Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs

Dr. Mohd Jamil Mohamed Mokhtarudin received a Bachelor of Biomedical Engineering from Universiti Malaya in 2012 and then continued a DPhil in Engineering Science at Wolfson College, Oxford University from 2013 to 2017. He is now serving as a Senior Lecturer at the Faculty of Manufacturing and Mechatronic Engineering Technology, Universiti Malaysia Pahang Al-Sultan Abdullah. His research expertise is in the area of mathematical modelling and computational simulation of the human organ and biological system involving structural mechanics, fluid-structural interface, and multiphysics and multiscale modelling. Dr. Azam Ahmad Bakir is a Mechanical Engineering Lecturer in the University of Southampton Malaysia. He has received his PhD degree in Biomedical Engineering from the University of New South Wales, Australia. His works previously involved with the development of a framework for simulating Multiphysics phenomena of human heart, namely cardiac electrophysiology, myocardial mechanics and intraventricular haemodynamic, where the physics interaction is necessary for an efficient heart function. In addition to heart modelling, Dr. Azam is also involved with studying the effect various electroconvulsive therapy (ECT) protocols using computational model, to enhance the efficacy of ECT in treating patients with severe depression. His research interest is in the field of computational modelling of biological tissues and organs, with the goal of providing a safer testbed for future experimentation and designing better medical treatment. Dr. Andrew Stephens is a Research Fellow at the Department of Mechanical and Aerospace Engineering, Monash University, Australia. He is currently investigating the improvement of mechanical cardio-respiratory and smart emergency medical devices through sensing, monitoring, control, and AI. He is the deputy director of CREATElab (Cardio-Respiratory Engineering And TEchnology laboratory) situated at the Victorian Heart Hospital. He is also a council member for the Asia Pacific Society of Artificial Organs. Dr. Nadiah Sulaiman is a senior lecturer at Centre for Tissue Engineering and Regenerative Medicine (CTERM), Faculty of Medicine UKM. She is currently CTERM Head of Academic Frontiers overseeing and coordinating postgraduate students and courses offered in CTERM. Nadiah obtained her doctoral degree at Bristol Medical School, University of Bristol, UK. Her research work revolves around vascular and cardiovascular tissue engineering and regenerative medicine.

A Machine Learning Approach for Predicting the Size of Abdominal Aortic Aneurysm.- Competing Effect of Jetting during Microbubble-mediated Sonothrombolysis.- Turbulent energy on mechanical heart valve equipped with triangular vortex generator.- Human Mental Stress Evaluation using Wearable EEG and ECG Sensors.- Left Ventricular Wall Stress of Myocardial Infarction Patients During Filling.- Unsteady Flow Hemodynamics in A Constricted Channel Replicating Atherosclerosis in Carotid Artery.- Evaluating Heart Rate Variability Time Domain Series in Timed Up and Go (TUG) and Five Times Sit-to-Stand Test (FTSST).- Implementing Myocardial Force-Velocity Relation onto a 3D Constitutive Left-Ventricular Model and Solving the Associated Non-Convergence Problem.- Improvement via Multiple Depth Camera Motion Capture System for Biomechanics Rehabilitation Analyses.- Improvement via Multiple Depth Camera Motion Capture System for Biomechanics Rehabilitation Analyses.- One-way Fluid-Structure Interaction Modeling of Blood Flow in Peripheral Arterial Disease.- Personalized Lumped Parameter Model for Healthy Adults using Genetic Algorithm.- A Preliminary Study of Heart Rate, SpO2 and Temperature on Portable Non-Invasive Preemies Car Seat Device (PreeCASE) for Monitoring the Preterm Infants.- Surveys On Safety Cannula/Catheter Protector Complications Among Malaysian Healthcare Workers.- Micro-crack on EDMed Textured Surface in Metal-on-Metal Hip Implant.- Early Development of a Fontan Assist Device.- Development of a single-needle dialysis control device to improve dialysis efficiency.- Synthesis of hydroxyapatite scaffolds via 3D- printing and sintering for bone regeneration.- Design and Development of Polymeric Ink Material for a Solvent-Cast Direct-Write 3D Printer.