Episciences.org TEI export of mbj:16135 - Multidisciplinary Biomechanics Journal, 2025-10-24, 50th congress of the Société de Biomécanique

Episciences.org TEI export of mbj:16135 - Multidisciplinary Biomechanics Journal, 2025-10-24, 50th congress of the Société de BiomécaniqueCCSD - EpisciencesAttribution 4.0 International (CC BY 4.0)

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A combined modeling and AI-driven optimization approach to enhance surfactant replacement therapy in adult lungsPhilippeMeliga0000-0001-9889-0520GregorRoncinElieHachem0000-0002-2202-63972025-10-23 15:48:512025-10-24 15:03:10contributorEpisciencesSystem Accountsystem-account@episciences.orgCCSDmbj:16135http://mbj.episciences.org/16135mbj:16135 - Multidisciplinary Biomechanics Journal, 2025-10-24, 50th congress of the Société de BiomécaniqueAttribution 4.0 International (CC BY 4.0)A combined modeling and AI-driven optimization approach to enhance surfactant replacement therapy in adult lungsPhilippeMeliga0000-0001-9889-0520GregorRoncinElieHachem0000-0002-2202-6397hal-051916873076-1158Multidisciplinary Biomechanics JournalSociété de BiomécaniqueParis, France50th congress of the Société de BiomécaniqueFluid and biological flows2025-10-24T15:03:10+02:0010.46298/mbj.16135EnglishRespiratory Distress SyndromeSurfactant Replacement TherapyPulmonary Drug DeliveryBiological Fluid MechanicsDeep Reinforcement Learning[PHYS.MECA.BIOM]Physics [physics]/Mechanics [physics]/Biomechanics [physics.med-ph]

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https://ror.org/00qm1ye08Centre de Mise en Forme des Matériaux