Results 1-207 of 207 (Search time: 0.009 seconds).
Issue Date | Title | Author(s) | Source | scopus | WOS | Fulltext/Archive link | |
---|---|---|---|---|---|---|---|
1 | 2024 | Neurological intervention transition model for dynamic prediction of good outcome in spontaneous subarachnoid haemorrhage | Luo, Yiming; STEPHEN JOHN PAYNE | Scientific Reports | |||
2 | 2024 | The conducted vascular response as a mediator of hypercapnic cerebrovascular reactivity: A modelling study | Daher, Ali; STEPHEN JOHN PAYNE | Computers in Biology and Medicine | 1 | ||
3 | 2024 | Poroelastic modelling of brain tissue swelling and decompressive craniectomy treatment in ischaemic stroke | Nadzri, Aina Najwa; Nik Mohamed, Nik Abdullah; STEPHEN JOHN PAYNE ; Mohamed Mokhtarudin, Mohd Jamil | Computer Methods in Biomechanics and Biomedical Engineering | |||
4 | 2023 | Author Correction: A simplified mesoscale 3D model for characterizing fibrinolysis under flow conditions (Scientific Reports, (2023), 13, 1, (13681), 10.1038/s41598-023-40973-1) | Petkantchin, Remy; Rousseau, Alexandre; Eker, Omer; Zouaoui Boudjeltia, Karim; Raynaud, Franck; Chopard, Bastien; Majoie, Charles; van Bavel, Ed; Marquering, Henk; Arrarte‑Terreros, Nerea; Konduri, Praneeta; Georgakopoulou, Sissy; Roos, Yvo; Hoekstra, Alfons; Padmos, Raymond; Azizi, Victor; Miller, Claire; van der Kolk, Max; van der Lugt, Aad; Dippel, Diederik W.J.; Lingsma, Hester L.; Boodt, Nikki; Samuels, Noor; STEPHEN JOHN PAYNE ; Jozsa, Tamas; El‑Bouri, Wahbi K.; Gilvarry, Michael; McCarthy, Ray; Duffy, Sharon; Dwivedi, Anushree; Fereidoonnezhad, Behrooz; Moerman, Kevin; McGarry, Patrick; Staessens, Senna; de Meyer, Simon F.; Vandelanotte, Sarah; Migliavacca, Francesco; Dubini, Gabriele; Luraghi, Giulia; Rodriguez Matas, Jose Felix; Bridio, Sara; Blanc‑Guillemaud, Vanessa; Panteleev, Mikhail; Shibeko, Alexey | Scientific Reports | 0 | 0 | |
5 | 2023 | Human whole-brain models of cerebral blood flow and oxygen transport | STEPHEN JOHN PAYNE ; Mai, Van Phung | Brain Multiphysics | 0 | ||
6 | 2023 | A simplified mesoscale 3D model for characterizing fibrinolysis under flow conditions | Petkantchin, Remy; Rousseau, Alexandre; Eker, Omer; Zouaoui Boudjeltia, Karim; Raynaud, Franck; Chopard, Bastien; Majoie, Charles; van Bavel, Ed; Marquering, Henk; Arrarte-Terreros, Nerea; Konduri, Praneeta; Georgakopoulou, Sissy; Roos, Yvo; Hoekstra, Alfons; Padmos, Raymond; Azizi, Victor; Miller, Claire; van der Kolk, Max; van der Lugt, Aad; Dippel, Diederik W.J.; Lingsma, Hester L.; Boodt, Nikki; Samuels, Noor; STEPHEN JOHN PAYNE ; Jozsa, Tamas; El-Bouri, Wahbi K.; Gilvarry, Michael; McCarthy, Ray; Duffy, Sharon; Dwivedi, Anushree; Fereidoonnezhad, Behrooz; Moerman, Kevin; McGarry, Patrick; Staessens, Senna; de Meyer, Simon; Vandelanotte, Sarah; Migliavacca, Francesco; Dubini, Gabriele; Luraghi, Giulia; Rodriguez Matas, Jose Felix; Bridio, Sara; Raynaud, Franck; Blanc-Guillemaud, Vanessa; Panteleev, Mikhail; Shibeko, Alexey | Scientific Reports | 0 | 0 | |
7 | 2023 | Human whole-brain models of cerebral blood flow and oxygen transport | STEPHEN JOHN PAYNE ; Mai, Van Phung | Brain Multiphysics | 0 | 0 | |
8 | 2023 | A dynamic multiscale model of cerebral blood flow and autoregulation in the microvasculature | Daher, Ali; STEPHEN JOHN PAYNE | Applied Mathematical Modelling | 2 | 1 | |
9 | 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 | |
10 | 2023 | A network-based model of dynamic cerebral autoregulation | Daher, Ali; STEPHEN JOHN PAYNE | Microvascular Research | 8 | 2 | |
11 | 2023 | Investigating spatial variations in dynamic cerebral autoregulation through a computational model of stenosis | Tong, Zheng; STEPHEN JOHN PAYNE | Physiological Measurement | 1 | 0 | |
12 | 2023 | Interstitial fluid transport in a multi-compartment model of cerebral blood flow | STEPHEN JOHN PAYNE | Journal of Mechanics | |||
13 | 2023 | Applying systems thinking to unravel the mechanisms underlying orthostatic hypotension related fall risk | Wang, Liping; Pronk, Anouschka C.; van Poelgeest, Eveline P.; Briggs, Robert; Claassen, Jurgen A.H.R.; Jansen, Sofie; Klop, Marjolein; de Lange, Frederik J.; Meskers, Carel C.G.M.; Odekerken, Vincent J.J.; STEPHEN JOHN PAYNE ; Trappenburg, Marijke C.; Thijs, Roland D.; Uleman, Jeroen F.; Hoekstra, Alfons G.; van der Velde, Nathalie | GeroScience | 2 | 1 | |
14 | 2023 | In silico investigation of the effect of particle diameter on deposition uniformity in pulmonary drug delivery | Min, Hyunhong J.; Stride, Eleanor P.; STEPHEN JOHN PAYNE | Aerosol Science and Technology | 0 | 0 | |
15 | 2023 | Static autoregulation in humans | Wang, Yufan; STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | 0 | 0 | |
16 | 2023 | Transfer function analysis of dynamic cerebral autoregulation: A CARNet white paper 2022 update | Panerai, Ronney B; Brassard, Patrice; Burma, Joel S; Castro, Pedro; Claassen, Jurgen Ahr; van Lieshout, Johannes J; Liu, Jia; Lucas, Samuel Je; Minhas, Jatinder S; Mitsis, Georgios D; Nogueira, Ricardo C; Ogoh, Shigehiko; STEPHEN JOHN PAYNE ; Rickards, Caroline A; Robertson, Andrew D; Rodrigues, Gabriel D; Smirl, Jonathan D; Simpson, David M | Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism | 43 | 22 | |
17 | 2023 | Regional Cerebral Blood Flow Changes in Healthy Ageing and Alzheimer's Disease: A Narrative Review | Graff, Barnaby J; Harrison, Stephanie L; STEPHEN JOHN PAYNE ; El-Bouri, Wahbi K | Cerebrovascular diseases (Basel, Switzerland) | 5 | 5 | |
18 | 2022 | Computational modelling of cerebral oedema and osmotherapy following ischaemic stroke | Chen, Xi; Józsa, Tamás I; STEPHEN JOHN PAYNE | Computers in biology and medicine | 6 | 4 | |
19 | 2022 | Point/counterpoint: We should not take the direction of blood pressure change into consideration for dynamic cerebral autoregulation quantification | Kostoglou, Kyriaki; Simpson, David M; STEPHEN JOHN PAYNE | Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism | 1 | 0 | |
20 | 2022 | Modelling collateral flow and thrombus permeability during acute ischaemic stroke | Padmos, Raymond M; Arrarte Terreros, Nerea; Józsa, Tamás I; Závodszky, Gábor; Marquering, Henk A; Majoie, Charles B L M; STEPHEN JOHN PAYNE ; Hoekstra, Alfons G | Journal of the Royal Society, Interface | 3 | 2 | |
21 | 2022 | Quantification of hypoxic regions distant from occlusions in cerebral penetrating arteriole trees | Xue, Yidan; Georgakopoulou, Theodosia; van der Wijk, Anne-Eva; Józsa, Tamás I; van Bavel, Ed; STEPHEN JOHN PAYNE | PLoS computational biology | 4 | 2 | |
22 | 2022 | The INfoMATAS project: Methods for assessing cerebral autoregulation in stroke | Simpson, David M; STEPHEN JOHN PAYNE ; Panerai, Ronney B | Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism | 11 | 7 | |
23 | 2022 | Simulation of Craniectomy Size in Decompressive Craniectomy for Ischaemic Stroke | Nadzri, Aina Najwa; Mohamed Mokhtarudin, Mohd Jamil; Wan Ab Naim, Wan Naimah; STEPHEN JOHN PAYNE | Lecture Notes in Mechanical Engineering | 0 | 0 | |
24 | 2022 | Blood Pressure Complexity Discriminates Pathological Beat-to-Beat Variability as a Marker of Vascular Aging | Lee Y.-K; Mazzucco S; Rothwell P.M; STEPHEN JOHN PAYNE ; Webb A.J.S. | Journal of the American Heart Association | 3 | 2 | |
25 | 2022 | Corrigendum to “Modelling the effects of cerebral microthrombi on tissue oxygenation and cell death” [J. Biomech. 127 (2021) 110705] (Journal of Biomechanics (2021) 127, (S0021929021004735), (10.1016/j.jbiomech.2021.110705)) | Xue Y; El-Bouri W.K; Józsa T.I; STEPHEN JOHN PAYNE | Journal of Biomechanics | 0 | 0 | |
26 | 2022 | Multiscale modelling of brain tissue oxygen and glucose dynamics in tortuous capillary during ischaemia-reperfusion | Mohamed Mokhtarudin M.J; Wan Abd. Naim W.N; Shabudin A; STEPHEN JOHN PAYNE | Applied Mathematical Modelling | 1 | 1 | |
27 | 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 | |
28 | 2021 | The Ageing Brain: Investigating the Role of Age in Changes to the Human Cerebral Microvasculature With an in silico Model | Graff B.J; Payne S.J; STEPHEN JOHN PAYNE | Frontiers in Aging Neuroscience | 7 | 6 | |
29 | 2021 | A porous circulation model of the human brain for in silico clinical trials in ischaemic stroke: A human brain model for ischaemic stroke | J?zsa T.I; Padmos R.M; Samuels N; El-Bouri W.K; Hoekstra A.G; STEPHEN JOHN PAYNE | Interface Focus | 25 | 0 | |
30 | 2021 | Investigating the role of pericytes in cerebral autoregulation: A modeling study | Milanovic S; Shaw K; Hall C; STEPHEN JOHN PAYNE | Physiological Measurement | 4 | 4 | |
31 | 2021 | Two-Way Coupling Between 1D Blood Flow and 3D Tissue Perfusion Models | Padmos R.M.; J?zsa T.I.; El-Bouri W.K.; Z?vodszky G.; Payne S.J.; Hoekstra A.G.; STEPHEN JOHN PAYNE | Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) | |||
32 | 2021 | On the Sensitivity Analysis of Porous Finite Element Models for Cerebral Perfusion Estimation | Józsa T.I.; Padmos R.M; El-Bouri W.K; Hoekstra A.G; STEPHEN JOHN PAYNE | Annals of Biomedical Engineering | 14 | 12 | |
33 | 2021 | Modelling the effects of cerebral microthrombi on tissue oxygenation and cell death | Xue Y; El-Bouri W.K; Tamás I. Józsa; STEPHEN JOHN PAYNE | Journal of Biomechanics | 7 | 7 | |
34 | 2021 | Modelling the impact of clot fragmentation on the microcirculation after thrombectomy | El-Bouri W.K; MacGowan A; J?zsa T.I; Gounis M.J; STEPHEN JOHN PAYNE | PLoS Computational Biology | 11 | 10 | |
35 | 2021 | Pallido-putaminal connectivity predicts outcomes of deep brain stimulation for cervical dystonia | Raghu A.L.B; Eraifej J; Sarangmat N; Stein J; FitzGerald J.J; Payne S; Aziz T.Z; STEPHEN JOHN PAYNE | Brain : a journal of neurology | 12 | 8 | |
36 | 2021 | Simulation-based optimisation to quantify heterogeneity of specific ventilation and perfusion in the lung by the Inspired Sinewave Test | Tran M.C; Nguyen V; Bruce R; Crockett D.C; Formenti F; Phan P.A; Payne S.J; STEPHEN JOHN PAYNE | Scientific Reports | 4 | 2 | |
37 | 2021 | Simulation of Decompressive Craniectomy for Ischaemic Stroke Treatment: A Conceptual Modeling Study | Nadzri A.N.; Mokhtarudin M.J.M.; Naim W.N.W.A.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings - 2020 IEEE EMBS Conference on Biomedical Engineering and Sciences, IECBES 2020 | |||
38 | 2021 | Coupling one-dimensional arterial blood flow to three-dimensional tissue perfusion models for in silico trials of acute ischaemic stroke: Coupling Blood Flow to Perfusion | Padmos R.M; J?zsa T.I; El-Bouri W.K; Konduri P.R; Payne S.J; STEPHEN JOHN PAYNE | Interface Focus | 27 | 0 | |
39 | 2021 | Tractography patterns of pedunculopontine nucleus deep brain stimulation | Raghu A.L.B; Parker T; Zand A.P.D; STEPHEN JOHN PAYNE ; Andersson J; Stein J; Aziz T.Z; Green, Alexander L. | Journal of Neural Transmission | 4 | 4 | |
40 | 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 | |||
41 | 2021 | Validating the inspired sinewave technique to measure lung heterogeneity compared to atelectasis & over-distended volume in computed tomography images | Tran M.C; Phan P.-A; Crockett D.C; Formenti F; Cronin J.N; Payne S.J; STEPHEN JOHN PAYNE | ICASSP, IEEE International Conference on Acoustics, Speech and Signal Processing - Proceedings | 1 | 0 | |
42 | 2021 | Quantitative 3D analysis of tissue damage in a rat model of microembolization | Payne S.; van der Wijk A.-E.; Bakker E.N.T.P.; vanBavel E.; Majoie C.; Marquering H.; van Bavel E.; Hoekstra A.; Dippel D.; Lingsma H.; van der Lugt A.; Samuels N.; Boodt N.; Roos Y.; de Meyer S.; Staessens S.; Vandelanotte S.; Konduri P.; Terreros N.A.; Chopard B.; Raynaud F.; Petkantchin R.; Panteleev M.; Shibeko A.; Boudjeltia K.Z.; Blanc-Guillemaud V.; Migliavacca F.; Dubini G.; Luraghi G.; Matas J.F.R.; Bridio S.; Mc Garry P.; Gilvarry M.; McCarthy R.; Moerman K.; Fereidoonnezhad B.; Dwivedi A.; Duffy S.; Payne S.; Jozsa T.; Georgakopoulou S.; Padmos R.; Azizi V.; Miller C.; STEPHEN JOHN PAYNE | Journal of Biomechanics | 5 | 4 | |
43 | 2021 | In silico trials for treatment of acute ischemic stroke: Design and implementation | Miller C; Padmos R.M; van der Kolk M; Tamás I Józsa; Samuels N; Xue Y; Payne S.J; STEPHEN JOHN PAYNE | Computers in Biology and Medicine | 11 | 8 | |
44 | 2021 | Mathematical modelling of haemorrhagic transformation after ischaemic stroke | Wang J; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | 4 | 2 | |
45 | 2020 | Cardiovascular System II: The Vasculature | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
46 | 2020 | The Central Nervous System | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
47 | 2020 | Reliability, reproducibility and validity of dynamic cerebral autoregulation in a large cohort with transient ischaemic attack or minor stroke | Lee Y.-K.; Rothwell P.M.; Payne S.J.; Webb A.J.S.; STEPHEN JOHN PAYNE | Physiological Measurement | 13 | 11 | |
48 | 2020 | INFOMATAS multi-center systematic review and meta-analysis individual patient data of dynamic cerebral autoregulation in ischemic stroke | Beishon L.; Minhas J.S.; Nogueira R.; Castro P.; Budgeon C.; Aries M.; STEPHEN JOHN PAYNE ; Robinson T.G.; Panerai R.B. | International Journal of Stroke | 10 | ||
49 | 2020 | Validation of a Web-Based Planning Tool for Percutaneous Cryoablation of Renal Tumors | van Oostenbrugge T.J.; Heidkamp J.; Moche M.; Weir P.; Mariappan P.; Flanigan R.; Pollari M.; Payne S.; Kolesnik M.; Jenniskens S.F.M.; F?tterer J.J.; STEPHEN JOHN PAYNE | CardioVascular and Interventional Radiology | 5 | ||
50 | 2020 | From Cells to Tissue | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
51 | 2020 | Cellular Homeostasis and Membrane Potential | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
52 | 2020 | Cell Structure and Biochemical Reactions | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
53 | 2020 | Assessment of dynamic cerebral autoregulation in humans: Is reproducibility dependent on blood pressure variability? | Elting J.W.; Sanders M.L.; Panerai R.B.; Aries M.; Bor-Seng-Shu E.; Caicedo A.; Chacon M.; Gommer E.D.; van Huffel S.; Jara J.L.; Kostoglou K.; Mahdi A.; Marmarelis V.Z.; Mitsis G.D.; M?ller M.; Nikolic D.; Nogueira R.C.; Payne S.J.; Puppo C.; Shin D.C.; Simpson D.M.; Tarumi T.; Yelicich B.; Zhang R.; Claassen J.A.H.R.; STEPHEN JOHN PAYNE | PLoS ONE | 20 | ||
54 | 2020 | Cardiovascular System I: The Heart | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
55 | 2020 | The Respiratory System | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
56 | 2020 | Pharmacokinetics | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
57 | 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 | ||
58 | 2020 | Cellular Transport and Communication | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
59 | 2020 | The Action Potential | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
60 | 2020 | Preface | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
61 | 2020 | Searching for the stimulus controlling brain oxygen supply | Payne S.J.; STEPHEN JOHN PAYNE | Journal of Physiology | |||
62 | 2020 | A tidal lung simulation to quantify lung heterogeneity with the Inspired Sinewave Test | Tran M.C.; Crockett D.C.; Phan P.A.; Payne S.J.; Farmery A.D.; STEPHEN JOHN PAYNE | Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS | |||
63 | 2019 | Dynamic cerebral autoregulation reproducibility is affected by physiological variability | Sanders M.L.; Elting J.W.J.; Panerai R.B.; Aries M.; Bor-Seng-Shu E.; Caicedo A.; Chacon M.; Gommer E.D.; Van Huffel S.; Jara J.L.; Kostoglou K.; Mahdi A.; Marmarelis V.Z.; Mitsis G.D.; M?ller M.; Nikolic D.; Nogueira R.C.; Payne S.J.; Puppo C.; Shin D.C.; Simpson D.M.; Tarumi T.; Yelicich B.; Zhang R.; Claassen J.A.H.R.; STEPHEN JOHN PAYNE | Frontiers in Physiology | |||
64 | 2019 | Dynamic changes in microvascular flow conductivity and perfusion after myocardial infarction shown by image-based modeling | Gkontra P.; El-Bouri W.K.; Norton K.-A.; Santos A.; Popel A.S.; Payne S.J.; Arroyo A.G.; STEPHEN JOHN PAYNE | Journal of the American Heart Association | 10 | 10 | |
65 | 2019 | Thrombus growth modelling and stenosis prediction in the cerebral microvasculature | Murallidharan J.S.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | |||
66 | 2019 | Effects of brain tissue mechanical and fluid transport properties during ischaemic brain oedema: A poroelastic finite element analysis | Mohamed Mokhtarudin M.J.; Shabudin A.; Payne S.J.; STEPHEN JOHN PAYNE | 2018 IEEE EMBS Conference on Biomedical Engineering and Sciences, IECBES 2018 - Proceedings | |||
67 | 2019 | Application of asymptotic expansion homogenization for vascularized poroelastic brain tissue | Shabudin A.; Mokhtarudin M.J.M.; Payne S.; Mohamed N.A.N.; STEPHEN JOHN PAYNE | 2018 IEEE EMBS Conference on Biomedical Engineering and Sciences, IECBES 2018 - Proceedings | |||
68 | 2018 | Reproducibility of dynamic cerebral autoregulation parameters: A multi-centre, multi-method study | Sanders M.L.; Claassen J.A.H.R.; Aries M.; Bor-Seng-Shu E.; Caicedo A.; Chacon M.; Gommer E.D.; Van Huffel S.; Jara J.L.; Kostoglou K.; Mahdi A.; Marmarelis V.Z.; Mitsis G.D.; M?ller M.; Nikolic D.; Nogueira R.C.; Payne S.J.; Puppo C.; Shin D.C.; Simpson D.M.; Tarumi T.; Yelicich B.; Zhang R.; Panerai R.B.; Elting J.W.J.; STEPHEN JOHN PAYNE | Physiological Measurement | 26 | ||
69 | 2018 | Modelling dynamic changes in blood flow and volume in the cerebral vasculature | Payne S.J.; El-Bouri W.K.; STEPHEN JOHN PAYNE | NeuroImage | |||
70 | 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 | |||
71 | 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 | |||
72 | 2018 | Autoregulating cerebral tissue selfishly exploits collateral flow routes through the circle of willis | Kennedy McConnell F.A.; Payne S.J.; STEPHEN JOHN PAYNE | Acta Neurochirurgica, Supplementum | |||
73 | 2018 | Bayesian Inference in Non-Markovian State-Space Models with Applications to Battery Fractional-Order Systems | Jacob P.E.; Alavi S.M.M.; Mahdi A.; Payne S.J.; Howey D.A.; STEPHEN JOHN PAYNE | IEEE Transactions on Control Systems Technology | |||
74 | 2018 | Identifying the myogenic and metabolic components of cerebral autoregulation | Payne S.J.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
75 | 2018 | A thermoelastic deformation model of tissue contraction during thermal ablation | Park C.S.; Liu C.; Hall S.K.; Payne S.J.; STEPHEN JOHN PAYNE | International Journal of Hyperthermia | |||
76 | 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 | |||
77 | 2017 | At what data length do cerebral autoregulation measures stabilise? | Mahdi A.; Nikolic D.; Birch A.A.; Payne S.J.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
78 | 2017 | The study of the function of AQP4 in cerebral ischaemia–reperfusion injury using poroelastic theory | Mokhtarudin M.J.M.; Payne S.J.; STEPHEN JOHN PAYNE | International Journal for Numerical Methods in Biomedical Engineering | |||
79 | 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 | |||
80 | 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 | |||
81 | 2017 | Modelling mixing within the dead space of the lung improves predictions of functional residual capacity | Harrison C.; Phan P.A.; Zhang C.; Geer D.; Farmery A.; Payne S.; STEPHEN JOHN PAYNE | Respiratory Physiology and Neurobiology | 6 | ||
82 | 2017 | Effects of non-physiological blood pressure artefacts on cerebral autoregulation | Mahdi A.; Rutter E.M.; Payne S.J.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
83 | 2017 | Doppler-based fetal heart rate analysis markers for the detection of early intrauterine growth restriction | Stroux L.; Redman C.W.; Georgieva A.; Payne S.J.; Clifford G.D.; STEPHEN JOHN PAYNE | Acta Obstetricia et Gynecologica Scandinavica | |||
84 | 2017 | Monitoring fetal maturation - Objectives, techniques and indices of autonomic function | Hoyer D.; Zebrowski J.; Cysarz D.; Goncalves H.; Pytlik A.; Amorim-Costa C.; Bernardes J.; Ayres-De-Campos D.; Witte O.W.; Schleu?ner E.; Stroux L.; Redman C.; Georgieva A.; Payne S.; Clifford G.; Signorini M.G.; Magenes G.; Andreotti F.; Malberg H.; Zaunseder S.; Lakhno I.; Schneider U.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
85 | 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 | |||
86 | 2017 | A purpose-built neck coil for black-blood DANTE-prepared carotid artery imaging at 7?T | Jezzard P.; Li L.; Near J.; Payne S.; STEPHEN JOHN PAYNE | Magnetic Resonance Imaging | |||
87 | 2017 | Cerebral blood flow and metabolism: A quantitative approach | Payne S.J.; STEPHEN JOHN PAYNE | Cerebral Blood Flow and Metabolism: A Quantitative Approach | |||
88 | 2017 | A model for generating synthetic arterial blood pressure | Mahdi A.; Clifford G.D.; Payne S.J.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
89 | 2017 | The dual role of cerebral autoregulation and collateral flow in the circle of willis after major vessel occlusion | McConnell F.K.; Payne S.; STEPHEN JOHN PAYNE | IEEE Transactions on Biomedical Engineering | |||
90 | 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 | |||
91 | 2016 | Cardiovascular system II: The vasculature | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
92 | 2016 | The central nervous system | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
93 | 2016 | The action potential | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
94 | 2016 | Cellular homeostasis and membrane potential | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
95 | 2016 | Go-Smart: Web-based computational modeling of minimally invasive cancer treatments | Weir P.; Reuter D.; Ellerweg R.; Alhonnoro T.; Pollari M.; Voglreiter P.; Mariappan P.; Flanagan R.; Park C.S.; Payne S.; Staerk E.; Voigt P.; Moche M.; Kolesnik M.; STEPHEN JOHN PAYNE | 2015 E-Health and Bioengineering Conference, EHB 2015 | |||
96 | 2016 | Tissue mechanics | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
97 | 2016 | Cellular transport and communication | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
98 | 2016 | Modelling the effects of cerebral microvasculature morphology on oxygen transport | Park C.S.; Payne S.J.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
99 | 2016 | Continuous positive airway pressure might not solve your cerebral autoregulation problem if you have obstructive sleep apnoea | Payne S.; STEPHEN JOHN PAYNE | Journal of Physiology | |||
100 | 2016 | The respiratory system | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
101 | 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 | |||
102 | 2016 | A statistical model of the penetrating arterioles and venules in the human cerebral cortex | El-Bouri W.K.; Payne S.J.; STEPHEN JOHN PAYNE | Microcirculation | |||
103 | 2016 | Pharmacokinetics | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
104 | 2016 | Cardiovascular system I: The heart | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
105 | 2016 | Cell structure and biochemical reactions | Chappell M.; Payne S.; STEPHEN JOHN PAYNE | Biosystems and Biorobotics | |||
106 | 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 | |||
107 | 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 | |
108 | 2015 | Identifying the ischaemic penumbra using pH-weighted magnetic resonance imaging | Harston G.W.J.; Tee Y.K.; Blockley N.; Okell T.W.; Thandeswaran S.; Shaya G.; Sheerin F.; Cellerini M.; Payne S.; Jezzard P.; Chappell M.; Kennedy J.; STEPHEN JOHN PAYNE | Brain | 135 | ||
109 | 2015 | Comparison of three artificial models of the magnetohydrodynamic effect on the electrocardiogram | Oster J.; Llinares R.; Payne S.; Tse Z.T.H.; Schmidt E.J.; Clifford G.D.; STEPHEN JOHN PAYNE | Computer Methods in Biomechanics and Biomedical Engineering | 10 | ||
110 | 2015 | Cell death, perfusion and electrical parameters are critical in models of hepatic radiofrequency ablation | Hall S.K.; Ooi E.H.; Payne S.J.; STEPHEN JOHN PAYNE | International Journal of Hyperthermia | |||
111 | 2015 | Transfer function analysis of dynamic cerebral autoregulation: A white paper from the International Cerebral Autoregulation Research Network | Claassen J.A.; Meel-Van Den Abeelen A.S.; Simpson D.M.; Panerai R.B.; Alexander Caicedo Dorado; Mitsis G.D.; Brassard P.; Ainslie P.N.; Summers P.; Iwasaki K.; Ragauskas A.; Tzeng Y.-C.; M?ller M.; Wang C.-Y.; Hu H.H.; Meel-Van Den Abeelen A.S.S.; Gommer E.; Karemaker J.M.; Aries M.; Van Lieshout J.J.; Semenyuti V.; Aliev V.; Potter J.; Smielewski P.; Liu X.; Czosnyka M.; Payne S.; Bailey D.; Yelicich B.; Puppo C.; Shin D.; Rickards C.A.; Serrador J.; Zhang R.; Marmarelis V.; Novak V.; international Cerebral Autoregulation Research Network (CARNet); STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | |||
112 | 2014 | Between-centre variability in transfer function analysis, a widely used method for linear quantification of the dynamic pressure-flow relation: The CARNet study | Meel-van den Abeelen A.S.S.; Simpson D.M.; Wang L.J.Y.; Slump C.H.; Zhang R.; Tarumi T.; Rickards C.A.; Payne S.; Mitsis G.D.; Kostoglou K.; Marmarelis V.; Shin D.; Tzeng Y.-C.; Ainslie P.N.; Gommer E.; M?ller M.; Dorado A.C.; Smielewski P.; Yelicich B.; Puppo C.; Liu X.; Czosnyka M.; Wang C.-Y.; Novak V.; Panerai R.B.; Claassen J.A.H.R.; STEPHEN JOHN PAYNE | Medical Engineering and Physics | |||
113 | 2014 | High-resolution contrast enhanced multi-phase hepatic computed tomography data fromaporcine Radio-Frequency Ablation study | Kainz B.; Voglreiter P.; Sereinigg M.; Wiederstein-Grasser I.; Mayrhauser U.; K?stenbauer S.; Pollari M.; Khlebnikov R.; Seise M.; Alhonnoro T.; H?me Y.; Seider D.; Flanagan R.; Bost C.; M?hl J.; O'Neill D.; Peng T.; Payne S.; Rueckert D.; Schmalstieg D.; Moche M.; Kolesnik M.; Stiegler P.; Portugaller R.H.; STEPHEN JOHN PAYNE | 2014 IEEE 11th International Symposium on Biomedical Imaging, ISBI 2014 | |||
114 | 2014 | Feature selection using genetic algorithms for fetal heart rate analysis | Xu L.; Redman C.W.G.; Payne S.J.; Georgieva A.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
115 | 2014 | Comparing different analysis methods for quantifying the MRI amide proton transfer (APT) effect in hyperacute stroke patients | Tee Y.K.; Harston G.W.J.; Blockley N.; Okell T.W.; Levman J.; Sheerin F.; Cellerini M.; Jezzard P.; Kennedy J.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | NMR in Biomedicine | 78 | ||
116 | 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 | |||
117 | 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 | |||
118 | 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 | |||
119 | 2014 | Quantification of amide proton transfer effect pre-And post-gadolinium contrast agent administration | Tee Y.K.; Donahue M.J.; Harston G.W.J.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | Journal of Magnetic Resonance Imaging | |||
120 | 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 | |||
121 | 2014 | Authors' reply: Computerised interpretation of fetal heart rate patterns and correlation with fetal acidaemia | Georgieva A.; Papageorghiou A.T.; Payne S.J.; Redman C.W.G.; STEPHEN JOHN PAYNE | BJOG: An International Journal of Obstetrics and Gynaecology | |||
122 | 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 | |||
123 | 2013 | Modelling of the physiological response of the brain to ischaemic stroke | Orlowski P.; O'Neill D.; Grau V.; Ventikos Y.; Payne S.; STEPHEN JOHN PAYNE | Interface Focus | |||
124 | 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 | |||
125 | 2013 | Artificial neural networks applied to fetal monitoring in labour | Georgieva A.; Payne S.J.; Moulden M.; Redman C.W.G.; STEPHEN JOHN PAYNE | Neural Computing and Applications | |||
126 | 2013 | Comparing model-based and model-free analysis methods for QUASAR arterial spin labeling perfusion quantification | Chappell M.A.; Woolrich M.W.; Petersen E.T.; Golay X.; Payne S.J.; STEPHEN JOHN PAYNE | Magnetic Resonance in Medicine | |||
127 | 2013 | Quantitative Bayesian model-based analysis of amide proton transfer MRI | Chappell M.A.; Donahue M.J.; Tee Y.K.; Khrapitchev A.A.; Sibson N.R.; Jezzard P.; Payne S.J.; STEPHEN JOHN PAYNE | Magnetic Resonance in Medicine | |||
128 | 2013 | Feature selection for computerized fetal heart rate analysis using genetic algorithms | Xu L.; Georgieva A.; Redman C.W.G.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS | |||
129 | 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 | |||
130 | 2013 | Ventricular extension of intracerebral hemorrhage during intravenous thrombolysis | Harston G.W.J.; Tee Y.K.; Jones M.; Payne S.; Pope G.; Sheerin F.; Kennedy J.; STEPHEN JOHN PAYNE | Cerebrovascular Diseases | |||
131 | 2013 | The effects of respiratory CO2 fluctuations in the resting-state BOLD signal differ between eyes open and eyes closed | Peng T.; Niazy R.; Payne S.J.; Wise R.G.; STEPHEN JOHN PAYNE | Magnetic Resonance Imaging | |||
132 | 2013 | A control point interpolation method for the non-parametric quantification of cerebral haemodynamics from dynamic susceptibility contrast MRI | Mehndiratta A.; MacIntosh B.J.; Crane D.E.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | NeuroImage | |||
133 | 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 | |||
134 | 2012 | Vasomotion does inhibit mass exchange between axisymmetric blood vessels and tissue | Payne S.J.; Oakes C.N.J.; Park C.S.; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | |||
135 | 2012 | Low frequency oscillations in cephalic vessels assessed by near infrared spectroscopy | Phillip D.; Schytz H.W.; Selb J.; Payne S.; Iversen H.K.; Skovgaard L.T.; Boas D.A.; Ashina M.; STEPHEN JOHN PAYNE | European Journal of Clinical Investigation | |||
136 | 2012 | Evaluating the use of a continuous approximation for model-based quantification of pulsed chemical exchange saturation transfer (CEST) | Tee Y.K.; Khrapitchev A.A.; Sibson N.R.; Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | Journal of Magnetic Resonance | |||
137 | 2012 | A fast analysis method for non-invasive imaging of blood flow in individual cerebral arteries using vessel-encoded arterial spin labelling angiography | Chappell M.A.; Okell T.W.; Payne S.J.; Jezzard P.; Woolrich M.W.; STEPHEN JOHN PAYNE | Medical Image Analysis | |||
138 | 2012 | The Influence of Network Structure on the Transport of Blood in the Human Cerebral Microvasculature | Su S.-W.; Catherall M.; Payne S.; STEPHEN JOHN PAYNE | Microcirculation | |||
139 | 2012 | Relation of fetal heart rate signals with unassignable baseline to poor neonatal state at birth | Georgieva A.; Payne S.J.; Moulden M.; Redman C.W.G.; STEPHEN JOHN PAYNE | Medical and Biological Engineering and Computing | |||
140 | 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 | |||
141 | 2011 | The response of hepatocyte cell volume to hyperthermia and its role in oedema | O'Neill D.P.; Peng T.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS | |||
142 | 2011 | Computerized intrapartum electronic fetal monitoring: Analysis of the decision to deliver for fetal distress | Georgieva A.; Payne S.J.; Moulden M.; Redman C.W.G.; STEPHEN JOHN PAYNE | Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS | |||
143 | 2011 | Effect of temperature on rectified diffusion during ultrasound-induced heating | Webb I.R.; Payne S.J.; Coussios C.-C.; STEPHEN JOHN PAYNE | Journal of the Acoustical Society of America | |||
144 | 2011 | The effect of temperature and viscoelasticity on cavitation dynamics during ultrasonic ablation | Webb I.R.; Payne S.J.; Coussios C.-C.; STEPHEN JOHN PAYNE | Journal of the Acoustical Society of America | |||
145 | 2011 | Modelling of pH dynamics in brain cells after stroke | Orlowski P.; Chappell M.; Park C.S.; Grau V.; Payne S.; STEPHEN JOHN PAYNE | Interface Focus | |||
146 | 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 | |||
147 | 2011 | Computerized fetal heart rate analysis in labor: Detection of intervals with un-assignable baseline | Georgieva A.; Payne S.J.; Moulden M.; Redman C.W.G.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
148 | 2011 | A three-state mathematical model of hyperthermic cell death | O'Neill D.P.; Peng T.; Stiegler P.; Mayrhauser U.; Koestenbauer S.; Tscheliessnigg K.; Payne S.J.; STEPHEN JOHN PAYNE | Annals of Biomedical Engineering | |||
149 | 2011 | A two-equation coupled system for determination of liver tissue temperature during thermal ablation | Peng T.; O'Neill D.P.; Payne S.J.; STEPHEN JOHN PAYNE | International Journal of Heat and Mass Transfer | |||
150 | 2011 | Effects of arterial blood gas levels on cerebral blood flow and oxygen transport | Payne S.J.; Mohammad J.; Tisdall M.M.; Tachtsidis I.; STEPHEN JOHN PAYNE | Biomedical Optics Express | |||
151 | 2011 | Image-based multi-scale modelling and validation of radio-frequency ablation in liver tumours | Payne S.; Flanagan R.; Pollari M.; Alhonnoro T.; Bost C.; O'Neill D.; Peng T.; Stiegler P.; STEPHEN JOHN PAYNE | Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences | |||
152 | 2010 | The effects of non-linearities on wave propagation and time-averaged flow in elastic axi-symmetric vessels | Payne S.J.; Park C.S.; STEPHEN JOHN PAYNE | IFMBE Proceedings | |||
153 | 2010 | WCE 2010 - World Congress on Engineering 2010: Preface | Korsunsky, Alexander M., et al.; STEPHEN JOHN PAYNE ; AI-CHUN PANG ; PHONE LIN ; Ahmad M; Alexandrou I; Al-Nuaimy W; Amavasai B.P; An Y.-Y; Ariwa E; Arteche J; Audrino F; Ayesh A; Baber C; Bailey C | WCE 2010 - World Congress on Engineering 2010 | 0 | ||
154 | 2010 | Dynamics of gas bubbles in time-variant temperature fields | Webb I.R.; Arora M.; Roy R.A.; Payne S.J.; Coussios C.-C.; STEPHEN JOHN PAYNE | Journal of Fluid Mechanics | |||
155 | 2010 | An anatomical model of the cerebral vasculature and the autoregulation of cerebral blood flow | Lucas C.; Payne S.J.; STEPHEN JOHN PAYNE | IFMBE Proceedings | |||
156 | 2010 | Automated fetal heart rate analysis in labor: Decelerations and overshoots | Georgieva A.E.; Payne S.J.; Moulden M.; Redman C.W.G.; STEPHEN JOHN PAYNE | AIP Conference Proceedings | |||
157 | 2010 | Analysis of the effects of nitric oxide on vasomotion | Abatay H.; Payne S.J.; STEPHEN JOHN PAYNE | IFMBE Proceedings | |||
158 | 2010 | Wavelet phase synchronization analysis of cerebral blood flow autoregulation | Peng T.; Rowley A.B.; Ainslie P.N.; Poulin M.J.; Payne S.J.; STEPHEN JOHN PAYNE | IEEE Transactions on Biomedical Engineering | |||
159 | 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 | |||
160 | 2010 | Quantification of the effects of vasomotion on mass transport to tissue from axisymmetric blood vessels | Hapuarachchi T.; Park C.S.; Payne S.; STEPHEN JOHN PAYNE | Journal of Theoretical Biology | |||
161 | 2010 | Mathematical modeling of thermal ablation | Payne S.J.; Peng T.; O'Neill D.P.; STEPHEN JOHN PAYNE | Critical Reviews in Biomedical Engineering | |||
162 | 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 | |||
163 | 2010 | Comparison of two mathematical models for hyperthermic cell death | O'Neill D.P.; Peng T.; Payne S.J.; STEPHEN JOHN PAYNE | IFMBE Proceedings | |||
164 | 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 | |||
165 | 2009 | 1-D steady state analysis of a two-equation coupled system for determination of tissue temperature in liver during radio frequency ablation | Peng T.; O'Neill D.P.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009 | |||
166 | 2009 | Computerised electronic foetal heart rate monitoring in labour: automated contractionidentification | Georgieva A.; Payne S.J.; Redman C.W.G.; STEPHEN JOHN PAYNE | Medical and Biological Engineering and Computing | |||
167 | 2009 | A two phase model of oxygen transport in cerebral tissue | Su S.-W.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009 | |||
168 | 2009 | The effects of non-linearities on shear stress in periodic flow in axi-symmetric vessels | Park C.S.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009 | |||
169 | 2009 | Comment on 'Estimating a modified Grubb's exponent in healthy human brains with near infrared spectroscopy and transcranial Doppler' | Boas D.A.; Payne S.J.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
170 | 2009 | A two-equation coupled system model for determination of liver tissue temperature during radio frequency ablation | O'Neill D.P.; Peng T.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009 | |||
171 | 2009 | Erratum to "A model of the interaction between autoregulation and neural activation in the brain" [Mathematical Biosciences, 204 (2006) 260-281] (DOI:10.1016/j.mbs.2006.08.006) | Payne S.J.; STEPHEN JOHN PAYNE | Mathematical Biosciences | |||
172 | 2009 | Effects of autoregulation and CO2 reactivity on cerebral oxygen transport | Payne S.J.; Selb J.; Boas D.A.; STEPHEN JOHN PAYNE | Annals of Biomedical Engineering | |||
173 | 2009 | Erratum to "A model of the interaction between autoregulation and neural activation in the brain" [Mathematical Biosciences 204 (2006) 260-281] (DOI:10.1016/j.mbs.2006.08.006) | Payne S.J.; STEPHEN JOHN PAYNE | Mathematical Biosciences | |||
174 | 2009 | A three-state non-linear model of vascular nitric oxide transport | Abatay H.; Payne S.J.; STEPHEN JOHN PAYNE | Proceedings of the 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009 | |||
175 | 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 | |||
176 | 2008 | The effects of age on the spontaneous low-frequency oscillations in cerebral and systemic cardiovascular dynamics | Peng T.; Ainslie P.N.; Cotter J.D.; Murrell C.; Thomas K.; Williams M.J.A.; George K.; Shave R.; Rowley A.B.; Payne S.J.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
177 | 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 | |||
178 | 2007 | Synchronization between arterial blood pressure and cerebral oxyhaemoglobin concentration investigated by wavelet cross-correlation | Rowley A.B.; Payne S.J.; Tachtsidis I.; Ebden M.J.; Whiteley J.P.; Gavaghan D.J.; Tarassenko L.; Smith M.; Elwell C.E.; Delpy D.T.; STEPHEN JOHN PAYNE | Physiological Measurement | |||
179 | 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 | |||
180 | 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 | |||
181 | 2007 | The response of the cerebral microvasculature to regional changes in cerebral blood flow | Catherall M.G.F.; Rowley A.B.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | |||
182 | 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 | |||
183 | 2007 | Time varying multivariate system identification of cerebral autoregulation | Rowley A.B.; Peng T.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | |||
184 | 2007 | The effect of cavity geometry on the nucleation of bubbles from cavities | Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of the Acoustical Society of America | |||
185 | 2007 | High-frequency effects in the aspirating probe | Payne S.J.; Moxon A.J.W.; STEPHEN JOHN PAYNE | Journal of Turbomachinery | |||
186 | 2007 | Quantifying nonlinear coupling in cerebral haemodynamics using information transfer | Rowley A.B.; Payne S.J.; STEPHEN JOHN PAYNE | Journal of Cerebral Blood Flow and Metabolism | |||
187 | 2006 | Observations of time-lapse converted-wave anomalies on Valhall LoFS data | Maultzsch S.; Mancini F.; Payne S.; STEPHEN JOHN PAYNE | Society of Petroleum Engineers, 68th European Association of Geoscientists and Engineers Conference and Exhibition, incorporating SPE EUROPEC 2006, EAGE 2006: Opportunities in Mature Areas | |||
188 | 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 | |||
189 | 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 | |||
190 | 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 | |||
191 | 2006 | Combined transfer function analysis and modelling of cerebral autoregulation | Payne S.J.; Tarassenko L.; STEPHEN JOHN PAYNE | Annals of Biomedical Engineering | |||
192 | 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 | |||
193 | 2006 | A model of the interaction between autoregulation and neural activation in the brain | Payne S.J.; STEPHEN JOHN PAYNE | Mathematical Biosciences | |||
194 | 2005 | Unsteady loss in a high pressure turbine stage: Interaction effects | Payne S.J.; Ainsworth R.W.; Miller R.J.; Moss R.W.; Harvey N.W.; STEPHEN JOHN PAYNE | International Journal of Heat and Fluid Flow | |||
195 | 2005 | The response of the cross-bridge cycle model to oscillations in intracellular calcium: A mathematical analysis | Payne S.J.; Stephens C.J.; STEPHEN JOHN PAYNE | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings | |||
196 | 2005 | A combined haemodynamic and biochemical model of cerebral autoregulation | Payne S.J.; Morris H.J.; Rowley A.B.; STEPHEN JOHN PAYNE | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings | |||
197 | 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 | |||
198 | 2005 | A Bayesian approach for the estimation of model parameters from noisy data sets | Payne S.J.; STEPHEN JOHN PAYNE | IEEE Signal Processing Letters | |||
199 | 2005 | Automated classification and analysis of the calcium response of single T lymphocytes using a neural network approach | Payne S.J.; Arrol H.P.; Hunt S.V.; Young S.P.; STEPHEN JOHN PAYNE | IEEE Transactions on Neural Networks | |||
200 | 2005 | A crevice bubble growth model for the analysis of decompression sickness | Chappell M.A.; Payne S.J.; STEPHEN JOHN PAYNE | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings | |||
201 | 2005 | Automated determination of bubble grades from Doppler ultrasound recordings | Payne S.J.; Chappell M.A.; STEPHEN JOHN PAYNE | Aviation Space and Environmental Medicine | |||
202 | 2005 | The estimation of cerebral metabolic rate of O2 from Near Infra-Red Spectroscopy | Payne S.J.; STEPHEN JOHN PAYNE | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings | |||
203 | 2004 | Time-frequency analysis of the EGG in the diagnosis of vasovagal syndrome in older people | Ebden M.J.; Tarassenko L.; Payne S.J.; Darowski A.; Price J.D.; STEPHEN JOHN PAYNE | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings | |||
204 | 2004 | Tissue oxygenation index as a measure of cerebral autoregulation | Payne S.J.; Tarassenko L.; STEPHEN JOHN PAYNE | Proceedings of the IASTED International Conference on Biomedical Engineering | |||
205 | 2004 | Analysis of the effects of gravity and wall thickness in a model of blood flow through axisymmetric vessels | Payne S.J.; STEPHEN JOHN PAYNE | Medical and Biological Engineering and Computing | |||
206 | 2004 | A two-layer model of the static behaviour of blood vessel walls | Payne S.J.; STEPHEN JOHN PAYNE | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings | |||
207 | 2003 | Unsteady loss in a high pressure turbine stage | Payne S.J.; Ainsworth R.W.; Miller R.J.; Moss R.W.; Harvey N.W.; STEPHEN JOHN PAYNE | International Journal of Heat and Fluid Flow |