Respiration parameter determination with non-obstructive methods

Fisahn, Sven; Siebauer, Christian; Ringkamp, Jan; Dehning, Kirsten J.; Zimmermann, Stefan; Langejürgen, Jens

doi:https://doi.org/10.5194/ars-18-89-2020

Articles | Volume 18

https://doi.org/10.5194/ars-18-89-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/ars-18-89-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18

10 Dec 2020

| 10 Dec 2020

Respiration parameter determination with non-obstructive methods

Sven Fisahn, Christian Siebauer, Jan Ringkamp, Kirsten J. Dehning, Stefan Zimmermann, and Jens Langejürgen

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Total article views: 1,853 (including HTML, PDF, and XML)

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Views and downloads (calculated since 10 Dec 2020)

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Dec 2020	61	26	3	90
Jan 2021	85	11	0	96
Feb 2021	54	5	1	60
Mar 2021	91	9	0	100
Apr 2021	106	9	0	115
May 2021	140	5	3	148
Jun 2021	144	5	2	151
Jul 2021	208	5	0	213
Aug 2021	134	2	0	136
Sep 2021	48	4	0	52
Oct 2021	25	23	0	48
Nov 2021	19	19	0	38
Dec 2021	17	12	4	33
Jan 2022	13	14	0	27
Feb 2022	6	5	4	15
Mar 2022	8	8	1	17
Apr 2022	6	8	0	14
May 2022	2	6	1	9
Jun 2022	6	1	0	7
Jul 2022	6	3	0	9
Aug 2022	1	1	0	2
Sep 2022	10	1	0	11
Oct 2022	4	2	0	6
Nov 2022	8	2	0	10
Dec 2022	4	2	0	6
Jan 2023	7	7	0	14
Feb 2023	5	3	0	8
Mar 2023	4	1	1	6
Apr 2023	6	1	0	7
May 2023	8	3	3	14
Jun 2023	4	3	0	7
Jul 2023	10	4	0	14
Aug 2023	1	7	0	8
Sep 2023	6	3	1	10
Oct 2023	8	5	1	14
Nov 2023	1	0	1
Dec 2023	7	3	2	12
Jan 2024	9	0	9
Feb 2024	9	2	1	12
Mar 2024	17	4	0	21
Apr 2024	12	2	2	16
May 2024	12	6	3	21
Jun 2024	21	5	3	29
Jul 2024	19	6	4	29
Aug 2024	35	4	39
Sep 2024	10	4	1	15
Oct 2024	12	2	2	16
Nov 2024	8	5	1	14
Dec 2024	11	5	0	16
Jan 2025	5	4	0	9
Feb 2025	17	4	0	21
Mar 2025	15	5	0	20
Apr 2025	16	5	0	21
May 2025	10	5	2	17

Cumulative views and downloads (calculated since 10 Dec 2020)

Month	HTML	PDF	XML	Total
Dec 2020	61	26	3	90
Jan 2021	85	11	0	96
Feb 2021	54	5	1	60
Mar 2021	91	9	0	100
Apr 2021	106	9	0	115
May 2021	140	5	3	148
Jun 2021	144	5	2	151
Jul 2021	208	5	0	213
Aug 2021	134	2	0	136
Sep 2021	48	4	0	52
Oct 2021	25	23	0	48
Nov 2021	19	19	0	38
Dec 2021	17	12	4	33
Jan 2022	13	14	0	27
Feb 2022	6	5	4	15
Mar 2022	8	8	1	17
Apr 2022	6	8	0	14
May 2022	2	6	1	9
Jun 2022	6	1	0	7
Jul 2022	6	3	0	9
Aug 2022	1	1	0	2
Sep 2022	10	1	0	11
Oct 2022	4	2	0	6
Nov 2022	8	2	0	10
Dec 2022	4	2	0	6
Jan 2023	7	7	0	14
Feb 2023	5	3	0	8
Mar 2023	4	1	1	6
Apr 2023	6	1	0	7
May 2023	8	3	3	14
Jun 2023	4	3	0	7
Jul 2023	10	4	0	14
Aug 2023	1	7	0	8
Sep 2023	6	3	1	10
Oct 2023	8	5	1	14
Nov 2023	1	0	1
Dec 2023	7	3	2	12
Jan 2024	9	0	9
Feb 2024	9	2	1	12
Mar 2024	17	4	0	21
Apr 2024	12	2	2	16
May 2024	12	6	3	21
Jun 2024	21	5	3	29
Jul 2024	19	6	4	29
Aug 2024	35	4	39
Sep 2024	10	4	1	15
Oct 2024	12	2	2	16
Nov 2024	8	5	1	14
Dec 2024	11	5	0	16
Jan 2025	5	4	0	9
Feb 2025	17	4	0	21
Mar 2025	15	5	0	20
Apr 2025	16	5	0	21
May 2025	10	5	2	17

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Latest update: 22 May 2025

Short summary

In artificial ventilation of neonates uncuffed endotracheal tubes are commonly used. The unknown leakage hampers the detection of spontaneous breathing. A new method to measure respiration by using antennae has recently been presented. A respective setup is investigated numerically and experimentally. Both approaches show that the method seems capable of allowing a contactless triggering to synchronize ventilation. The results are compared to derive a better understanding of influencing factors.


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