Dr. Daniel P. Morin earned his Bachelor of Arts degree from Cornell University in 1995, graduating with Honors and Distinction. He earned his medical degree from the University of Massachusetts Medical School, and his Master of Public Health degree from Harvard University, both in 2000. He then served his internship and residency in Internal Medicine at Tufts-New England Medical Center in Boston, Massachusetts. Thereafter, he completed advanced fellowships in cardiovascular disease and cardiac electrophysiology at New York Presbyterian Hospital - Weill Cornell Medical Center in New York, New York. He is board certified in Cardiology and Clinical Cardiac Electrophysiology. He is a Fellow of the American College of Cardiology and the Heart Rhythm Society. Dr. Morin's clinical interests are in device therapy for cardiac dysfunction (including cardiac resynchronization therapy) and treatment of cardiac arrhythmias via medical therapy and/or catheter ablation.
In addition to his full load of clinical work, Dr. Morin serves as Director of Electrophysiology Research and Director of Cardiovascular Research for the Ochsner Health System. He heads an active team researching such diverse subjects as risk stratification for sudden cardiac arrest, new applications for cardiac resynchronization therapy, the effects of ablation on cardiac contractility, and relationships between the environment and cardiac tachyarrhythmias.
Dr Dominic Ng graduated with a BSc (Hons) and gained his PhD from the University of Western Australia. His doctoral studies, conducted in the laboratory of Assoc. Prof. Marie Bogoyevitch, were focused on cardiomyocyte signalling mechanisms regulating pathological tissue growth (ie cardiac hypertrophy). He continued his research training in Singapore as a post-doctoral research fellow based at the Institute of Molecular and Cell Biology, the flagship institute of Singapore’s science agency (A*STAR) located at the world renowned Biopolis research precinct. During this time, his research interests turned to the complex regulation of the cytoskeleton and their functions in development and disease.
He returned to the Australian medical research community on an NHMRC Peter Doherty Fellowship (2006-2010) followed by a Faculty Trust Roper Fellowship (2011-2012). In this time, Dominic established an independent research program focused on complex signalling regulation of microtubule organization. In 2013, Dominic was appointed as a Senior Research Fellow, supported by an ARC Future Fellowship (2013-2016) at the Department of Biochemistry within the Bio21 Institute, University of Melbourne. In 2015, Dominic relocated his research group to the School of Biomedical Science, University of Queensland and is currently appointed as an ARC Future Fellow and Senior Lecturer.
Dr Abbas Shafiee is a tissue engineering & regenerative medicine scientist interested in translational cell-based and tissue engineering strategies to treat human diseases.
Dr Shafiee completed his PhD in Professor Kiarash Khosrotehrani’s laboratory on stem cell biology. His research career during his PhD had key contributions to delineating endothelial niche and vascular stem cells in the human placental tissues, including the seminal discovery of an entirely new stem cell population, coined as ‘Meso-Endothelial Bipotent Progenitor’ and the identification of key driver signatures for endothelial and bipotential progenitor function (Stem Cell Reports 2018; The FASEB Journal 2017; Stem Cells 2016; Stem Cells Translational Medicine 2015).
In 2016, he joined Distinguished Professor Dietmar Hutmacher’s team and conducted multiple projects on cancer and bone tissue engineering. Dr Shafiee has developed innovative tissue engineered models intersecting concepts from stem cell biology, cancer, and tissue engineering to study species-specific cancer bone metastasis at an unprecedented level of detail. The results of his research have been published in: International Journal of Cancer 2018; Cancers 2018; Biomaterials 2018; Bone Research 2019; Biomaterials 2019; Applied Materials Today 2020; Biomaterials 2020; and Advanced Therapeutics 2020. Utilizing the tissue engineering concept, he was able to better understand the mechanisms of human cancer bone metastasis. Additionally, he was successful in obtaining project grants, including a project grants from Cooperative Research Centers (CRC), and developed a biomimetically designed scaffolds and investigated the interactions of multipotent mesenchymal stem/stromal cell and skin progenitors with 3D printed scaffolds. The application of 3D printed constructs in acute wound models decreased wound contracture and led to a significantly improved skin regeneration.
Dr Shafiee joined Metro North Health (MNH, Queensland Health) in 2020 and started a research program to develop, implement, and evaluate the applications of 3D printing, scanning, cell therapies, and biofabrication technologies in skin wound settings, and dermatology research. Using the 3D printing and organoid technologies he could develop new approaches to enhances physiological wound closure with reduced scar tissue formation (Biomaterials 2021, Small 2021, Advanced Healthcare Materials 2021, Advanced Healthcare Materials 2022) and advance the deramtology research (Advanced healthcare materials 2022, and Small 2024). Dr Shafiee is part of a national program, aiming to develop biofabrication technology to treat skin wounds (funded by MRFF, NHMRC). His groundbreaking organoid research resulted in establishing an international Consortium of Organoid Research in Dermatology, leveraging organoid technology to advance the understanding and treatment of genetic skin diseases. Dr Shafiee has supervised over 10 Masters and PhD students. Honours, Masters and PhD projects are available, please feel free to contact him.
