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Ghent University Academic Bibliography

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01JKFMJ07DJ2D4KHQNPJHTNSS7 classification A1.
01JKFMJ07DJ2D4KHQNPJHTNSS7 date "2025".
01JKFMJ07DJ2D4KHQNPJHTNSS7 language "eng".
01JKFMJ07DJ2D4KHQNPJHTNSS7 type journalArticle.
01JKFMJ07DJ2D4KHQNPJHTNSS7 hasPart 01JKFMKHVBJCWV4S3E1MPTBNYR.pdf.
01JKFMJ07DJ2D4KHQNPJHTNSS7 subject "Technology and Engineering".
01JKFMJ07DJ2D4KHQNPJHTNSS7 doi "10.3390/app15020751".
01JKFMJ07DJ2D4KHQNPJHTNSS7 issn "2076-3417".
01JKFMJ07DJ2D4KHQNPJHTNSS7 issue "2".
01JKFMJ07DJ2D4KHQNPJHTNSS7 volume "15".
01JKFMJ07DJ2D4KHQNPJHTNSS7 abstract "Early assessment of respiratory mechanics is crucial for early-stage diagnosing and managing lung diseases, leading to greater patient outcomes. Traditional methods like spirometry are limited in continuous monitoring and patient compliance as they require forced maneuvers with significant patient cooperation, which may not be available in fragile individuals. The Forced Oscillation Technique (FOT) is a non-invasive measurement method, only based on the tidal breathing at rest from the patient for a limited time period. The proposed solution integrates low-frequency FOT with continuous monitoring using Equivital (EQV) sensors to enhance respiratory mechanics information with heart rate variability. Data were collected over a two-hour period from six healthy volunteers, measuring respiratory impedance every 7 min and continuously recording physiological parameters. The best-fitting fractional-order models for impedance data were identified using genetic algorithms. This study also explores the correlation between impedance model parameters and EQV data, discussing the potential of AI tools for forecasting respiratory properties. Our findings indicate that combined monitoring techniques and AI analysis provides additional complementary information, subsequently aiding the improved evaluation of respiratory function and tissue mechanics. The proposed protocol allows for ambulatory assessment and can be easily performed in normal breathing conditions.".
01JKFMJ07DJ2D4KHQNPJHTNSS7 author 30a972b2-9784-11ed-bac3-dd73abd88931.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author 3DF4B582-F0EE-11E1-A9DE-61C894A0A6B4.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author 88292577-c5ac-11ec-a948-846bba855e46.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author 9347753b-3249-11ee-a7ea-df2862ac6552.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author 9C5754C4-530B-11E8-AC68-92A811A95AF2.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author C10E6192-1B01-11E2-A477-54B510BDE39D.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author F6F803D2-F0ED-11E1-A9DE-61C894A0A6B4.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author b13acc98-cb2c-11ec-887a-cc1b0132e2ed.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author urn:uuid:43e95d35-0aee-437a-9f0f-0a053bcee3cd.
01JKFMJ07DJ2D4KHQNPJHTNSS7 author urn:uuid:b5018577-cb6f-4af5-b244-aacd4956332c.
01JKFMJ07DJ2D4KHQNPJHTNSS7 dateCreated "2025-02-07T07:21:31Z".
01JKFMJ07DJ2D4KHQNPJHTNSS7 dateModified "2025-03-03T12:30:48Z".
01JKFMJ07DJ2D4KHQNPJHTNSS7 name "Integrated solution combining low-frequency forced oscillation technique and continuous equivital sensor monitoring for assessment of non-invasive ambulatory respiratory mechanics".
01JKFMJ07DJ2D4KHQNPJHTNSS7 pagination urn:uuid:5af7993c-077c-43e9-8f5e-2989a23df625.
01JKFMJ07DJ2D4KHQNPJHTNSS7 sameAs LU-01JKFMJ07DJ2D4KHQNPJHTNSS7.
01JKFMJ07DJ2D4KHQNPJHTNSS7 sourceOrganization urn:uuid:1cd1ae09-b83d-489c-a33f-a21d2590a871.
01JKFMJ07DJ2D4KHQNPJHTNSS7 type A1.