par Hossein, Amin 
;Rabineau, Jérémy ;Gorlier, Damien ;Pinki, Farhana;Van De Borne, Philippe ;Nonclercq, Antoine ;Migeotte, Pierre-François
Référence BioMedical engineering online, 20, 1
Publication Publié, 2021-01-06
;Rabineau, Jérémy ;Gorlier, Damien ;Pinki, Farhana;Van De Borne, Philippe ;Nonclercq, Antoine ;Migeotte, Pierre-François Référence BioMedical engineering online, 20, 1
Publication Publié, 2021-01-06
Article révisé par les pairs
| Résumé : | Background: Kinocardiography (KCG) is a promising new technique used to monitor cardiac mechanical function remotely. KCG is based on ballistocardiography (BCG) and seismocardiography (SCG), and measures 12 degrees-of-freedom (DOF) of body motion produced by myocardial contraction and blood flow through the cardiac chambers and major vessels. Results: The integral of kinetic energy (iK) obtained from the linear and rotational SCG/BCG signals was computed over each dimension over the cardiac cycle, and used as a marker of cardiac mechanical function. We tested the hypotheses that KCG metrics can be acquired using different sensors, and at 50 Hz. We also tested the effect of record length on the ensemble average on which the metrics were computed. Twelve healthy males were tested in the supine, head-down tilt, and head-up tilt positions to expand the haemodynamic states on which the validation was performed. Conclusions: KCG metrics computed on 50 Hz and 1 kHz SCG/BCG signals were very similar. Most of the metrics were highly similar when computed on different sensors, and with less than 5% of error when computed on record length longer than 60 s. These results suggest that KCG may be a robust and non-invasive method to monitor cardiac inotropic activity. Trial registration Clinicaltrials.gov, NCT03107351. Registered 11 April 2017, https://clinicaltrials.gov/ct2/show/NCT03107351?term=NCT03107351&draw=2&rank=1. |
