Nic Smith : Publications
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[1]
A Biophysically Based Model of Unitary Potential Activity in the Interstitial Cells of Cajal
N.P. Smith R.A. Faville A.J. Pullan K.M Sanders
In Biophys. J.. 2008.
Details about A Biophysically Based Model of Unitary Potential Activity in the Interstitial Cells of Cajal | BibTeX data for A Biophysically Based Model of Unitary Potential Activity in the Interstitial Cells of Cajal
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[2]
A Meta Analysis of the Physiome Paradigm with application to cardiac electrophysiology
Niederer S. A.‚ Fink M.‚ Noble D. and Smith N.P.
In Experimental Physiology. 2008.
Details about A Meta Analysis of the Physiome Paradigm with application to cardiac electrophysiology | BibTeX data for A Meta Analysis of the Physiome Paradigm with application to cardiac electrophysiology
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[3]
A computational study of the interaction between coronary blood flow and myocardial mechanics
N. P. Smith
In Physiol Meas. Vol. 25. No. 4. Pages 863−77. 2004.
Journal Article England
Details about A computational study of the interaction between coronary blood flow and myocardial mechanics | BibTeX data for A computational study of the interaction between coronary blood flow and myocardial mechanics
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[4]
A dynamic model of excitation−contraction coupling during acidosis in cardiac ventricular myocytes
E. J. Crampin and N. P. Smith
In Biophys J. Vol. 90. No. 9. Pages 3074−90. 2006.
EB005825/EB/United States NIBIB United Kingdom Wellcome Trust Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't United States
Details about A dynamic model of excitation−contraction coupling during acidosis in cardiac ventricular myocytes | BibTeX data for A dynamic model of excitation−contraction coupling during acidosis in cardiac ventricular myocytes
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[5]
A mathematical model of the slow force response to stretch in rat ventricular myocytes
S. A. Niederer and N. P. Smith
In Biophys J. Vol. 92. No. 11. Pages 4030−44. 2007.
R01−EB005825−01/EB/United States NIBIB Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't United States
Details about A mathematical model of the slow force response to stretch in rat ventricular myocytes | BibTeX data for A mathematical model of the slow force response to stretch in rat ventricular myocytes
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[6]
A model of cardiac cellular electromechanics
D. P. Nickerson‚ N. P. Smith and P. J. Hunter
In Philosophical Transactions of the Royal Society of London Series a−Mathematical Physical and Engineering Sciences. Vol. 359. No. 1783. Pages 1159−1172. 2001.
443TM Times Cited:24 Cited References Count:40
Details about A model of cardiac cellular electromechanics | BibTeX data for A model of cardiac cellular electromechanics
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[7]
A quantitative analysis of cardiac myocyte relaxation: a simulation study
S. A. Niederer‚ P. J. Hunter and N. P. Smith
In Biophys J. Vol. 90. No. 5. Pages 1697−722. 2006.
United Kingdom Wellcome Trust Journal Article Research Support‚ Non−U.S. Gov't United States
Details about A quantitative analysis of cardiac myocyte relaxation: a simulation study | BibTeX data for A quantitative analysis of cardiac myocyte relaxation: a simulation study
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[8]
A thermodynamic model of the cardiac sarcoplasmic/endoplasmic Ca2+ (SERCA) pump
Tran K.‚ Smith N.P‚ Loiselle D. and Crampin E.J.
In Biophysical Journal. 2008.
Details about A thermodynamic model of the cardiac sarcoplasmic/endoplasmic Ca2+ (SERCA) pump | BibTeX data for A thermodynamic model of the cardiac sarcoplasmic/endoplasmic Ca2+ (SERCA) pump
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[9]
Acidosis in models of cardiac ventricular myocytes
E. J. Crampin‚ N. P. Smith‚ A. E. Langham‚ R. H. Clayton and C. H. Orchard
In Philos Transact A Math Phys Eng Sci. Vol. 364. No. 1842. Pages 1171−86. 2006.
Journal Article Research Support‚ Non−U.S. Gov't Review England
Details about Acidosis in models of cardiac ventricular myocytes | BibTeX data for Acidosis in models of cardiac ventricular myocytes
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[10]
Altered T wave dynamics in a contracting cardiac model
N. P. Smith‚ M. L. Buist and A. J. Pullan
In J Cardiovasc Electrophysiol. Vol. 14. No. 10 Suppl. Pages S203−9. 2003.
Journal Article Research Support‚ Non−U.S. Gov't United States
Details about Altered T wave dynamics in a contracting cardiac model | BibTeX data for Altered T wave dynamics in a contracting cardiac model
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[11]
An Anatomically Based Model of Transient Coronary Blood Flow in the Heart
N.P. Smith‚ A.J. Pullan and P.J. Hunter
In SIAM Journal of Applied Mathematics. Vol. 62. No. 3. Pages 990−1018. 2002.
Details about An Anatomically Based Model of Transient Coronary Blood Flow in the Heart | BibTeX data for An Anatomically Based Model of Transient Coronary Blood Flow in the Heart
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[12]
An improved numerical method for strong coupling of excitation and contraction models in the heart
S. A. Niederer and N. P. Smith
In Prog Biophys Mol Biol. 2008.
Journal article
Details about An improved numerical method for strong coupling of excitation and contraction models in the heart | BibTeX data for An improved numerical method for strong coupling of excitation and contraction models in the heart
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[13]
Analysis of Coronary Blood Flow Interaction with Myocardial Mechanics Based on Anatomical Models
N.P. Smith and G.S. Kassab
In Philos Transact A Math Phys Eng Sci. Vol. 359. Pages 1159−1172. 2001.
Details about Analysis of Coronary Blood Flow Interaction with Myocardial Mechanics Based on Anatomical Models | BibTeX data for Analysis of Coronary Blood Flow Interaction with Myocardial Mechanics Based on Anatomical Models
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[14]
Automatic segmentation of 3D micro−CT coronary vascular images
J. Lee‚ P. Beighley‚ E. Ritman and N. Smith
In Med Image Anal. Vol. 11. No. 6. Pages 630−47. 2007.
Journal Article Netherlands
Details about Automatic segmentation of 3D micro−CT coronary vascular images | BibTeX data for Automatic segmentation of 3D micro−CT coronary vascular images
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[15]
Cardiac electrical activity–from heart to body surface and back again
A. J. Pullan‚ M. L. Buist‚ G. B. Sands‚ L. K. Cheng and N. P. Smith
In J Electrocardiol. Vol. 36 Suppl. Pages 63−7. 2003.
Journal Article United States
Details about Cardiac electrical activity–from heart to body surface and back again | BibTeX data for Cardiac electrical activity–from heart to body surface and back again
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[16]
Computational Modeling of Ventricular Mechanics and Energetics
N.P. Smith‚ C. Stevens and P.J. Hunter
In Applied Mechanics Reviews. Vol. 58. Pages 77−90. 2005.
Details about Computational Modeling of Ventricular Mechanics and Energetics | BibTeX data for Computational Modeling of Ventricular Mechanics and Energetics
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[17]
Computational Modelling of the Heart
N.P. Smith‚ D. Nickerson‚ E. J. Crampin and P.J. Hunter
In Acta Numerica. Vol. 13. Pages 371−431. 2004.
Details about Computational Modelling of the Heart | BibTeX data for Computational Modelling of the Heart
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[18]
Computational biology of cardiac myocytes: proposed standards for the physiome
N. P. Smith‚ E. J. Crampin‚ S. A. Niederer‚ J. B. Bassingthwaighte and D. A. Beard
In J Exp Biol. Vol. 210. No. Pt 9. Pages 1576−83. 2007.
Eb005825/eb/nibib Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't England
Details about Computational biology of cardiac myocytes: proposed standards for the physiome | BibTeX data for Computational biology of cardiac myocytes: proposed standards for the physiome
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[19]
Computational multiscale modeling in the UPS physiome project: Modeling cardiac electromechanics
D. Nickerson‚ M. Nash‚ P. Nielsen‚ N. Smith and P. Hunter
In Ibm Journal of Research and Development. Vol. 50. No. 6. Pages 617−630. 2006.
104NJ Times Cited:0 Cited References Count:52
Details about Computational multiscale modeling in the UPS physiome project: Modeling cardiac electromechanics | BibTeX data for Computational multiscale modeling in the UPS physiome project: Modeling cardiac electromechanics
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[20]
Computational physiology and the Physiome Project
E. J. Crampin‚ M. Halstead‚ P. Hunter‚ P. Nielsen‚ D. Noble‚ N. Smith and M. Tawhai
In Exp Physiol. Vol. 89. No. 1. Pages 1−26. 2004.
Journal Article Research Support‚ Non−U.S. Gov't Review England
Details about Computational physiology and the Physiome Project | BibTeX data for Computational physiology and the Physiome Project
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[21]
Computational simulations of the human magneto− and electroenterogram
A. S. Lin‚ M. L. Buist‚ L. K. Cheng‚ N. P. Smith and A. J. Pullan
In Ann Biomed Eng. Vol. 34. No. 8. Pages 1322−31. 2006.
R01−DK64775/DK/United States NIDDK Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't United States
Details about Computational simulations of the human magneto− and electroenterogram | BibTeX data for Computational simulations of the human magneto− and electroenterogram
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[22]
Coupling Contraction‚ Excitation‚ Ventricular and Coronary Blood Flow across scale and physics in the Heart
Lee J.‚ Niederer S.A.‚ Nordsletten D.A. and Smith N.P.
In Phil Trans. 2008.
Details about Coupling Contraction‚ Excitation‚ Ventricular and Coronary Blood Flow across scale and physics in the Heart | BibTeX data for Coupling Contraction‚ Excitation‚ Ventricular and Coronary Blood Flow across scale and physics in the Heart
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[23]
Development of models of active ion transport for whole−cell modelling: cardiac sodium−potassium pump as a case study
N. P. Smith and E. J. Crampin
In Prog Biophys Mol Biol. Vol. 85. No. 2−3. Pages 387−405. 2004.
Comparative Study Evaluation Studies Journal Article Research Support‚ Non−U.S. Gov't Validation Studies England
Details about Development of models of active ion transport for whole−cell modelling: cardiac sodium−potassium pump as a case study | BibTeX data for Development of models of active ion transport for whole−cell modelling: cardiac sodium−potassium pump as a case study
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[24]
Effects of Stenting on Blood Flow in a Coronary Artery Model‚ Applied Bionics
R. Raghu‚ A.J. Pullan and N.P. Smith
In Applied Bionics. Vol. 3. No. 2. Pages 77−86. 2006.
Details about Effects of Stenting on Blood Flow in a Coronary Artery Model‚ Applied Bionics | BibTeX data for Effects of Stenting on Blood Flow in a Coronary Artery Model‚ Applied Bionics
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[25]
Energetic Consequences of Mechanical Loads
Barclay C.J. Loiselle D.S. Crampin E.J. Niederer S.A. Smith N.P.
In Prog. Bio. Mol. Biol.. 2008.
Details about Energetic Consequences of Mechanical Loads | BibTeX data for Energetic Consequences of Mechanical Loads
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[26]
From sarcomere to cell: an efficient algorithm for linking mathematical models of muscle contraction
N. P. Smith
In Bull Math Biol. Vol. 65. No. 6. Pages 1141−62. 2003.
Journal Article United States
Details about From sarcomere to cell: an efficient algorithm for linking mathematical models of muscle contraction | BibTeX data for From sarcomere to cell: an efficient algorithm for linking mathematical models of muscle contraction
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[27]
Generation of an anatomically based geometric coronary model
N. P. Smith‚ A. J. Pullan and P. J. Hunter
In Ann Biomed Eng. Vol. 28. No. 1. Pages 14−25. 2000.
Journal Article Research Support‚ Non−U.S. Gov't United states
Details about Generation of an anatomically based geometric coronary model | BibTeX data for Generation of an anatomically based geometric coronary model
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[28]
Giving form to the function of the heart: embedding cellular models in an anatomical framework
N. Smith and P. Hunter
In Jpn J Physiol. Vol. 54. No. 6. Pages 541−4. 2004.
Journal Article Review Japan
Details about Giving form to the function of the heart: embedding cellular models in an anatomical framework | BibTeX data for Giving form to the function of the heart: embedding cellular models in an anatomical framework
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[29]
Hodgkin−Huxley type ion channel characterization: an improved method of voltage clamp experiment parameter estimation
J. Lee‚ B. Smaill and N. Smith
In J Theor Biol. Vol. 242. No. 1. Pages 123−34. 2006.
Journal Article Research Support‚ Non−U.S. Gov't Netherlands
Details about Hodgkin−Huxley type ion channel characterization: an improved method of voltage clamp experiment parameter estimation | BibTeX data for Hodgkin−Huxley type ion channel characterization: an improved method of voltage clamp experiment parameter estimation
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[30]
Integration from proteins to organs: the IUPS Physiome Project
P. Hunter‚ N. Smith‚ J. Fernandez and M. Tawhai
In Mech Ageing Dev. Vol. 126. No. 1. Pages 187−92. 2005.
Journal Article Review Ireland
Details about Integration from proteins to organs: the IUPS Physiome Project | BibTeX data for Integration from proteins to organs: the IUPS Physiome Project
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[31]
Knowledge capture and the responsibility: Past and present
N. Smith and D. Noble
In Prog Biophys Mol Biol. 2008.
Editorial
Details about Knowledge capture and the responsibility: Past and present | BibTeX data for Knowledge capture and the responsibility: Past and present
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[32]
Mapping melanoma lymphoscintigraphy data onto a 3D anatomically based model
H. M. Reynolds‚ P. R. Dunbar‚ R. F. Uren‚ J. F. Thompson and N. P. Smith
In Ann Biomed Eng. Vol. 35. No. 8. Pages 1444−57. 2007.
Journal Article Research Support‚ Non−U.S. Gov't United States
Details about Mapping melanoma lymphoscintigraphy data onto a 3D anatomically based model | BibTeX data for Mapping melanoma lymphoscintigraphy data onto a 3D anatomically based model
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[33]
Mathematical modelling of the heart: cell to organ
N. P. Smith‚ P. J. Mulquiney‚ M. P. Nash‚ C. P. Bradley‚ D. P. Nickerson and P. J. Hunter
In Chaos Solitons & Fractals. Vol. 13. No. 8. Pages 1613−1621. 2002.
517YQ Times Cited:17 Cited References Count:26
Details about Mathematical modelling of the heart: cell to organ | BibTeX data for Mathematical modelling of the heart: cell to organ
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[34]
Mathematical modelling of the ischaemic heart
P. J. Mulquiney‚ N. P. Smith‚ K. Clarke and P. J. Hunter
In Nonlinear Analysis−Theory Methods Theory Methods & Applications. Vol. 47. No. 1. Pages 235−244. 2001.
Part 1 466BX Times Cited:5 Cited References Count:18
Details about Mathematical modelling of the ischaemic heart | BibTeX data for Mathematical modelling of the ischaemic heart
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[35]
Modelling cellular and tissue function
N. P. Smith and E. J. Crampin
In Prog Biophys Mol Biol. Vol. 85. No. 2−3. Pages 117−9. 2004.
Editorial England
Details about Modelling cellular and tissue function | BibTeX data for Modelling cellular and tissue function
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[36]
Modelling slow wave activity in the small intestine
A. S. Lin‚ M. L. Buist‚ N. P. Smith and A. J. Pullan
In J Theor Biol. Vol. 242. No. 2. Pages 356−62. 2006.
R01−DK64775/DK/United States NIDDK Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't Netherlands
Details about Modelling slow wave activity in the small intestine | BibTeX data for Modelling slow wave activity in the small intestine
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[37]
Modelling the Chloride dependent bicarbonate independent acid equivalent transporter in guinea pig ventricular myoctes
Smith N. P. Niederer S. A. Wilson D. A. Swietach P. and R. D. Vaughan−Jones
In Biophys. J.. 2008.
Details about Modelling the Chloride dependent bicarbonate independent acid equivalent transporter in guinea pig ventricular myoctes | BibTeX data for Modelling the Chloride dependent bicarbonate independent acid equivalent transporter in guinea pig ventricular myoctes
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[38]
Multi−scale modelling and the IUPS physiome project
E. J. Crampin‚ N. P. Smith and P. J. Hunter
In J Mol Histol. Vol. 35. No. 7. Pages 707−14. 2004.
Journal Article Netherlands
Details about Multi−scale modelling and the IUPS physiome project | BibTeX data for Multi−scale modelling and the IUPS physiome project
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[39]
New developments in a strongly coupled cardiac electromechanical model
D. Nickerson‚ N. Smith and P. Hunter
In Europace. Vol. 7 Suppl 2. Pages 118−27. 2005.
Journal Article Research Support‚ Non−U.S. Gov't England European pacing‚ arrhythmias‚ and cardiac electrophysiology : journal of the working groups on cardiac pacing‚ arrhythmias‚ and cardiac cellular electrophysiology of the European Society of Cardiology
Details about New developments in a strongly coupled cardiac electromechanical model | BibTeX data for New developments in a strongly coupled cardiac electromechanical model
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[40]
New developments in an anatomical framework for modeling cardiac ischemia
N. Smith‚ C. Stevens‚ A. Pullan‚ P. Hunter and P. Mulquiney
In International Journal of Bifurcation and Chaos. Vol. 13. No. 12. Pages 3717−3722. 2003.
779UV Times Cited:1 Cited References Count:19
Details about New developments in an anatomical framework for modeling cardiac ischemia | BibTeX data for New developments in an anatomical framework for modeling cardiac ischemia
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[41]
Structural morphology of renal vasculature
D. A. Nordsletten‚ S. Blackett‚ M. D. Bentley‚ E. L. Ritman and N. P. Smith
In Am J Physiol Heart Circ Physiol. Vol. 291. No. 1. Pages H296−309. 2006.
EB000305/EB/United States NIBIB R01−EB−00582501/EB/United States NIBIB Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't Research Support‚ U.S. Gov't‚ Non−P.H.S. United States
Details about Structural morphology of renal vasculature | BibTeX data for Structural morphology of renal vasculature
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[42]
The balance between inactivation and activation of the Na+−K+ pump underlies the triphasic accumulation of extracellular K+ during myocardial ischemia
J. R. Terkildsen‚ E. J. Crampin and N. P. Smith
In Am J Physiol Heart Circ Physiol. Vol. 293. No. 5. Pages H3036−45. 2007.
Journal Article United States
Details about The balance between inactivation and activation of the Na+−K+ pump underlies the triphasic accumulation of extracellular K+ during myocardial ischemia | BibTeX data for The balance between inactivation and activation of the Na+−K+ pump underlies the triphasic accumulation of extracellular K+ during myocardial ischemia
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[43]
The efficiency of muscle contraction
N. P. Smith‚ C. J. Barclay and D. S. Loiselle
In Prog Biophys Mol Biol. Vol. 88. No. 1. Pages 1−58. 2005.
Journal Article Research Support‚ Non−U.S. Gov't Review England
Details about The efficiency of muscle contraction | BibTeX data for The efficiency of muscle contraction
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[44]
The role of theoretical modeling in microcirculation research
Secomb T.W.‚ Beard D.A‚ Frisbee J.C.‚ Smith N.P. and Pries A.R.
In Microcirculation. Vol. 15(8). Pages 693−698. 2008.
Details about The role of theoretical modeling in microcirculation research | BibTeX data for The role of theoretical modeling in microcirculation research
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[45]
Theoretical Modeling in Hemodynamics of Microcirculation
Lee J. and Smith N.P.
In Microcirculation. Vol. 15(8). Pages 730−745. 2008.
Details about Theoretical Modeling in Hemodynamics of Microcirculation | BibTeX data for Theoretical Modeling in Hemodynamics of Microcirculation
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[46]
Three−dimensional models of individual cardiac histoanatomy: tools and challenges
R. A. Burton‚ G. Plank‚ J. E. Schneider‚ V. Grau‚ H. Ahammer‚ S. L. Keeling‚ J. Lee‚ N. P. Smith‚ D. Gavaghan‚ N. Trayanova and P. Kohl
In Ann N Y Acad Sci. Vol. 1080. Pages 301−19. 2006.
HL 63195/HL/United States NHLBI Journal Article Research Support‚ N.I.H.‚ Extramural Research Support‚ Non−U.S. Gov't United States
Details about Three−dimensional models of individual cardiac histoanatomy: tools and challenges | BibTeX data for Three−dimensional models of individual cardiac histoanatomy: tools and challenges
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[47]
Three−dimensional visualisation of cutaneous head and neck melanoma lymphoscintigraphy data
Reynolds H.M.‚ Smith N.P.‚ Uren R.‚ Thompson J.F. and Dunbar R.
In Head and Neck. 2008.
Details about Three−dimensional visualisation of cutaneous head and neck melanoma lymphoscintigraphy data | BibTeX data for Three−dimensional visualisation of cutaneous head and neck melanoma lymphoscintigraphy data
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[48]
Three−dimensional visualisation of lymphatic drainage patterns in patients with cutaneous melanoma
H. M. Reynolds‚ P. R. Dunbar‚ R. F. Uren‚ S. A. Blackett‚ J. F. Thompson and N. P. Smith
In Lancet Oncol. Vol. 8. No. 9. Pages 806−12. 2007.
Evaluation Studies Journal Article Research Support‚ Non−U.S. Gov't England
Details about Three−dimensional visualisation of lymphatic drainage patterns in patients with cutaneous melanoma | BibTeX data for Three−dimensional visualisation of lymphatic drainage patterns in patients with cutaneous melanoma
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[49]
Triangulation of p−Order parametric Surfaces‚
Nordsletten D.A. and Smith N.P.
In Journal of Scientific Computing. 2008.
Details about Triangulation of p−Order parametric Surfaces‚ | BibTeX data for Triangulation of p−Order parametric Surfaces‚
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[50]
Using Physiome Standards to couple cellular functions for cardiac excitation−contraction
Smith N.P. Terkildsen J. Niederer S.A. Hunter P.J. Crampin E.J.
In Exp. Physiol.. 2008.
Details about Using Physiome Standards to couple cellular functions for cardiac excitation−contraction | BibTeX data for Using Physiome Standards to couple cellular functions for cardiac excitation−contraction