There are currently no reparative therapies for severe neurological injury, including brain injury, spinal cord injury and stroke. Actually, most treatments are designed simply to limit secondary damage. However, pre-clinical data supports the idea that exogenous stem and progenitor cells have the potential to promote a reparative response to severe neurological injuries. Progenitor Cell Therapy for Neurological Injury is a compilation of seminal essays that explore many unique aspects of neurological injury, focusing on the critical translational issues of cell delivery. Specifically, it discusses routes of administration, types of progenitor cells (alone and/or in combinations), timing of delivery and adjuncts to promote cell engraftment, survival and effectiveness. In addition, many chapters address measuring the effects of transplanted cells and cell tracking. The paradigms of how cell-based therapeutics affect neurological injury is changing rapidly. The developments in this field may ultimately offer realistic hope for improvement in patients with severe injuries. This book is a vital key toward unlocking those future treatments.

This volume explores current viewpoints and knowledge gaps in the field of traumatic brain injury (TBI). The chapters in this book cover topics ranging from development of in vitro and animal TBI models, to diagnostic imaging and disease monitoring in patients. Designing pre-clinical and clinical trials is also discussed. In Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your laboratory. Practical and thorough, Pre-Clinical and Clinical Methods in Brain Trauma Research is a valuable resource for both scientists and clinical researchers interested in learning about important techniques and their applications in the field of TBI.

Cellular Therapy for Neurological Injury discusses the current status of cellular therapy for neurological disorders. The primary areas of focus include traumatic brain injury, stroke (ischemic and hemorrhagic), and spinal cord injury. The book explores cell therapy approaches to these and other conditions, while discussing current advances and a literature review in the context of a field that is moving rapidly. The book presents a translational focus, addressing barriers and opportunities to moving forward. The mechanisms of injury are explored, as well as how these mechanisms influence the type of cell therapy used, the route of delivery, and dosing regimen. Written by leaders in the field, this is an invaluable resource for clinicians and researchers alike.

Cellular Therapy for Neurological Injury discusses the current status of cellular therapy for neurological disorders. The primary areas of focus include traumatic brain injury, stroke (ischemic and hemorrhagic), and spinal cord injury. The book explores cell therapy approaches to these and other conditions, while discussing current advances and a literature review in the context of a field that is moving rapidly. The book presents a translational focus, addressing barriers and opportunities to moving forward. The mechanisms of injury are explored, as well as how these mechanisms influence the type of cell therapy used, the route of delivery, and dosing regimen. Written by leaders in the field, this is an invaluable resource for clinicians and researchers alike.

There are currently no reparative therapies for severe neurological injury, including brain injury, spinal cord injury and stroke. Actually, most treatments are designed simply to limit secondary damage. However, pre-clinical data supports the idea that exogenous stem and progenitor cells have the potential to promote a reparative response to severe neurological injuries. Progenitor Cell Therapy for Neurological Injury is a compilation of seminal essays that explore many unique aspects of neurological injury, focusing on the critical translational issues of cell delivery. Specifically, it discusses routes of administration, types of progenitor cells (alone and/or in combinations), timing of delivery and adjuncts to promote cell engraftment, survival and effectiveness. In addition, many chapters address measuring the effects of transplanted cells and cell tracking. The paradigms of how cell-based therapeutics affect neurological injury is changing rapidly. The developments in this field may ultimately offer realistic hope for improvement in patients with severe injuries. This book is a vital key toward unlocking those future treatments.