Kelly Burrowes : Publications

A combined image−modelling approach assessing the impact of hyperinflation due to emphysema on regional ventilation–perfusion matching

KS Burrowes‚ T Doel‚ M Kim‚ C Vargas‚ J Roca‚ V Grau and D Kay

In Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization. No. ahead−of−print. Pages 1–17. 2015.

Details about A combined image−modelling approach assessing the impact of hyperinflation due to emphysema on regional ventilation–perfusion matching | BibTeX data for A combined image−modelling approach assessing the impact of hyperinflation due to emphysema on regional ventilation–perfusion matching

A mathematical model of the human pulmonary circulation

K S Burrowes M H Tawhai and P J Hunter

PhD Thesis 2005.

Details about A mathematical model of the human pulmonary circulation | BibTeX data for A mathematical model of the human pulmonary circulation

A poroelastic model coupled to a fluid network with applications in lung modelling

Lorenz Berger‚ Rafel Bordas‚ Kelly Burrowes‚ Vicente Grau‚ Simon Tavener and David Kay

In International journal for numerical methods in biomedical engineering. 2015.

Details about A poroelastic model coupled to a fluid network with applications in lung modelling | BibTeX data for A poroelastic model coupled to a fluid network with applications in lung modelling

Anatomically−based finite element models of the human pulmonary arterial and venous trees including supernumerary vessels

K S Burrowes P J Hunter and M H Tawhai

2005.

Details about Anatomically−based finite element models of the human pulmonary arterial and venous trees including supernumerary vessels | BibTeX data for Anatomically−based finite element models of the human pulmonary arterial and venous trees including supernumerary vessels

Assessing potential errors of MRI−based measurements of pulmonary blood flow using a detailed network flow model

K. S. Burrowes‚ R. B. Buxton and G. K. Prisk

In Journal of Applied Physiology. 2012.

Details about Assessing potential errors of MRI−based measurements of pulmonary blood flow using a detailed network flow model | BibTeX data for Assessing potential errors of MRI−based measurements of pulmonary blood flow using a detailed network flow model | DOI (10.1152/japplphysiol.00894.2011)

Blood flow redistribution and ventilation−perfusion mismatch during embolic pulmonary arterial occlusion

K. S. Burrowes‚ A. R. Clark and M. H. Tawhai

In Pulmonary Circulation. 2011.

Details about Blood flow redistribution and ventilation−perfusion mismatch during embolic pulmonary arterial occlusion | BibTeX data for Blood flow redistribution and ventilation−perfusion mismatch during embolic pulmonary arterial occlusion

Computational modeling of the obstructive lung diseases asthma and COPD

K Burrowes‚ T Doel and C Brightling

In Journal of Translational Medicine. Vol. 12. Pages S5–S5. 2014.

Details about Computational modeling of the obstructive lung diseases asthma and COPD | BibTeX data for Computational modeling of the obstructive lung diseases asthma and COPD | DOI (10.1186/1479-5876-12-S2-S5)

Computational models of structure−function relationships in the pulmonary circulation and their validation

Tawhai MH‚ Burrowes KS and Hoffman EA

2006.

Details about Computational models of structure−function relationships in the pulmonary circulation and their validation | BibTeX data for Computational models of structure−function relationships in the pulmonary circulation and their validation

Computational models of the pulmonary circulation: Insights and the move towards clinically directed studies

M. H. Tawhai‚ A. R. Clark and K. S. Burrowes

In Pulmonary Circulation. 2011.

Details about Computational models of the pulmonary circulation: Insights and the move towards clinically directed studies | BibTeX data for Computational models of the pulmonary circulation: Insights and the move towards clinically directed studies

Computational predictions of pulmonary blood flow gradients: gravity versus structure

Burrowes KS and Tawhai MH

2006.

Details about Computational predictions of pulmonary blood flow gradients: gravity versus structure | BibTeX data for Computational predictions of pulmonary blood flow gradients: gravity versus structure

Contribution of serial and parallel micro−perfusion to spatial variability in pulmonary inter− and intra−acinar blood flow

M H Tawhai A R Clark K S Burrowes

In Journal of Applied Physiology. 2010.

Details about Contribution of serial and parallel micro−perfusion to spatial variability in pulmonary inter− and intra−acinar blood flow | BibTeX data for Contribution of serial and parallel micro−perfusion to spatial variability in pulmonary inter− and intra−acinar blood flow

Coupling of lung tissue tethering force to fluid dynamics in the pulmonary circulation

K S Burrowes and M H Tawhai

2010.

Details about Coupling of lung tissue tethering force to fluid dynamics in the pulmonary circulation | BibTeX data for Coupling of lung tissue tethering force to fluid dynamics in the pulmonary circulation

Developing integrative computational models of pulmonary structure.

M H Tawhai and K S Burrowes

2003.

Details about Developing integrative computational models of pulmonary structure. | BibTeX data for Developing integrative computational models of pulmonary structure.

Dynamic flow characteristics in normal and asthmatic lungs

Burrowes KS Kim M Bordas R Vos W Hartley RA Brightling CE Kay D Grau V

In Int J Numer Methods Biomed Eng. 2015.

Details about Dynamic flow characteristics in normal and asthmatic lungs | BibTeX data for Dynamic flow characteristics in normal and asthmatic lungs

Evaluation of the effect of postural and gravitational variations on the distribution of pulmonary blood flow via an image−based computational model

K S Burrowes P J Hunter and M H Tawhai

2005.

Details about Evaluation of the effect of postural and gravitational variations on the distribution of pulmonary blood flow via an image−based computational model | BibTeX data for Evaluation of the effect of postural and gravitational variations on the distribution of pulmonary blood flow via an image−based computational model

Hypoxic pulmonary vasoconstriction as a contributor to response in acute pulmonary embolism

Burrowes KS‚ Clark AR‚ Wilsher ML‚ Milne DG and Tawhai MH

In Ann Biomed Eng. 2014.

Details about Hypoxic pulmonary vasoconstriction as a contributor to response in acute pulmonary embolism | BibTeX data for Hypoxic pulmonary vasoconstriction as a contributor to response in acute pulmonary embolism

Investigation of the relative effects of vascular branching structure and gravity on pulmonary arterial blood flow heterogeneity via an image−based computational model

M H Burrowes K S Hunter P J Tawhai

2005.

Details about Investigation of the relative effects of vascular branching structure and gravity on pulmonary arterial blood flow heterogeneity via an image−based computational model | BibTeX data for Investigation of the relative effects of vascular branching structure and gravity on pulmonary arterial blood flow heterogeneity via an image−based computational model

Lack of functional information explains the poor performance of 'clot load scores' at predicting outcome in acute pulmonary embolism

A. R. Clark‚ D. Milne‚ M. Wilsher‚ K. S. Burrowes‚ M. Bajaj and M. H. Tawhai

In Respir Physiol Neurobiol. 2013.

Details about Lack of functional information explains the poor performance of 'clot load scores' at predicting outcome in acute pulmonary embolism | BibTeX data for Lack of functional information explains the poor performance of 'clot load scores' at predicting outcome in acute pulmonary embolism

Modeling RBC and neutrophil distribution through an anatomically based pulmonary capillary network

K S Burrowes M H Tawhai and P J Hunter

2004.

Details about Modeling RBC and neutrophil distribution through an anatomically based pulmonary capillary network | BibTeX data for Modeling RBC and neutrophil distribution through an anatomically based pulmonary capillary network

Modelling pulmonary blood flow

Burrowes K S Tawhai M H

2008.

Details about Modelling pulmonary blood flow | BibTeX data for Modelling pulmonary blood flow

Multi−scale computational models of the airways to unravel the pathophysiological mechanisms in asthma and chronic obstructive pulmonary disease (AirPROM)

Brightling C Burrowes KS De Backer J Smallwood R Sterk PJ Gut I Wirix−Speetjens R Siddiqui S Owers−Bradley J Wild J Maier D

In Interface Focus. 2013.

Details about Multi−scale computational models of the airways to unravel the pathophysiological mechanisms in asthma and chronic obstructive pulmonary disease (AirPROM) | BibTeX data for Multi−scale computational models of the airways to unravel the pathophysiological mechanisms in asthma and chronic obstructive pulmonary disease (AirPROM)

Multi−scale models of the lung airways and vascular system

M H Tawhai and K S Burrowes

2008.

Details about Multi−scale models of the lung airways and vascular system | BibTeX data for Multi−scale models of the lung airways and vascular system

Point:Counterpoint: Gravity is/is not the major factor determining the distribution of blood flow in the human lung.

K S Burrowes and M H Tawhai

2008.

Details about Point:Counterpoint: Gravity is/is not the major factor determining the distribution of blood flow in the human lung. | BibTeX data for Point:Counterpoint: Gravity is/is not the major factor determining the distribution of blood flow in the human lung.

Pulmonary embolism: predicting disease severity

K. S. Burrowes‚ A. R. Clark‚ A. Marcinkowski‚ M. L. Wilsher‚ D. G. Milne and M. H. Tawhai

In Philos Trans A Math Phys Eng Sci. 2011.

Details about Pulmonary embolism: predicting disease severity | BibTeX data for Pulmonary embolism: predicting disease severity | DOI (10.1098/rsta.2011.0129)

Relationship between structural changes and hyperpolarized gas magnetic resonance imaging in chronic obstructive pulmolnary disease using computational simulations with realistic alveolar geometry

V Plotkowiak M Burrowes K Wolber J Buckley C Davies R Gleeson F Gavaghan D Grau

2009.

Details about Relationship between structural changes and hyperpolarized gas magnetic resonance imaging in chronic obstructive pulmolnary disease using computational simulations with realistic alveolar geometry | BibTeX data for Relationship between structural changes and hyperpolarized gas magnetic resonance imaging in chronic obstructive pulmolnary disease using computational simulations with realistic alveolar geometry

Species−specific pulmonary arterial asymmetry determines species differences in regional pulmonary perfusion

M H Burrowes K S Hoffman E A Tawhai

In Annals of Biomedical Engineering. 2009.

Details about Species−specific pulmonary arterial asymmetry determines species differences in regional pulmonary perfusion | BibTeX data for Species−specific pulmonary arterial asymmetry determines species differences in regional pulmonary perfusion | DOI (10.1007/s10439-009-9802-2)

The impact of micro−embolism size on haemodynamic changes in the pulmonary micro−circulation

M H Tawhai A R Clark K S Burrowes

In Respir Physiol Neurobiol. 2010.

Details about The impact of micro−embolism size on haemodynamic changes in the pulmonary micro−circulation | BibTeX data for The impact of micro−embolism size on haemodynamic changes in the pulmonary micro−circulation

Towards a virtual lung: multi−scale‚ multi−physics modelling of the pulmonary system

M H Burrowes K S Swan A J Warren N J Tawhai

2008.

Details about Towards a virtual lung: multi−scale‚ multi−physics modelling of the pulmonary system | BibTeX data for Towards a virtual lung: multi−scale‚ multi−physics modelling of the pulmonary system