Injury and inflammation-related diseases of the nervous system are substantial public health threats worldwide, with the resulting suffering not only limited to the patients alone but also to their families and society as a whole. With the advent of novel neuroscience approaches, the fundamental understanding of physiological processes and pathological mechanisms of the neural system has substantially evolved over the past decades. Translating fundamental research into clinical applications is a critical step further toward the development of efficacious neurotherapeutics. In recent years, a series of cutting-edge technologies, disease models, diagnostics and therapeutics research, as well as computational and interdisciplinary tools have emerged. Despite promising progress, alarming concerns also exist regarding the efficacy of translational medicine, bringing challenges to clinicians in selecting the most promising method for patients. Therefore, continuous research pivoting around translational neuroscience is urgently needed to accelerate the discoveries in neuroscience from bench to bedside and ultimately improve the clinical outcomes for patients affected by neurological conditions.
The research topic aims to disseminate high-quality brain and neuroscience research, especially for the compositive and in-depth study in clinical translational research on Injury and inflammation-related diseases of the nervous system, including new technology in clinical neurology and neuroimaging, new developments in neuropharmacology, neurophysiology.
The scope of the topic for authors should be the new progress, technologies, methods, and achievements in the field of injury and inflammation-related diseases of the nervous system such as traumatic brain injury, neurological damage, and traumatic/septic encephalopathy. The topic includes but is not limited to the following:
- Translational research on diagnosis, treatment, and prognosis of injury and inflammation-related diseases of the nervous system, molecular mechanisms of central nervous system injury and disease, neuroinflammation, nerve regeneration, and cell death mechanisms.
- Image-based and innovative approaches to diagnosing and treating central nervous system injury and disease. Artificial intelligence, intelligent early diagnosis, medical big data analysis, scientometrics and multi-omics analysis.
- Mathematics and calculation model for prediction in neurodevelopment, degeneration and injury.
Injury and inflammation-related diseases of the nervous system are substantial public health threats worldwide, with the resulting suffering not only limited to the patients alone but also to their families and society as a whole. With the advent of novel neuroscience approaches, the fundamental understanding of physiological processes and pathological mechanisms of the neural system has substantially evolved over the past decades. Translating fundamental research into clinical applications is a critical step further toward the development of efficacious neurotherapeutics. In recent years, a series of cutting-edge technologies, disease models, diagnostics and therapeutics research, as well as computational and interdisciplinary tools have emerged. Despite promising progress, alarming concerns also exist regarding the efficacy of translational medicine, bringing challenges to clinicians in selecting the most promising method for patients. Therefore, continuous research pivoting around translational neuroscience is urgently needed to accelerate the discoveries in neuroscience from bench to bedside and ultimately improve the clinical outcomes for patients affected by neurological conditions.
The research topic aims to disseminate high-quality brain and neuroscience research, especially for the compositive and in-depth study in clinical translational research on Injury and inflammation-related diseases of the nervous system, including new technology in clinical neurology and neuroimaging, new developments in neuropharmacology, neurophysiology.
The scope of the topic for authors should be the new progress, technologies, methods, and achievements in the field of injury and inflammation-related diseases of the nervous system such as traumatic brain injury, neurological damage, and traumatic/septic encephalopathy. The topic includes but is not limited to the following:
- Translational research on diagnosis, treatment, and prognosis of injury and inflammation-related diseases of the nervous system, molecular mechanisms of central nervous system injury and disease, neuroinflammation, nerve regeneration, and cell death mechanisms.
- Image-based and innovative approaches to diagnosing and treating central nervous system injury and disease. Artificial intelligence, intelligent early diagnosis, medical big data analysis, scientometrics and multi-omics analysis.
- Mathematics and calculation model for prediction in neurodevelopment, degeneration and injury.