Non-contact respiration monitoring using impulse radio ultrawideband radar in neonates

• Published in: Royal Society open science Vol. 6; no. 6; p. 190149
• Main Authors: Kim, Jong Deok, Lee, Won Hyuk, Lee, Yonggu, Lee, Hyun Ju, Cha, Teahyen, Kim, Seung Hyun, Song, Ki-Min, Lim, Young-Hyo, Cho, Seok Hyun, Cho, Sung Ho, Park, Hyun-Kyung
• Format: Journal Article
• Language: English
• Published: England The Royal Society 01.06.2019
• Subjects: Engineering; impulse radio ultrawideband radar; neonatal intensive care unit; newborn; non-contact sensor; respiratory rate; non-contact sensor; newborn; neonatal intensive care unit; respiratory rate; impulse radio ultrawideband radar
• ISSN: 2054-5703; 2054-5703
• DOI: 10.1098/rsos.190149

Vital sign monitoring in neonates requires adhesive electrodes, which often damage fragile newborn skin. Because impulse radio ultrawideband (IR-UWB) radar has been reported to recognize chest movement without contact in adult humans, IR-UWB may be used to measure respiratory rates (RRs) in a non-contact fashion. We investigated the feasibility of radar sensors for respiration monitoring in neonates without any respiratory support to compare the accuracy and reliability of radar measurements with those of conventional impedance pneumography measurements. In the neonatal intensive care unit, RRs were measured using radar (RR ) and impedance pneumography (RR ) simultaneously. The neonatal voluntary movements were measured using the radar sensor and categorized into three levels (low [M ], intermediate [M ] and high [M ]). RR highly agreed with RR ( = 0.90; intraclass correlation coefficient [ICC] = 0.846 [0.835-0.856]). For the M movement, there was good agreement between RR and RR (ICC = 0.893; mean bias -0.15 [limits of agreement (LOA) -9.6 to 10.0]). However, the agreement was slightly lower for the M (ICC = 0.833; mean bias = 0.95 [LOA -11.4 to 13.3]) and M (ICC = 0.749; mean bias = 3.04 [LOA -9.30 to 15.4]) movements than for the M movement. In conclusion, IR-UWB radar can provide accurate and reliable estimates of RR in neonates in a non-contact fashion. The performance of radar measurements could be affected by neonate movement.