KAUST Ph.D. student Michał Mańkowski's research on kidney allocation strategies was recognized as one of the American Journal of Transplantation's "Top 10 Articles of 2019." The research demonstrated how an accelerated allocation strategy could increase the utilization of kidneys at risk for non-use, potentially reducing discard rates. Mańkowski aims to translate his U.S.-focused research to improve organ transplantation within the Saudi Arabian healthcare system. Why it matters: This research has the potential to improve organ transplant outcomes and resource allocation in Saudi Arabia, addressing a critical healthcare need.
KAUST Ph.D. student Michał Mańkowski won a Poster of Distinction Award at the American Society of Transplant Surgeons (ASTS) 18th Annual State of the Art Winter Symposium for his work on kidney allocation systems. His poster described a simulation for a new kidney allocation system to accelerate organ placement, focusing on marginal quality kidneys. The research involves combinatorial optimization, operation research and management science with healthcare applications, stemming from a collaboration with Johns Hopkins School of Medicine. Why it matters: The research aims to improve organ transplantation efficiency and save lives by optimizing kidney allocation systems, demonstrating the potential of AI and optimization techniques in healthcare.
KAUST Ph.D. student Mohamed Bahloul received a best paper award at the IEEE Engineering in Medicine and Biology Society (EMBC ‘18) for the Africa and Middle East region. Bahloul's paper presented a three-element fractional-order viscoelastic Windkessel model developed in the EMAN group at KAUST. The model incorporates a fractional-order capacitor, potentially enabling earlier prediction of cardiovascular diseases. Why it matters: The award recognizes impactful research in biomedical engineering at KAUST and highlights the potential for advanced modeling techniques to improve healthcare in the region.
Khaled Alsayegh at the King Abdullah International Medical Research Center is creating a Saudi Stem Cell Donor Registry, with 80,000 potential donors identified. The aim is to identify universal donors, reprogram their cells into induced pluripotent stem (iPS) cells, and create a gene bank for matched tissue transplants. Alsayegh is collaborating with Jesper Tegnér at KAUST to create pacemaker cells using single-cell RNA sequencing. Why it matters: This initiative could revolutionize precision medicine in KSA by providing readily available, matched cells for transplants, reducing the need for patient-specific reprogramming and improving treatment outcomes.
KAUST Ph.D. student Manal Al-Qahtani won a best poster presentation award. The award was presented in the late summer of 2016. The announcement was made on the KAUST website. Why it matters: Showcases the achievements and talent within KAUST's Ph.D. program.