Mr Michael Stevens

Senior Research Fellow
Central Clinical School

Member of the Charles Perkins Centre


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Biographical details

Michael Stevens received his undergraduate degree in Medical Engineering from Queensland University of Technology in 2010, graduating with first class honours. He then completed his PhD in 2014 at the University of Queensland, in which he developed a physiological control system for dual rotary left ventricular assist devices operating as a biventricular assist device. He is a Senior Research Fellow at the Central Clinical School as well as a Research Associate at The University of New South Wales.

Dr Stevens' research interests include physiological control systems, heart assist devices, computational modelling and signal processing.

Research interests

Physiological control of ventricular assist devices, heart assist devices, computational modelling and signal processing.

Current projects

Modelling of Flow Dynamics during VA-ECMO - joint project between Sydney Translational Imaging Laboratory and Royal Prince Alfred Hospital

https://au.linkedin.com/in/drmichaelstevens

Selected publications

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Journals

  • Wu, E., Nestler, F., Kleinheyer, M., Stevens, M., Pauls, J., Fraser, J., Gregory, S. (2018). Pulmonary Valve Opening With Two Rotary Left Ventricular Assist Devices for Biventricular Support. Artificial Organs, 42(1), 31-40. [More Information]
  • Stevens, M., Callaghan, F., Forrest, P., Bannon, P., Grieve, S. (2017). Flow mixing during peripheral veno-arterial extra corporeal membrane oxygenation - A simulation study. Journal of Biomechanics, 55, 64-70. [More Information]
  • Stephens, A., Stevens, M., Gregory, S., Kleinheyer, M., Salamonsen, R. (2017). In Vitro Evaluation of an Immediate Response Starling-Like Controller for Dual Rotary Blood Pumps. Artificial Organs, 41(10), 911-922. [More Information]
  • Mansouri, M., Gregory, S., Salamonsen, R., Lovell, N., Stevens, M., Pauls, J., Akmeliawati, R., Lim, E. (2017). Preload-based Starling-like control of rotary blood pumps: An in-vitro evaluation. PloS One, 12(2), 1-15. [More Information]
  • Pauls, J., Stevens, M., Bartinowski, N., Fraser, J., Gregory, S., Tansley, G. (2016). Evaluation of Physiological Control Systems for Rotary Left Ventricular Assist Devices: An In-Vitro Study. Annals of Biomedical Engineering, 44(8), 2377-2387. [More Information]
  • Gregory, S., Stevens, M., Wu, E., Pauls, J., Kleinheyer, M., Fraser, J. (2016). Mitral Valve Regurgitation with a Rotary Left Ventricular Assist Device: The Haemodynamic Effect of Inlet Cannulation Site and Speed Modulation. Annals of Biomedical Engineering, 44(9), 2674-2682. [More Information]
  • Nadeem, K., Ng, B., Lim, E., Gregory, S., Salamonsen, R., Stevens, M., Mubin, M., Lovell, N. (2016). Numerical Simulation of a Biventricular Assist Device with Fixed Right Outflow Cannula Banding During Pulmonary Hypertension. Annals of Biomedical Engineering, 44(4), 1008-1018. [More Information]

Conferences

  • Koh, V., Ho, Y., Stevens, M., Salamonsen, R., Lovell, N., Lim, E. (2017). Synergy of first principles modelling with predictive control for a biventricular assist device: In silico evaluation study. 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS), Piscataway: Institute of Electrical and Electronics Engineers (IEEE). [More Information]

2018

  • Wu, E., Nestler, F., Kleinheyer, M., Stevens, M., Pauls, J., Fraser, J., Gregory, S. (2018). Pulmonary Valve Opening With Two Rotary Left Ventricular Assist Devices for Biventricular Support. Artificial Organs, 42(1), 31-40. [More Information]

2017

  • Stevens, M., Callaghan, F., Forrest, P., Bannon, P., Grieve, S. (2017). Flow mixing during peripheral veno-arterial extra corporeal membrane oxygenation - A simulation study. Journal of Biomechanics, 55, 64-70. [More Information]
  • Stephens, A., Stevens, M., Gregory, S., Kleinheyer, M., Salamonsen, R. (2017). In Vitro Evaluation of an Immediate Response Starling-Like Controller for Dual Rotary Blood Pumps. Artificial Organs, 41(10), 911-922. [More Information]
  • Mansouri, M., Gregory, S., Salamonsen, R., Lovell, N., Stevens, M., Pauls, J., Akmeliawati, R., Lim, E. (2017). Preload-based Starling-like control of rotary blood pumps: An in-vitro evaluation. PloS One, 12(2), 1-15. [More Information]
  • Koh, V., Ho, Y., Stevens, M., Salamonsen, R., Lovell, N., Lim, E. (2017). Synergy of first principles modelling with predictive control for a biventricular assist device: In silico evaluation study. 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS), Piscataway: Institute of Electrical and Electronics Engineers (IEEE). [More Information]

2016

  • Pauls, J., Stevens, M., Bartinowski, N., Fraser, J., Gregory, S., Tansley, G. (2016). Evaluation of Physiological Control Systems for Rotary Left Ventricular Assist Devices: An In-Vitro Study. Annals of Biomedical Engineering, 44(8), 2377-2387. [More Information]
  • Gregory, S., Stevens, M., Wu, E., Pauls, J., Kleinheyer, M., Fraser, J. (2016). Mitral Valve Regurgitation with a Rotary Left Ventricular Assist Device: The Haemodynamic Effect of Inlet Cannulation Site and Speed Modulation. Annals of Biomedical Engineering, 44(9), 2674-2682. [More Information]
  • Nadeem, K., Ng, B., Lim, E., Gregory, S., Salamonsen, R., Stevens, M., Mubin, M., Lovell, N. (2016). Numerical Simulation of a Biventricular Assist Device with Fixed Right Outflow Cannula Banding During Pulmonary Hypertension. Annals of Biomedical Engineering, 44(4), 1008-1018. [More Information]

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