A host of neurotransmitters and neuroactive substances underlies respiratory regulation in health and disease. The centerpiece of investigations regarding adaptation to hypoxia and sensorial perception has been the dopaminergic system. It is now clear that a complex interaction among various neuroactive substances, rather than a single one, forms the basis of respiratory changes. The research on neurotransmitter interactions provides the knowledge of how the brain functions and a new level of understanding of mind-to-body connection, which opens up avenues for novel therapeutic interventions.
A host of neurotransmitters and neuroactive substances underlies respiratory regulation in health and disease. The centerpiece of investigations regarding adaptation to hypoxia and sensorial perception has been the dopaminergic system. It is now clear that a complex interaction among various neuroactive substances, rather than a single one, forms the basis of respiratory changes. The research on neurotransmitter interactions provides the knowledge of how the brain functions and a new level of understanding of mind-to-body connection, which opens up avenues for novel therapeutic interventions.
A blend of basic and clinical science A guide on neuroactive substances in brain function A survey of measures to improve healthspan Includes supplementary material: sn.pub/extras
Mieczyslaw Pokorski
Adaptation to disease Anesthesiology complication Apoptosis Biogenic amines Central nervous system Chronic care model Cognitive functioning Dopaminergic system Extreme environment Hypoxic ventilatory response Monoaminooxidase Neurodegeneration Oxygen depletion Prophylaxis Substantia nigra