Presentations

Oral Presentations

Invited

  1. Simulating the pulse wave propagation in vascular networks: current state of modeling and challenges. AIM workshop on “Modeling the eye as a window on the body” San Jose, CA, USA (Oct 16, 2018) (Video link)
  2. Insights into pulmonary hypertension: An application of 1D fluid models. Biomathematics Seminar Series, Virginia Commonwealth University. Richmond, VA, USA (Sept 29, 2017)
  3. Simulating the 1D hemodynamics in the pulmonary arteries of mice. EPSCR Center for Multiscale Soft Tissue Mechanics (SoftMech). University of Glasgow, UK (Aug 2, 2017)
  4. Effects of Boundaries on Pulse Wave Simulations: A distributed network approach for estimating parameters of lumped outflow boundary condition. SIAM Conference on the Life Sciences. Boston, MA, USA (Jul 11, 2016)
  5. Structured tree matching condition for coupled arterial-venous hemodynamics. Conference of Society for Mathematical Biology. Georgia State University, Atlanta, USA (Jul 2, 2015)
  6. Coupling arterial-venous hemodynamics: A structured tree based 1D fluid dynamical approach. Differential Equations Seminar Series, NC State University, Raleigh, USA (Apr 22, 2015)
  7. A computational study of pressure wave reflections in the pulmonary arteries and the significance of longitudinal position for estimating the pulse wave velocity for wave separation. Biomathematics Seminar Series, NC State University, Raleigh, USA (Oct 21, 2014)
  8. Simulation and analysis of pulse wave in pulmonary circulation. Cardiovascular Dynamics Group, Department of Mathematics, NC State University, USA (Jul 20, 2013)

Other

  1. A numerical study of pulmonary vascular efficiency and right ventricular afterload during hypoxia induced pulmonary hypertension in mice. 8th World Congress of Biomechanics, Dublin, Ireland (Jul 11, 2018)
  2. Model based inference of vascular remodeling during pulmonary hypertension in mice. 42nd SIAM Southeastern Atlantic Sectional Conference, UNC at Chapel Hill, USA (Mar 9, 2018)
  3. Simulating the effects of hypoxia on the pulmonary hemodynamics in mice. CMBE17, 5th International Conference on Computational and Mathematical Biomedical Engineering. Pittsburgh, PA, USA (Apr 10, 2017)
  4. Influence of arterial wall properties on simulation of pulse wave propagation in a 1D network model. 13th US National Congress for Computational Mechanics. San Diego, CA, USA (Jul 29, 2015) 
  5. Wave intensity analysis; Pulse wave reflections in the pulmonary arteries using a computational model. Cardiova­scular dynamics group, Department of Mathematics, NC State University, Raleigh, USA (Sept 23, 2014)
  6. Reflections in the pulmonary arteries; a study using a computational model and wave intensity analysis. Scottish Pulmonary Vascular Unit, Gartnavel General Hospital. Glasgow, UK (Jun 16, 2014)
  7. Modelling the circulation. Center for Mathematical Sciences, University of Cambridge, UK (Nov 21, 2013)
  8. An analysis of simulated pressure pulse in human pulmonary arteries to study wave reflections during health and disease. 12th US National Congress for Computational Mechanics. Raleigh, NC, USA (Jul 24, 2013)
  9. Simulating the pressure pulse in the pulmonary circulation and wave intensity analysis. Research Student & RA Meeting on Mathematical Modelling in Life Sciences. Glasgow, UK (Feb 20, 2013)
  10. Genesis of An Arterial Pulse. Post Graduate Seminar Series. School of Mathematics and Statistics, University of Glasgow, UK (Apr 12, 2013) 
  11. Modelling Human Pulmonary Circulation: Reflections In The Pulmonary Arterial Pulse. Mathematical Biology Group. University of Glasgow, UK (Dec 4, 2012) 
  12. Blood flow and pressure during pulmonary hypertension. British Applied Mathematics Colloquium (BAMC), London, UK (Mar 28, 2012) 
  13. Physical basis of dimensional analysis. Post Graduate Seminar Series, School of Mathematics and Statistics, University of Glasgow, UK (Nov 25, 2011) 
  14. Pressure in connected network of small pulmonary vessels. Post Graduate Seminar Series, School of Mathematics and Statistics, University of Glasgow, UK (Feb 18, 2011) 
  15. Blood flow in systemic and pulmonary arteries. ICMS student meeting. The Burn, Edzell, UK (Jun 1, 2010) 
  16. Effect of heat transfer and variable viscosity on peristalsis. International Conference on Mathematical Models and Methods in Fluid Mechanics. Islamabad, Pakistan (July 7, 2008) 

Posters

  1.  §Tutorial Workshop on Parameter Estimation for Biological Models. NC State University, Raleigh, USA (Jul 25 – 28, 2018) Parameter inference in a mathematical model of the pulmonary circulation.
  2. *8th World Congress of Biomechanics, Dublin Ireland (Jul 8 – 12, 2018 ) Application of the HGO model to capturing the pressure-area relationship in a large murine pulmonary artery under pulsatile flow.
  3.  8th World Congress of Biomechanics, Dublin, Ireland (Jul 8 – 12, 2018) Uncertainty in 1D fluid dynamics network of pulmonary vasculature.
  4. §NC State Summer Undergraduate Research Symposium. NC State University, Raleigh, USA (July 2017) Devising Arterial Network from CT Images.
  5. §3rd Workshop on Soft Tissue Modelling. School of Mathematics and Statistics, University of Glasgow, UK (Jun 7 – 9, 2017) Uncertainty of 1-D Fluid Models in Pulmonary Hypertension.
  6. *SAMSI workshop on Uncertainties in Computational Hemodynamics, SAMSI, Research Triangle Park, NC, USA (Jun 1 – 3, 2015) Imaged Based Analysis of Pulmonary Arterial Network.
  7.  7th World Congress of Biomechanics, Boston, MA, USA (Jul 6 – 11, 2014) Pulse Propagation in the Pulmonary Circulation.

(* presented by me, § presented by a student that I helped mentor)

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