公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
---|---|---|---|---|---|---|
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 | |||
2006 | Modeling the cycles of growth and detachment of bubbles in carbonated beverages | Uzel S.; Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Physical Chemistry B | |||
2007 | Modeling the detachment and transport of bubbles from nucleation sites in small vessels | Chappell M.A.; Uzel S.; Payne S.J.; STEPHEN JOHN PAYNE | IEEE Transactions on Biomedical Engineering | |||
2009 | Modeling the effects of flow dispersion in arterial spin labeling | Kazan S.M.; Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | IEEE Transactions on Biomedical Engineering | |||
2014 | Modeling the residue function in DSC-MRI simulations: Analytical approximation to in vivo data | Mehndiratta A.; Calamante F.; Macintosh B.J.; Crane D.E.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | Magnetic Resonance in Medicine | |||
2018 | Modelling dynamic changes in blood flow and volume in the cerebral vasculature | Payne S.J.; El-Bouri W.K.; STEPHEN JOHN PAYNE | NeuroImage | |||
2010 | Modelling the effects of cardiac pulsations in arterial spin labelling | Kazan S.M.; Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Physics in Medicine and Biology | |||
2016 | Modelling the effects of cerebral microvasculature morphology on oxygen transport | Park C.S.; Payne S.J.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
2015 | Multi-scale homogenization of blood flow in 3-dimensional human cerebral microvascular networks | El-Bouri W.K.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | |||
2021 | Multiscale Modelling of 3-Dimensional Brain Tissue with Capillary Distribution | Shabudin A.; Mokhtarudin M.J.M.; El-Bouri W.K.; Payne S.J.; Naim W.N.W.A.; Mohamed N.A.N.; STEPHEN JOHN PAYNE | Proceedings - 2020 IEEE EMBS Conference on Biomedical Engineering and Sciences, IECBES 2020 | |||
2008 | Multivariate system identification for cerebral autoregulation | Peng T.; Rowley A.B.; Ainslie P.N.; Poulin M.J.; Payne S.J.; STEPHEN JOHN PAYNE | Annals of Biomedical Engineering | |||
2007 | Multivariate system identification of cerebral autoregulation | Peng T.; Rowley A.B.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | |||
2011 | Nonlinear and viscous effects on wave propagation in an elastic axisymmetric vessel | Park C.S.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Fluids and Structures | |||
2013 | Optimal sampling schedule for chemical exchange saturation transfer | Tee Y.K.; Khrapitchev A.A.; Sibson N.R.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | Magnetic Resonance in Medicine | |||
2018 | Oxygen delivery from the cerebral microvasculature to tissue is governed by a single time constant of approximately 6?seconds | Payne S.J.; Lucas C.; STEPHEN JOHN PAYNE | Microcirculation | |||
2014 | Phase-rectified signal averaging for intrapartum electronic fetal heart rate monitoring is related to acidaemia at birth | Georgieva A.; Papageorghiou A.T.; Payne S.J.; Moulden M.; Redman C.W.G.; STEPHEN JOHN PAYNE | BJOG: An International Journal of Obstetrics and Gynaecology | |||
2006 | A physiological model of gas pockets in crevices and their behavior under compression | Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Respiratory Physiology and Neurobiology | |||
2006 | A physiological model of the interaction between tissue bubbles and the formation of blood-borne bubbles under decompression | Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Physics in Medicine and Biology | |||
2006 | A physiological model of the release of gas bubbles from crevices under decompression | Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Respiratory Physiology and Neurobiology |