and Brain Repair edited by Cyndy Davis Sanberg, Paul R. Sanberg.
Physical Description	online resource.
Series	Contemporary Neuroscience
Contents	Current Views of the Embryonic and Neural Stem Cell -- Developing Novel Cell Sources for Transplantation in Parkinson’s Disease -- Neural Transplantation in the Nonhuman Primate Model of Parkinson’s Disease -- Cell-Based Therapy for Huntington’s Disease -- Use of Bone Marrow Stem Cells as Therapy for Behavioral Deficits in Rodent Models of Huntington’s Disease -- Human Neuroteratocarcinoma Cells as a Neural Progenitor Graft Source for Cell Transplantation in Stroke -- Therapeutic Applications of Bone Marrow-Derived Stem Cells in Neurologic Injury and Disease -- Cell Therapy for Models of Pain and Traumatic Brain Injury -- The Use of Sertoli Cells in Neural Transplantation -- The Choroid Plexus -- Progress and Challenges in Immunoisolation for CNS Cell Therapy -- Evidence-Based Methodology for Advancing Neural Reconstruction -- Hematopoietic Cell Therapy for Brain Repair -- Stem Cells and Regenerative Medicine.
Summary	As our world continues to evolve, the field of regenerative medicine f- lows suit. Although many modern day therapies focus on synthetic and na- ral medicinal treatments for brain repair, many of these treatments and prescriptions lack adequate results or only have the ability to slow the p- gression of neurological disease or injury. Cell therapy, however, remains the most compelling treatment for neurodegenerative diseases, disorders, and injuries, including Parkinson’s disease, Huntington’s disease, traumatic brain injury, and stroke, which is expanded upon in more detail in Chapter 1 by Snyder and colleagues. Cell therapy is also unique in that it is the only therapeutic strategy that strives to replace lost, damaged, or dysfunctional cells with healthy ones. This repair and replacement may be due to an administration of exogenous cells itself or the activation of the body’s own endogenous reparative cells by a trophic, immune, or inflammatory response to cell transplantation. However, the precise mechanism of how cell therapy works remains elusive and is c- tinuing to be investigated in terms of molecular and cellular responses, in particular. Moreover, Chapter 11 by Emerich and associates, discusses some of the possibilities of cell immunoisolation and the potential for treating central nervous system diseases.
Added Author	Sanberg, Cyndy Davis. editor. Sanberg, Paul R. editor. SpringerLink (Online service)
Subject	MEDICINE. NEUROSCIENCES. Biomedicine. Neurosciences.
Multimedia	http://dx.doi.org/10.1007/978-1-59745-147-5

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950	Biomedical and Life Sciences (Springer-11642)

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$a Current Views of the Embryonic and Neural Stem Cell -- Developing Novel Cell Sources for Transplantation in Parkinson’s Disease -- Neural Transplantation in the Nonhuman Primate Model of Parkinson’s Disease -- Cell-Based Therapy for Huntington’s Disease -- Use of Bone Marrow Stem Cells as Therapy for Behavioral Deficits in Rodent Models of Huntington’s Disease -- Human Neuroteratocarcinoma Cells as a Neural Progenitor Graft Source for Cell Transplantation in Stroke -- Therapeutic Applications of Bone Marrow-Derived Stem Cells in Neurologic Injury and Disease -- Cell Therapy for Models of Pain and Traumatic Brain Injury -- The Use of Sertoli Cells in Neural Transplantation -- The Choroid Plexus -- Progress and Challenges in Immunoisolation for CNS Cell Therapy -- Evidence-Based Methodology for Advancing Neural Reconstruction -- Hematopoietic Cell Therapy for Brain Repair -- Stem Cells and Regenerative Medicine.

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$a As our world continues to evolve, the field of regenerative medicine f- lows suit. Although many modern day therapies focus on synthetic and na- ral medicinal treatments for brain repair, many of these treatments and prescriptions lack adequate results or only have the ability to slow the p- gression of neurological disease or injury. Cell therapy, however, remains the most compelling treatment for neurodegenerative diseases, disorders, and injuries, including Parkinson’s disease, Huntington’s disease, traumatic brain injury, and stroke, which is expanded upon in more detail in Chapter 1 by Snyder and colleagues. Cell therapy is also unique in that it is the only therapeutic strategy that strives to replace lost, damaged, or dysfunctional cells with healthy ones. This repair and replacement may be due to an administration of exogenous cells itself or the activation of the body’s own endogenous reparative cells by a trophic, immune, or inflammatory response to cell transplantation. However, the precise mechanism of how cell therapy works remains elusive and is c- tinuing to be investigated in terms of molecular and cellular responses, in particular. Moreover, Chapter 11 by Emerich and associates, discusses some of the possibilities of cell immunoisolation and the potential for treating central nervous system diseases.

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Summary	As our world continues to evolve, the field of regenerative medicine f- lows suit. Although many modern day therapies focus on synthetic and na- ral medicinal treatments for brain repair, many of these treatments and prescriptions lack adequate results or only have the ability to slow the p- gression of neurological disease or injury. Cell therapy, however, remains the most compelling treatment for neurodegenerative diseases, disorders, and injuries, including Parkinson’s disease, Huntington’s disease, traumatic brain injury, and stroke, which is expanded upon in more detail in Chapter 1 by Snyder and colleagues. Cell therapy is also unique in that it is the only therapeutic strategy that strives to replace lost, damaged, or dysfunctional cells with healthy ones. This repair and replacement may be due to an administration of exogenous cells itself or the activation of the body’s own endogenous reparative cells by a trophic, immune, or inflammatory response to cell transplantation. However, the precise mechanism of how cell therapy works remains elusive and is c- tinuing to be investigated in terms of molecular and cellular responses, in particular. Moreover, Chapter 11 by Emerich and associates, discusses some of the possibilities of cell immunoisolation and the potential for treating central nervous system diseases.
Contents	Current Views of the Embryonic and Neural Stem Cell -- Developing Novel Cell Sources for Transplantation in Parkinson’s Disease -- Neural Transplantation in the Nonhuman Primate Model of Parkinson’s Disease -- Cell-Based Therapy for Huntington’s Disease -- Use of Bone Marrow Stem Cells as Therapy for Behavioral Deficits in Rodent Models of Huntington’s Disease -- Human Neuroteratocarcinoma Cells as a Neural Progenitor Graft Source for Cell Transplantation in Stroke -- Therapeutic Applications of Bone Marrow-Derived Stem Cells in Neurologic Injury and Disease -- Cell Therapy for Models of Pain and Traumatic Brain Injury -- The Use of Sertoli Cells in Neural Transplantation -- The Choroid Plexus -- Progress and Challenges in Immunoisolation for CNS Cell Therapy -- Evidence-Based Methodology for Advancing Neural Reconstruction -- Hematopoietic Cell Therapy for Brain Repair -- Stem Cells and Regenerative Medicine.
Subject	MEDICINE. NEUROSCIENCES. Biomedicine. Neurosciences.
Multimedia	http://dx.doi.org/10.1007/978-1-59745-147-5