1. Advances in the research of astrocyte function in neural regeneration
2. Enhancement of axonal myelination in wounded spinal cord using oligodendrocyte precursor cell transplantation
3. Application of Schwann cells in neural tissue engineering
4. Stem cell- and biomaterial-based neural repair for enhancing spinal axonal regeneration
5. Electric field-guided cell migration, polarization, and division: An emerging therapy in neural regeneration
6. Vascularization in the spinal cord: the pathological process and therapeutic approach
Index
Dr.Li Yao: After completing his BachelorDegree of Clinical Medicine in Beijing Capital Medical University, Dr. Yao was appointed as a resident doctor of surgery at the Beijing Chao Yang Hospital, Capital Medical University Hospital. After 3-year clinical working, he pursued a Masters ofOrthopaedic Surgery at Beijing JiShuiTan Hospital, Peking University Medical Center. After graduation, he continued to work in that hospital and was appointed as an attending doctor in orthopaedic surgery. In 2001, Dr. Yao went to United Kingdomfor the PhD study in Biomedical Science at the University of Aberdeen. He pursued his postdoctoral research at the National University of Ireland, Galway and the Mayo Clinic, Rochester. He started a tenure-track assistant professor position in Department of Biological Sciences, Wichita State University, United Statesfrom 2011. He was appointed as a tenured associated professor from 2017. His research interest is regenerative medicine and neural tissue engineering with a focus on electric fields-guided neural cell migration, and spinal cord and peripheral nerve repair and regeneration. He investigates neural regeneration using biomaterial scaffolds, cell and molecular therapy and electrical stimulation.
This book focuses on current applications of glial cells in neural regeneration, especially in spinal cord repair. It introduces the application of a few types of glial cells including oligodendrocyte, astrocyte, Schwann cells, and stem cell derived glial cells in neural regeneration. The latest glial cell research with biomaterials, gene modification, and electrical signals is also summarized. This is an ideal book for undergraduate and research students in tissue engineering, neurobiology, and regenerative medicine as well as researchers in the field.
This book also:
Illustrates the application of glial cells including oligodendrocyte, astrocyte, Schwann cells, and stem cell derived glial cells in neural regeneration
Broadens reader understanding of the current applications of glial cells in neural regeneration, especially in spinal cord repair
Demonstrates the engineering of glial cells with biomaterials, gene modification, and electrical signals for neural regeneration