公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
---|---|---|---|---|---|---|
2013 | A generalized mathematical framework for estimating the residue function for arbitrary vascular networks | Park C.S.; Payne S.J.; STEPHEN JOHN PAYNE | Interface Focus | |||
2007 | High-frequency effects in the aspirating probe | Payne S.J.; Moxon A.J.W.; STEPHEN JOHN PAYNE | Journal of Turbomachinery | |||
2017 | Identifiability of Generalized Randles Circuit Models | Alavi S.M.M.; Mahdi A.; Payne S.J.; Howey D.A.; STEPHEN JOHN PAYNE | IEEE Transactions on Control Systems Technology | |||
2018 | Identifying the myogenic and metabolic components of cerebral autoregulation | Payne S.J.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
2017 | Increased blood pressure variability upon standing up improves reproducibility of cerebral autoregulation indices | Mahdi A.; Nikolic D.; Birch A.A.; Olufsen M.S.; Panerai R.B.; Simpson D.M.; Payne S.J.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
2018 | Investigating the effects of a penetrating vessel occlusion with a multi-scale microvasculature model of the human cerebral cortex | El-Bouri W.K.; Payne S.J.; STEPHEN JOHN PAYNE | NeuroImage | |||
2020 | Lung heterogeneity and deadspace volume in animals with acute respiratory distress syndrome using the inspired sinewave test | Tran M.C.; Crockett D.C.; Formenti F.; Phan P.A.; Hedenstierna G.; Larsson A.; Payne S.J.; Farmery A.D.; STEPHEN JOHN PAYNE | Physiological Measurement | 4 | ||
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 | |||
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 | 29 | 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 | |||
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 |