Modern telemetry machines now allow continuous monitoring of cardiovascular, respiratory and neurological signals in freely moving animals, producing more representative data by removing the stress factors associated with tethered systems.Across the biomedical research sector, there is growing adoption of technologies that improve the accuracy and reliability of physiological data collection while maintaining animal welfare standards. In particular, modern telemetry machines now allow continuous monitoring of cardiovascular, respiratory and neurological signals in freely moving animals, producing more representative data by removing the stress factors associated with tethered systems. These wireless setups record multiple signal types simultaneously, supporting long-term studies of behaviour, activity and physiological change under natural conditions.
At the same time, precision force transducers have become fundamental tools in biomechanics, muscle physiology and tissue mechanics research. These devices convert physical tension or compression into electrical signals for accurate measurement, enabling the analysis of contraction strength, fatigue and recovery in a range of controlled experimental environments. Researchers rely on their sensitivity and stability to detect even minor variations in mechanical output.
Together, these two technologies are helping laboratories achieve more consistent and detailed results in studies that demand both high temporal resolution and minimal interference with normal biological function. The ongoing refinement of measurement hardware and integration with digital data acquisition platforms continues to advance the quality and reproducibility of physiological research worldwide.