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Browsing by Author "Linkens, D.A."
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Hybrid Physiological Modeling of Subjects Undergoing Cyclic Physical Loading
Nassef, A.M.; Mahfouf, M.; Ting, C.H.; Elsamahy, E.; Linkens, D.A.; Denai, Mouloud (2010) -
An Integrated Physiological Model of the Lung Mechanics and Gas Exchange Using Electrical Impedance Tomography in the Analysis of Ventilation Strategies in ARDS Patients
Denai, Mouloud; Mahfouf, M.; Wang, A.; Linkens, D.A.; Mills, G.H. (2010) -
Intelligent Model-Based Advisory System for the Management of Ventilated Intensive Care Patients – Part I : Hybrid Blood Gas Patient Model
Wang, A.; Mahfouf, M.; Mills, G.H.; Panoutsos, G.; Linkens, D.A.; Goode, K.; Denai, Mouloud (2010-08)Arterial blood gas (ABG) analyses are essential for assessing the acid–base status and guiding the adjustment of mechanical ventilation in critically ill patients. Conventional ABG sampling requires repeated arterial ... -
Intelligent Model-Based Advisory System for the Management of Ventilated Intensive Care Patients – Part II : Advisory System Design and Evaluation
Wang, A.; Mahfouf, M.; Mills, G.H.; Panoutsos, G.; Linkens, D.A.; Goode, K.; Kwok, H.F.; Denai, Mouloud (2010-08)The optimisation of ventilatory support is a crucial issue for the management of respiratory failure in critically ill patients, aiming at improving gas exchange while preventing ventilator-induced dysfunction of the ... -
The Mk3.5 aEIT System: a Review of Recent Updates and Future Trends
Mohamed-Samuri, S.; Denai, Mouloud; Panoutsos, G.; Mahfouf, M.; Mills, G.H.; Meekings, T.; Linkens, D.A.; Brown, B.H. (2009)The Mk3.5 absolute EIT system provides the ability to non-invasively and continuously monitor the absolute resistivity and regional ventilation distribution in the lungs. This can greatly enhance clinical diagnosis of lung ...