KAUST's Sciencetown podcast episode 23 features researcher Dana Al-Sulaiman discussing portable biosensing technologies for cancer detection. These devices aim to enable liquid biopsies for early screening and personalized treatment. The biosensors gather clinical information from biological samples to inform clinical decisions. Why it matters: This research can advance non-invasive diagnostics and personalized medicine in the region.
KAUST and King Faisal Specialist Hospital and Research Centre (KFSH&RC) are collaborating to develop bioelectronic sensors for rapid pathogen detection. These sensors aim to provide cheap and accurate results, potentially replacing conventional lab tests. A COVID-19 saliva test developed by KAUST researchers showed comparable sensitivity to PCR tests with a 15-minute turnaround. Why it matters: This partnership accelerates the development of novel diagnostic tools, which could improve healthcare accessibility in remote areas and low-income countries within the region.
KAUST held its third annual Sensor Initiative, hosting 70 delegates from KAUST and international institutions like MIT and UCLA. The interdisciplinary meeting focused on transforming sensor technologies and exploring applications. Researchers from KAUST and abroad presented on topics like chemical sensors and sustainable ecosystems. Why it matters: The initiative demonstrates KAUST's commitment to advancing sensor technology and fostering collaboration between local and international experts.
KAUST postdoctoral fellows Eloise Bihar and Abdellatif Ait Lahcen won Young Scientist awards at the Euroanalysis XX Conference in Turkey. Ait Lahcen won for his work on sensors detecting toxic compounds using ultrasound probes. Bihar won for her research on inkjet-printed biosensors for glucose detection, a collaboration between the Salama, Inal, and Baran groups at KAUST. Why it matters: The awards recognize KAUST's strength in developing innovative sensor technologies with potential applications in environmental monitoring and healthcare.
KAUST Associate Professor Jürgen Kosel has been named a distinguished lecturer of the Institute of Electrical and Electronics Engineers (IEEE) Sensors Council for 2020-2022. Kosel's research focuses on sensors and transducers with applications in animal monitoring, precision farming, Formula One racing, and biomedical instruments. His group is also developing magnetic devices for high-density data storage and cancer treatment. Why it matters: This recognition highlights KAUST's contributions to sensor technology and its potential impact on diverse fields, including healthcare in developing regions.
KAUST researchers collaborated to identify molecular pathways for plant biofortification of vitamin A. A KAUST group demonstrated high pressure conversion of carbon dioxide into useful products. Another team designed a biosensor using metal oxide transistors to detect glucose in saliva. Why it matters: These projects highlight KAUST's contributions to biotechnology, environmental sustainability, and healthcare through advanced materials and molecular techniques.
KAUST will host the "U.S. National Academy of Sciences – KAUST Frontiers of Sensor Science Symposium" in December, focusing on sensor technologies. The symposium, in collaboration with the U.S.-based National Academy of Sciences (NAS), will cover agriculture, biomedical applications, environment (smart cities), and materials science. Carlo Ratti, Director of MIT’s SENSEable City Lab, will deliver the keynote address. Why it matters: The event highlights KAUST's strategic focus on sensor technology and its role in fostering international collaboration in cutting-edge research areas relevant to regional development.
KAUST is developing wearable sensors to monitor athletes' physiological responses, aiming to enhance performance and prevent injuries, aligning with Saudi Vision 2030. In partnership with a global motor racing team, KAUST is using electrochemical sensors to monitor drivers’ hydration and stress markers, enabling customized interventions. KAUST's wearable technology could continuously observe physiological parameters during training and in competition, helping coaches predict injuries and optimize training. Why it matters: These advancements in sensor technology and data analysis position KAUST as a key player in sports training innovation and could significantly impact athletic performance and healthcare in the region.