Summary: Researchers have developed a novel metasurface biosensor platform that enhances the measurement of human serum albumin (HSA), improving the detection and monitoring of chronic kidney disease.

Three key takeaways:

  1. Innovative Biosensor Technology: The new biosensor system uses a nanophotonic all-dielectric metasurface combined with aggregation-induced emission (AIE) fluorescent biosensors to improve the accuracy of HSA measurements in urine, offering superior performance in detecting kidney-related biomarkers.
  2. Potential for Widespread Diagnostic Use: This advancement can facilitate more accessible, accurate, and cost-effective kidney function testing, potentially benefiting large-scale health surveys and improving disease management in remote or resource-limited settings.
  3. Broad Implications for Kidney Disease Management: The enhanced detection capabilities of the new biosensor platform could lead to better early diagnosis and monitoring of chronic kidney disease and diabetic kidney disease, addressing the under-reporting and asymptomatic nature of these conditions.

Development of a new way to accurately measure human serum albumin (HSA) levels in people with chronic kidney disease has progressed in recent testing by Flinders University and Japanese researchers.

Further engineering of the novel system of AIE biosensors, pioneered at Flinders University, was conducted by PhD candidate Qi Hu in Japan as part of a National Institute for Materials Science (NIMS) Cooperative Graduate Program, with Masanobu Iwanaga, PhD, an expert on metasurface in optical biosensing.

The research project involved further engineering of a novel metasurface platform to improve readings of HSA in urine tests using fluorescent (FL) biosensors with an aggregation-induced emissions (AIE) feature.

“In our collaboration with experts at the National Institute for Materials Science in Japan, we sought to overcome come of the vagaries in readings from testing urine samples for HSA using this promising new field of fluorescent biosensors,” says Professor Youhong Tang, from the Medical Device Research Institute and Flinders Institute for NanoScale Science and Technology, College of Science and Engineering. “The novel nanophotonic all-dielectric metasurface platform incorporating with AIE biosensors has been fabricated to achieve extraordinary HSA detection performance.”

Testing for Chronic Kidney Disease

More accurate, portable, and affordable testing can make large-scale surveys of biomarkers of kidney function more accessible – including in remote or areas with basic health facilities – with chronic kidney disease under-reported in the population because it is often asymptomatic, researchers say.

Chronic kidney disease (CKD) is on the rise around the globe is on the rise due to aging populations, with more than 1.7 million Australians or about 11% of the adult population living with the condition. Accurate estimates of the prevalence of CKD requires large-scale surveys of biomarkers of kidney function in the population.

Biomarker diagnosis can be difficult as the kidneys are still able to function adequately when they are slightly damaged. Low levels of HSA are important indicators to monitor the status or progression of the condition in existing CKD and diabetic kidney disease (DKD) patients.

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Accurate estimates of the prevalence of all three kidney conditions require large-scale surveys of biomarkers of kidney function in the population.

As some diagnoses require the presence of measured biomarkers that persist for at least three months, people often do not realize they have the disease which can lead to long-term health problems.

Hu says the new platform “integrates a microfluidic system and a metasurface substrate to enable analyte delivery and the monitoring/detecting AIE FL enhancement in real time with the outstanding characteristics of high throughput, good reusability and low reagent consumption.”

Iwanaga, Group Leader of Nanophotonics Group, Research Center for Electronic and Optical Materials at NIMS in Japan, says: “As well, this proposed metasurface can service as a biomedical chip-based platform for providing a promising pathway of enhancing sensing and biomarker detection quantitatively.”

The article, Metasurface Platform Incorporating Aggregation Induced Emission Based Biosensor for Enhanced Human Serum Albumin Detection (2024) by Qi Hu, Masanobu Iwanaga and Youhong Tang has been published in the journal Advanced Optical Materials (Wiley) DOI: 10.1002/adom.202400868

Featured image: Metasurface platform incorporating Aggregation Induced Emission based biosensor for enhanced Human Serum Albumin detection. Photo: Flinders University