My name is Luodan Yangon. I hold a Doctorate (Ph.D.) and currently serve as a Professor at South China Normal University. My academic work primarily focuses on exploring the mechanisms by which non-invasive therapeutic interventions, including exercise, photobiomodulation, and transcranial magnetic stimulation (rTMS), can prevent and treat neurodegenerative diseases and brain injuries. I am particularly dedicated to studying the preventive effects of these non-invasive therapies. What sets my work apart is my interdisciplinary approach, combining insights from exercise physiology, neurobiology, and neurotherapy to understand how these treatments can modulate neural function and provide therapeutic benefits. By investigating their mechanisms in both experimental models and clinical settings, I aim to contribute to developing more accessible and effective therapies for neurological conditions. My research explores therapeutic efficacy and aims to understand the cellular and molecular pathways involved, distinguishing my work from others in the field. My research primarily focuses on investigating the mechanisms of non-invasive therapeutic approaches, including exercise, photobiomodulation, and transcranial magnetic stimulation (rTMS), for the prevention and treatment of neurodegenerative diseases and brain injuries. I have published over 60 peer-reviewed articles, with 50 of them as the first author or corresponding author in reputable academic journals. I have also made significant contributions to the international academic community, delivering speeches at numerous international academic conferences. My work has been widely cited, with my research receiving recognition in various scientific circles. On Google Scholar, my H-index is 22. In recognition of my academic contributions, I have received several prestigious awards. I am a member of several professional associations, including Sigma Xi, the Chinese Society of Anatomy’s Exercise Anatomy Branch, and the Chinese Society for Medical Biophotonics’ Youth Committee. Additionally, I serve as the Deputy Editor for Heliyon Neuroscience, an editorial board member for BMC Neuroscience and Aging Pathobiology and Therapeutics, and a reviewer for more than 50 international English-language journals. These roles reflect my ongoing commitment to advancing the field of neurotherapies and my active engagement in shaping the future of neuroscience research. In addition to my research publications, I have made significant contributions to the academic community through my role as a peer reviewer. I have reviewed over 100 manuscripts for various prestigious academic journals, providing critical feedback to ensure the quality and integrity of the published research. Moreover, I have also contributed to academic journals by writing editorials, offering insights into emerging trends and key topics in my field. These editorials aim to guide the direction of research and promote meaningful discussions in the scientific community. My editorial contributions further reflect my commitment to advancing knowledge and fostering academic discourse in the areas of neurotherapies and neurodegenerative diseases. My personal and professional goals are centered around advancing the understanding of non-invasive therapeutic approaches for the prevention and treatment of neurodegenerative diseases and brain injuries. Specifically, I aim to explore the mechanisms through which interventions such as exercise, photobiomodulation, and transcranial magnetic stimulation (rTMS) can promote neural protection, repair, and function. My professional skills and areas of expertise are shaped by a combination of technical knowledge, research experience, and interpersonal abilities that are essential for both academic and leadership roles. These skills allow me to effectively contribute to research, collaborate with colleagues, and mentor the next generation of scientists. I enjoy activities that allow me to balance relaxation with intellectual and physical stimulation. I am passionate about reading, particularly in areas related to neuroscience, health, and technology, which keeps me updated with new ideas and trends.