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Reliable diagnostics at the tip of your finger

Direct and sensitive analysis of clinical samples for point-of-care diagnostics

Date:
May 18, 2022
Source:
Institute for Basic Science
Summary:
Biomarkers are components that may be present in biological samples and are related to specific diseases. Therefore, doctors can analyze biological samples from a patient to check their health condition or to monitor the progress of a specific therapy. Typically, these samples need to be purified and diluted before the analysis, and current medical diagnostic techniques rely on healthcare facilities and laboratories for these routine analyses. This is a lengthy process that requires trained personnel and expensive instrumentation to extract, transport, store, process, and analyze the samples in centralized locations. Moreover, during a period of global crisis like the ongoing pandemic, the pressure of thousands of analysis requests can saturate and collapse the healthcare system.
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Biomarkers are components that may be present in biological samples and are related to specific diseases. Therefore, doctors can analyze biological samples from a patient to check their health condition or to monitor the progress of a specific therapy. Typically, these samples need to be purified and diluted before the analysis, and current medical diagnostic techniques rely on healthcare facilities and laboratories for these routine analyses. This is a lengthy process that requires trained personnel and expensive instrumentation to extract, transport, store, process, and analyze the samples in centralized locations. Moreover, during a period of global crisis like the ongoing pandemic, the pressure of thousands of analysis requests can saturate and collapse the healthcare system.

On the other hand, point-of-care devices, which are small automated instruments, are capable of performing diagnostics in decentralized locations and can provide quick answers. One example of such a device is the glucose meter that people with diabetes use to monitor their sugar levels in the blood. These devices can overcome the inherent limitations of having to process a sample through a centralized system, empowering anyone to be able to monitor their health from home, simply using a tiny blood sample extracted with a fingerprick.

However, the development of these devices has been burdened by the technical challenges related to measuring biological samples. Biomarkers for some diseases and infections are only present in the samples in very small amounts, which in turn imposes the challenge to develop extremely sensitive detection techniques. While increasing the surface area of the biosensor can increase the sensitivity of the instrument, these surfaces tend to be quickly clogged and contaminated, rendering them unusable.

To this end, the team led by Professor CHO, Yoon-Kyoung at the Center for Soft and Living Matter within the Institute for Basic Science (IBS) in Ulsan, South Korea recently developed a biosensor using a method to generate nanostructured and nanoporous surfaces. This combined strategy not only provides the sensor with an unprecedented sensitivity but also makes it resistant to fouling by proteins.

While previously there has been no known method to reliably create electrodes using such nanostructured and nanoporous substrates, the team reported a simple method to generate such materials. The mechanism is based on the application of electric pulses to a flat gold surface in the presence of sodium chloride and a surfactant that can form micelles in solution. These electric pulses drive a preferent reaction to etch and redeposit gold from the surface and, in turn, grow nanostructures and form the nanopores. The use of surfactant in the form of micelles is essential to the success of this strategy since it prevents the material that is being etched from diffusing away during the process, so it can be redeposited.

The formation of these nanostructures yielded a large surface area which was beneficial for increasing the sensitivity of the assays, whereas the formation of nanopore substrates was ideal to prevent contamination from the biological samples. Both the nanostructures and the nanopores' combined benefits were key to the success of this strategy, which could be applied for the direct analysis of clinical plasma samples.

The researchers further demonstrated this new technology by building a biosensor for the detection of prostate cancer. The electrode was sensitive enough to discriminate between a group of prostate cancer and healthy donors using only a tiny amount of blood plasma or urine samples. No dilution or preprocessing steps were used, which means that the technology could easily be used for the point-of-care diagnosis of cancer.

Professor Cho stated, "We believe that this technology is essential for the future development of point-of-care devices and diagnostic tests that work with biological samples. The capability to detect low concentrations of relevant biomarkers with robust performance opens a door to possibilities in the field of diagnostics for cancer, pathogens, and other diseases."

The findings of this research have been published in Advanced Materials (IF: 30.849) on May 17th, 2022.


Story Source:

Materials provided by Institute for Basic Science. Note: Content may be edited for style and length.


Journal Reference:

  1. Jonathan Sabaté del Río, Hyun‐Kyung Woo, Juhee Park, Hong Koo Ha, Jae‐Ryong Kim, Yoon‐Kyoung Cho. SEEDING to Enable Sensitive Electrochemical Detection of Biomarkers in Undiluted Biological Samples. Advanced Materials, 2022; 2200981 DOI: 10.1002/adma.202200981

Cite This Page:

Institute for Basic Science. "Reliable diagnostics at the tip of your finger." ScienceDaily. ScienceDaily, 18 May 2022. <www.sciencedaily.com/releases/2022/05/220518080604.htm>.
Institute for Basic Science. (2022, May 18). Reliable diagnostics at the tip of your finger. ScienceDaily. Retrieved December 20, 2024 from www.sciencedaily.com/releases/2022/05/220518080604.htm
Institute for Basic Science. "Reliable diagnostics at the tip of your finger." ScienceDaily. www.sciencedaily.com/releases/2022/05/220518080604.htm (accessed December 20, 2024).

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