Simultaneous monitoring of vocal doses and breathing patterns in professional singers

Background: When learning and improving singing, the quantitative characterization of artists’ performances based only on vocal parameters does not provide enough information to identify strategies for improvement. Simultaneous monitoring of sound production and breathing patterns in professional singers can allow the exploration of the mechanisms that promote effective singing modalities through association with respiratory efforts. Methods: We developed and tested a novel portable device that simultaneously monitors vocal activity and breathing patterns without interfering with natural singing. The device utilizes a combination of a miniature accelerometer to measure vocal doses from skin vibrations on the neck and two respiratory inductive plethysmography (RIP) bands to estimate the breathing pattern by measuring changes in the thoracoabdominal cross-sectional area. Results: The device was tested on 13 professional baroque-style singers and 14 untrained individuals during the execution of singing tasks. It was accurate compared with reference systems (R2 = 0.99 and R2 = 0.91 for the accelerometer and RIP, respectively) and showed differences between the two groups (p ≤ 0.001). Conclusions: By allowing a quantitative characterization of the effectiveness of singing technique, this novel device can help provide a better understanding of the physiology of singing and may be a tool for support learning and training optimization for professional singers.