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Peshala Thibbotuwawa Gamage

Assistant Professor | Biomedical Engineering and Science

Contact Information

Expertise

Cardiac Health Monitoring, Wearable Sensing, Physiological Signal Processing, Machine Learning, Computational Modeling

Educational Background

2020

 

PhD – University of Central Florida, Orlando, Florida, USA

Major: Mechanical Engineering

2017

 

MSc - University of Central Florida, Orlando, Florida, USA

Major: Aerospace Engineering

2013

BSc. Eng. (Hons.) – University of Moratuwa, Sri Lanka

Major: Mechanical Engineering

Current Courses

BME 4370 Biomedical Control Systems

BME 3222 Bio Signals and Systems

 

Previous courses..

BME 5720 Biomedical Instrumentation

BME 5702 Biomedical Applications in Physiology 

BME 4050 Cardiovascular Engineering

BME 5790 Numerical Modeling in Biomedical Engineering

BME 3240: Computational Methods for Biological Systems

BME 4252 Biomedical Measurements and Instrumentation

BME 4253 Biomedical Imaging and Instrumentation Laboratory

Selected Publications

Mann, A., Gamage, P., Kakavand, B., & Taebi, A. (2024). Exploring the Impact of Sensor Location on Seismocardiography-Derived Cardiac Time Intervals. Journal of Engineering and Science in Medical Diagnostics and Therapy, 1-19.

Davidson, H., Scardino, B., Gamage, P. T., & Taebi, A. (2024). Variations of Middle Cerebral Artery Hemodynamics Due to Aneurysm Clipping Surgery. Journal of Engineering and Science in Medical Diagnostics and Therapy7(1), 011008. 

Azad, M. K., Gamage, P. T., Dhar, R., Sandler, R. H., & Mansy, H. A. (2023). Postural and longitudinal variability in seismocardiographic signals. Physiological Measurement44(2), 025001. 

Sandler, R. H., Hassan, T., Rahman, B., Gamage, P., & Mansy, H. (2023). Effect Of Extra Soft Tissue On Seismocardiographic Signal Using Finite Element Analysis. Journal of Cardiac Failure29(4), 599.

 Ye, G., Gamage, P. T., Balasubramanian, V., Li, J. K. J., Subasi, E., Subasi, M. M., & Kaya, M. (2023). Short-Term Risk Estimation and Treatment Planning for Cardiovascular Disease Patients after First Diagnostic Catheterizations with Machine Learning Models. Applied Sciences13(8), 5191.

Gharaibeh, Y., Lee, J., Zimin, V. N., Kolluru, C., Dallan, L. A., Pereira, G. T., Kim, J. N., Hoori, A., Dong, P., Gamage, P. T., Gu, L., Bezerra, H. G., & Wilson, D. L. (2023). Prediction of stent under-expansion in calcified coronary arteries using machine learning on intravascular optical coherence tomography images. Scientific Reports13(1), 1-12

Azad, M. K., Gamage, P. T., Dhar, R., Sandler, R. H., & Mansy, H. A. (2023). Postural and longitudinal variability in seismocardiographic signals. Physiological Measurement.

Gamage, P. T., Dong, P., Lee, J., Gharaibeh, Y., Zimin, V. N., Bezerra, H. G., ... & Gu, L. (2022). Fractional Flow Reserve (FFR) Estimation from OCT-Based CFD Simulations: Role of Side Branches. Applied Sciences12(11), 5573.

Shokrollahi, Y., Dong, P., Gamage, P. T., Patrawalla, N., Kishore, V., Mozafari, H., & Gu, L. (2022). Finite Element-Based Machine Learning Model for Predicting the Mechanical Properties of Composite Hydrogels. Applied Sciences12(21), 10835.

Lin, S., Premaraj, T. S., Gamage, P. T., Dong, P., Premaraj, S., & Gu, L. (2022). Upper Airway Flow Dynamics in Obstructive Sleep Apnea Patients with Various Apnea-Hypopnea Index. Life12(7), 1080.

Azad M.K., D’Angelo J., Gamage P.T., Ismail S., Sandler R.H., Mansy H.A. (2021) Spatial Distribution ofSeismocardiographic Signals. In: Obeid I., Selesnick I., Picone J. (eds) Biomedical Signal Processing. Springer, Cham.

Gamage, P. T., Dong, P., Lee, J., Gharaibeh, Y., Zimin, V. N., Dallan, L. A., ... & Gu, L. (2021). Hemodynamic alternations following stent deployment and post-dilation in a heavily calcified coronary artery: In silico and exvivo approaches. Computers in Biology and Medicine, 139, 104962.

Khalili, F., Gamage, P. T., Taebi, A., Johnson, M. E., Roberts, R. B., & Mitchell, J. (2021). Spectral Decomposition of the Flow and Characterization of the Sound Signals through Stenoses with Different Levels of Severity. Bioengineering, 8(3), 41.

Khalili, F., Gamage, P. T., Taebi, A., Johnson, M. E., Roberts, R. B., & Mitchel, J. (2021). Spectral Decomposition and Sound Source Localization of Highly Disturbed Flow through a Severe Arterial Stenosis. Bioengineering, 8(3), 34.

Gamage P.T., Azad M.K., Taebi A., Sandler R.H., Mansy H.A. (2020) Clustering of SCG Events Using Unsupervised Machine Learning. In: Obeid I., Selesnick I., Picone J. (eds) Signal Processing in Medicine and Biology. Springer, Cham.

Sandler, R. H., Gamage, P., Azad, M. K., Dhar, R., Spiewak, A., Raval, N. Y., ... & Mansy, H. (2020). Computational and Mechanical Modeling of SCG Signals. Journal of Cardiac Failure, 26(10), S88.

 Sandler, R., Gamage, P., Azad, M. K., Dhar, R., Raval, N., Mentz, R., & Mansy, H. (2020). Potential SCG Predictors of Heart Failure Readmission. Journal of Cardiac Failure, 26(10), S87.

 Sandler, R. H., Azad, M. K., D'Angelo, J., Gamage, P., Raval, N. Y., Mentz, R. J., & Mansy, H. A. (2020). Documenting Spatial Variation of SCG Signals for Optimal Sensor Placement. Journal of Cardiac Failure, 26(10), S92.

Sandler, R. H., Azad, K., Rahman, B., Taebi, A., Gamage, P., Raval, N., ... & Mansy, H. A. (2019). Minimizing Seismocardiography Variability by Accounting for Respiratory Effects. Journal of Cardiac Failure, 25(8), S185.

 Khalili, F., Gamage, P., Sandler, R., & Mansy, H. (2018). Adverse hemodynamic conditions associated with mechanical heart valve leaflet immobility. Bioengineering, 5(3), 74.

 Azad, M. K., Gamage, P. T., & Sandler, R. H. (2018). Detection of respiratory phase and rate from chest surface measurements. J Appl Biotechnol Bioeng, 5(6), 359-362.

 Gamage, P. P.T., Khalili, F., Khurshidul Azad, M. D., and Mansy, H. A. (March 19, 2018). "Modeling Inspiratory Flow in a Porcine Lung Airway." ASME. J Biomech Eng. June 2018; 140(6): 061003

 

Research

Dr. Gamage's research centers on developing non-invasive, cost-effective disease diagnosis and health monitoring solutions. His work embraces a multidisciplinary approach, combining instrumentation, signal processing, computational modeling, and artificial intelligence. Currently, his research spans several areas: cardiac health monitoring through chest vibrations, stress detection using physiological signals such as EEG, EMG, and ECG, and gait analysis via video-based motion tracking and wearable sensing technologies.

 

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