Vascular homeostasis is integral to proper functioning of the body. Remodeling is the process of active changes in vascular structure and function after vascular wall injury. Vascular homeostasis and remodeling not only maintain cell biological functions but are also a critical link to disease progression. Various diseases with vascular homeostasis and remodeling as pathological triggers have posed a significant threat to human health. Increasing evidence indicates that the imbalance between vascular homeostasis and remodeling significantly correlates with neurological diseases, such as stroke, other cerebrovascular diseases, brain tumors, and neurodegenerative diseases. Vascular homeostasis and remodeling lead to disease progression by regulating metabolism, oxidative stress, neural plasticity, and inflammation. The research on identifying mechanisms of vascular homeostasis and remodeling not only reveals the role of vascular remodeling in the progression of neurological diseases, but also sheds a new light on the early diagnosis, intervention strategies and prevention models of neurological diseases. Vascular homeostasis and remodeling promise to become a new breakthrough in the treatment of neurological diseases.
The goal of this research topic is to discuss and elucidate the functional role of vascular homeostasis and remodeling in neurological diseases. We are looking for Review and Original Research manuscripts focusing on, but not limited to underlying mechanisms of vascular homeostasis and remodeling by investigating metabolism, oxidative stress, neural plasticity, and inflammation. Furthermore, we would like to receive research papers that establish new early diagnostic approaches, intervention strategies and prevention models for major vascular diseases.
1. The functions and signaling pathways of critical molecules related to vascular homeostasis and remodeling in neurological diseases;
2. Identify therapeutic targets based on vascular homeostasis and remodeling in neurological diseases;
3. New strategies and mechanisms for the prevention and treatment of neurological diseases;
4. Apply multidisciplinary research methods to carry out translational medical research on the occurrence and development of neurological diseases during the process of vascular homeostasis imbalance;
5. Apply new technologies to further investigate the role and molecular mechanism of vascular homeostasis imbalance in major neurological diseases.
Vascular homeostasis is integral to proper functioning of the body. Remodeling is the process of active changes in vascular structure and function after vascular wall injury. Vascular homeostasis and remodeling not only maintain cell biological functions but are also a critical link to disease progression. Various diseases with vascular homeostasis and remodeling as pathological triggers have posed a significant threat to human health. Increasing evidence indicates that the imbalance between vascular homeostasis and remodeling significantly correlates with neurological diseases, such as stroke, other cerebrovascular diseases, brain tumors, and neurodegenerative diseases. Vascular homeostasis and remodeling lead to disease progression by regulating metabolism, oxidative stress, neural plasticity, and inflammation. The research on identifying mechanisms of vascular homeostasis and remodeling not only reveals the role of vascular remodeling in the progression of neurological diseases, but also sheds a new light on the early diagnosis, intervention strategies and prevention models of neurological diseases. Vascular homeostasis and remodeling promise to become a new breakthrough in the treatment of neurological diseases.
The goal of this research topic is to discuss and elucidate the functional role of vascular homeostasis and remodeling in neurological diseases. We are looking for Review and Original Research manuscripts focusing on, but not limited to underlying mechanisms of vascular homeostasis and remodeling by investigating metabolism, oxidative stress, neural plasticity, and inflammation. Furthermore, we would like to receive research papers that establish new early diagnostic approaches, intervention strategies and prevention models for major vascular diseases.
1. The functions and signaling pathways of critical molecules related to vascular homeostasis and remodeling in neurological diseases;
2. Identify therapeutic targets based on vascular homeostasis and remodeling in neurological diseases;
3. New strategies and mechanisms for the prevention and treatment of neurological diseases;
4. Apply multidisciplinary research methods to carry out translational medical research on the occurrence and development of neurological diseases during the process of vascular homeostasis imbalance;
5. Apply new technologies to further investigate the role and molecular mechanism of vascular homeostasis imbalance in major neurological diseases.