Contributions related to the central theme of biological oscillations are warmly invited, and the following list is intended to be indicative rather than exclusive.

• Methods for analysis of cardiovascular signals at all levels of complexity
• Novel methods for recording cardiovascular and related biological oscillations
• Interactions, couplings and how to detect them
• Entropy and information from biological oscillations
• Phase dynamics for capturing biological oscillations
• Physiological and biological interpretations of oscillations
• Brain connectivity and methods to study connectivity
• Cardiovascular-brain interactions
• Oscillations of microvascular flow and blood flow oxygenation
• Calcium oscillations and oscillations of vascular endothelial activity
• Metabolic oscillations at cellular level
• Changes in cardiovascular & brain oscillations & waves in anaesthesia, coma and with ageing
• Cardiovascular, metabolic, and endocrine dysfunctions of oscillations and their couplings
• Oscillations in wounds and malignant tissues
• Heart rate variability, blood pressure variability and hypertension, and other applications