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In a significant advancement in health technology, scientists at Nanyang Technological University, Singapore (NTU Singapore), have unveiled a revolutionary device capable of rapidly isolating blood plasma with unparalleled precision. Named ExoArc, this coin-sized chip offers a transformative alternative to the cumbersome and time-consuming multi-step centrifugation process currently used in diagnostics and precision medicine.
ExoArc’s innovation lies in its ability to directly isolate blood plasma from a tube of blood in just 30 minutes, eliminating the need for labour-intensive centrifugation. By leveraging unique flow phenomena in tiny channels within the chip, ExoArc achieves high plasma purity, removing over 99.9% of blood cells and platelets precisely and gently.
This breakthrough technology accelerates the clinical analysis of cell-free DNA, RNA molecules, and extracellular vesicles, which are vital for screening biomarkers indicative of various cancers and diseases.
Traditionally, blood plasma isolation has relied solely on centrifugation, a method prone to residual cell contamination and time-sensitive processing constraints. Even after multiple centrifugation rounds, lingering biological cells can compromise the accuracy of diagnostic tests, prolonging waiting times for results and exacerbating patient anxiety.
ExoArc’s streamlined process significantly reduces contamination risks, enabling quicker and more precise diagnoses, particularly crucial in cancer treatment and disease management.
To validate ExoArc’s efficacy, a portable prototype device was developed in collaboration with clinician-scientists from the National Cancer Centre Singapore (NCCS), Tan Tock Seng Hospital (TTSH), and the Agency for Science, Technology and Research (A*STAR). Clinical validation demonstrated ExoArc’s ability to diagnose non-small cell lung cancer with a sensitivity of 90%, highlighting its potential for real-world applications.
Furthermore, ExoArc’s versatility extends beyond cancer diagnostics, as demonstrated in studies involving microRNA analysis in individuals with type 2 diabetes mellitus. By identifying distinct microRNA profiles, ExoArc holds promise in identifying disease-related biomarkers and driving precision medicine initiatives, offering tailored treatments and improving patient outcomes.
In contrast to conventional centrifugation methods, ExoArc’s compact size and scalability present a transformative approach to blood plasma isolation. Its one-step process reduces processing time and operator variability, paving the way for automated and standardised diagnostic procedures. Moreover, ExoArc’s potential for scaling up through multiple channels ensures faster and more consistent plasma isolation, with future automation promising further efficiency gains and cost reductions.
Supported by a Proof-of-Concept and Proof-of-Value grant from the NTUitive Gap Fund, ExoArc epitomises NTU’s commitment to translating research into practical innovations with societal impact. With contributions from esteemed institutions such as the Massachusetts Institute of Technology and the University of Texas Medical Branch (Galveston), ExoArc’s development underscores collaborative efforts in advancing healthcare technology.
ExoArc represents a significant leap forward in health technology, offering a paradigm shift in blood plasma isolation for diagnostics and precision medicine. As ExoArc continues to evolve, its potential to enhance patient care and drive medical advancements holds promise for a healthier future globally.
NTU Singapore has positioned itself at the vanguard of deploying cutting-edge technology within the healthcare sector, striving relentlessly to pioneer advancements that not only enhance patient outcomes but also revolutionise the overall healthcare experience.
OpenGov Asia reported that a team of researchers from NTU Singapore developed WellFeet, a mobile application designed to provide comprehensive support for individuals living with diabetes. WellFeet educates patients and caregivers about the disease while assisting them in monitoring medication adherence, physical activity, and dietary habits, addressing the myriad challenges associated with diabetes management.
WellFeet offers tech-enabled support for individuals with diabetes and their caregivers, serving as a vital source of empowerment and assistance. As Singapore tackles its diabetes epidemic, initiatives like WellFeet pave the way for transformative healthcare solutions with the potential to change lives.