- UHRA Home
- Browsing by Author
Browsing by Author "Mahfouf, M."
Now showing items 1-16 of 16
-
Absolute EIT Coupled to A Blood Gas Physiological Model for The Assessment of Lung Ventilation in Critical Care Patients
Denai, Mouloud; Mohamed-Samuri, S.; Mahfouf, M.; Mills, G.H. (2010) -
Absolute Electrical Impedance Tomography (aEIT) Guided Ventilation Therapy in Critical Care Patients : Simulations and Future Trends
Denai, Mouloud; Mahfouf, M.; Mohamed-Samuri, S.; Panoutsos, G.; Mills, G.H.; Brown, B.H. (2010)Thoracic electrical impedance tomography (EIT) is a noninvasive, radiation-free monitoring technique whose aim is to reconstruct a cross-sectional image of the internal spatial distribution of conductivity from electrical ... -
Hierarchical Self-Organising Decision Support System for the Management of Septic Shock Patients
King, O.K.; Mahfouf, M.; Denai, Mouloud; Ross, J.J.; Abbod, M. (2011)An on-line intelligent advisory system (IAS) for the management of septic patients emerging from cardiopulmonary bypass (CPB) has been developed and evaluated on a comprehensive physiological model which incorporates ... -
A Hybrid Hierarchical Decision Support System for Cardiac Surgical Intensive Care Patients. Part I : Physiological Modeling and Decision Support Design
Denai, Mouloud; Mahfouf, M.; Ross, J.J. (2009-01)To develop a clinical decision support system (CDSS) that models the different levels of the clinician's decision-making strategies when controlling post cardiac surgery patients weaned from cardio pulmonary bypass -
A Hybrid Hierarchical Decision Support System for Cardiac Surgical Intensive Care Patients. Part II : Clinical Implementation and Evaluation
Ross, J.J.; Denai, Mouloud; Mahfouf, M. (2009-01)Patients emerging from cardiac surgery can display varying degrees of cardiovascular instability arising from potentially complex, multi-factorial and interlinked causes. Stabilization and control of the cardiovascular ... -
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 ... -
Modeling and Simulation of Electrical Impedance Tomography (EIT) on Ventilated Patients with ARDS Lungs
Denai, Mouloud; Mahfouf, M.; Mills, G.H. (2008)Bedside monitoring of lung recruitment is a key feature in the ventilatory management of patients with acute respiratory distress syndrome. Electrical Impedance Tomography is a relatively new imaging technique which ... -
Real-Time Decision Support of Cardiovascular Parameters in Cardiac Surgery Patients: : Clinical Implementation and Evaluation
Ross, J.J.; Mahfouf, M.; Denai, Mouloud (2008-04-01) -
Real-Time Decision Support of Cardiovascular Parameters in Cardiac Surgery Patients: : System Architecture and System Operation
Ross, J.J.; Mahfouf, M.; Denai, Mouloud (2008-04-01) -
Recursive Fuzzy Predictions of Future Patient Paths to Support Clinical Decision Making in ICU
Zeghbib, A.; Mahfouf, M.; Ross, J.J.; Mills, G.H.; Panoutsos, G.; Denai, Mouloud; Suzani, S. (2012) -
Suggestive Therapeutic Pathways Using Hyper-Heuristics
Rattadilok, P.; Mahfouf, M.; Ross, J.J.; Mills, G.H.; Panoutsos, G.; Zeghbib, A.; Denai, Mouloud (2012)Therapeutic decision support can be used to promptly assist clinical decision making process. This paper presents a novel approach to interpreting multiple data streams in intensive care environments, the resulting model ... -
Towards a Patient-Specific Model of Lung Volume Using Absolute Electrical Impedance Tomography (aEIT)
Mohamed-Samuri, S.; Panoutsos, G.; Mahfouf, M.; Mills, G.H.; Denai, Mouloud; Brown, B.H. (Springer Nature, 2013)Electrical Impedance Tomography (EIT), and in particular its application to pulmonary measurement, has been the subject of intensive research since its development in the early 1980s by Barber and Brown. One of the relatively ...