公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2014 | A mathematical framework for minimally invasive tumor ablation therapies | Hall S.K.; Ooi E.H.; Payne S.J.; STEPHEN JOHN PAYNE | Critical Reviews in Biomedical Engineering | | | |
2014 | A mathematical model of cellular metabolism during ischemic stroke and hypothermia | Orlowski P.; McConnell F.K.; Payne S.; STEPHEN JOHN PAYNE | IEEE Transactions on Biomedical Engineering | | | |
2017 | A mathematical model of cellular swelling in Neuromyelitis optica | Laranjeira S.; Symmonds M.; Palace J.; Payne S.J.; Orlowski P.; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | | | |
2015 | Mathematical model of the effect of ischemia-reperfusion on brain capillary collapse and tissue swelling | Mohamed Mokhtarudin M.J.; Payne S.J.; STEPHEN JOHN PAYNE | Mathematical Biosciences | 27 | 24 | |
2017 | Mathematical model of the post-ablation enhancement zone as a tissue-level oedematic response | Liu C.; Park C.S.; Hall S.K.; Payne S.J.; STEPHEN JOHN PAYNE | International Journal of Hyperthermia | | | |
2010 | Mathematical modeling of directional effects of perfusion on liver tissue temperature of radio frequency ablation | Peng T.; O'Neill D.P.; Payne S.J.; Bost C.; Flanagan R.; STEPHEN JOHN PAYNE | IFMBE Proceedings | | | |
2010 | Mathematical modeling of thermal ablation | Payne S.J.; Peng T.; O'Neill D.P.; STEPHEN JOHN PAYNE | Critical Reviews in Biomedical Engineering | | | |
2021 | Mathematical modelling of haemorrhagic transformation after ischaemic stroke | Wang J; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | 3 | 2 | |
2023 | Mathematical modelling of haemorrhagic transformation in the human brain | Chen, Xi; Wang, Jiayu; van Kranendonk, Katinka R.; Józsa, Tamas I.; El-Bouri, Wahbi K.; Kappelhof, Manon; van der Sluijs, Matthijs; Dippel, Diederik; Roos, Yvo B.W.M.; Marquering, Henk A.; Majoie, Charles B.L.M.; STEPHEN JOHN PAYNE | Applied Mathematical Modelling | 0 | 0 | |
2022 | Mathematical modelling of haemorrhagic transformation within a multiscale microvasculature network | Wang J; Van Kranendonk K.R; El-Bouri W.K; Majoie C.B.L.M; STEPHEN JOHN PAYNE | Physiological Measurement | 3 | 0 | |
2011 | Mathematical study of the effects of different intrahepatic cooling on thermal ablation zones | Peng T.; O'Neill D.; Payne S.; STEPHEN JOHN PAYNE | Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS | | | |
2007 | The measurement of cerebral metabolic rate of oxygen with cytochrome oxidase | Price O.D.; Rowley A.B.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | | | |
2005 | A method for the automated detection of venous gas bubbles in humans using empirical mode decomposition | Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Annals of Biomedical Engineering | | | |
2007 | Methods in the analysis of the effects of gravity and wall properties in blood flow through vascular systems | Payne S.J.; Uzel S.; STEPHEN JOHN PAYNE | Biomechanical Systems Technology: Cardiovascular Systems | | | |
2017 | A model for generating synthetic arterial blood pressure | Mahdi A.; Clifford G.D.; Payne S.J.; STEPHEN JOHN PAYNE | Physiological Measurement | | | |
2018 | A model for the optimization of anti-inflammatory treatment with chemerin | Laranjeira S.; Regan-Komito D.; Iqbal A.J.; Greaves D.R.; Payne S.J.; Orlowski P.; STEPHEN JOHN PAYNE | Interface Focus | | | |
2006 | A model of the interaction between autoregulation and neural activation in the brain | Payne S.J.; STEPHEN JOHN PAYNE | Mathematical Biosciences | | | |
2016 | A model of tissue contraction during thermal ablation | Park C.S.; Hall S.K.; Liu C.; Payne S.J.; STEPHEN JOHN PAYNE | Physiological Measurement | | | |
2014 | Modeling and correction of bolus dispersion effects in dynamic susceptibility contrast MRI | Mehndiratta A.; Calamante F.; Macintosh B.J.; Crane D.E.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | Magnetic Resonance in Medicine | | | |
2013 | Modeling dispersion in arterial spin labeling: Validation using dynamic angiographic measurements | Chappell M.A.; Woolrich M.W.; Kazan S.; Jezzard P.; Payne S.J.; MacIntosh B.J.; STEPHEN JOHN PAYNE | Magnetic Resonance in Medicine | | | |