But, among other shortcomings, common respiratory assessments can be subjective and are only as good as the quality of the exam. While the advent of multipoint electronic stethoscopes has helped in terms of identifying abnormalities during normal breathing, there remains a dearth of technological devices that can help characterize surface vibrations produced by vocalizations.
In AIP Advances, by AIP Publishing, a team of French researchers demonstrated the efficacy of ultrasound technology to detect low-amplitude movements produced by vocalizations at the surface of the chest. They also demonstrated the possibility of using the “airborne ultrasound surface motion camera” (AUSMC) to map these vibrations during short durations so as to illustrate their evolution.
“AUSMC is a new imaging technology that allows the observation of the human thorax surface vibrations due to respiratory and cardiac activities at high frame rates of typically 1,000 images per second,” said author Mathieu Couade. “The technology shares the physical principle of conventional ultrasound Doppler imaging, but it does not require a probe to be applied on the skin.”
The researchers tested the AUSMC on 77 healthy volunteers to image the surface vibrations caused by natural vocalizations with the aim of reproducing the “vocal fremitus” – vocalization-induced vibrations on the surface of the body – as typically analyzed during physical examination of the thorax. Surface vibrations induced were detectable on all subjects, they reported.
“The spatial distribution of vibrational energy was found to be asymmetric to the benefit of the right size of the chest, and frequency dependent in the anteroposterior axis,” said Couade. “As expected, the frequency distribution of vocalization does not overlap between men and women, with the latter being higher.”
Ongoing clinical trials will use the AUSMC to focus on the identification of lung pathologies. But the researchers are hopeful that the technology, coupled with artificial intelligence algorithms, could usher in a new era of thorax examination in which vibration patterns can be isolated. This would offer a much better window on respiratory health and enable better diagnoses of respiratory diseases.
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The article “Airborne ultrasound for the contactless mapping of surface thoracic vibrations during human vocalizations: A pilot study” is authored by Frédéric Wintzenrieth, Mathieu Couade, Feizheun Lehanneur, Pierantonio Laveneziana, Marie Cécile Niérat, Nicolas Verger, Mathias Fink, Thomas Similowski, and Ros Kiri Ing. The article will appear in will appear in AIP Advances on March 19, 2024 (DOI: 10.1063/5.0187945). After that date, it can be accessed at https://www.doi.org/10.1063/5.0187945.
ABOUT THE JOURNAL
AIP Advances is an open access journal publishing in all areas of physical sciences—applied, theoretical, and experimental. The inclusive scope of AIP Advances makes it an essential outlet for scientists across the physical sciences. See https://aip.scitation.org/journal/adv.
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