We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

Features Partner Sites Information LinkXpress hp
Sign In
Advertise with Us
LGC Clinical Diagnostics

Download Mobile App




New Diagnostic System Achieves PCR Testing Accuracy

By LabMedica International staff writers
Posted on 09 Apr 2024
Print article
Image: The nanopore optofluidic chip used in the new diagnostic system (Photo courtesy of UC Santa Cruz)
Image: The nanopore optofluidic chip used in the new diagnostic system (Photo courtesy of UC Santa Cruz)

While PCR tests are the gold standard of accuracy for virology testing, they come with limitations such as complexity, the need for skilled lab operators, and longer result times. They also require complex chemical reactions which are crucial for amplifying viral DNA or RNA, a process that involves generating multiple copies of the genetic material that can also create and amplify error. Additionally, PCR tests can detect only nucleic acids, the material comprising DNA and RNA, but for certain diseases it can be of great use to detect other biomarkers such as proteins. Now, a groundbreaking diagnostic system offers the ability to accurately identify SARS-CoV-2 and Zika virus with a precision matching or surpassing that of PCR tests, but significantly reducing the time and complexity involved in diagnosis.

The new system developed at UC Santa Cruz (Santa Cruz, CA, USA) in collaboration with the Texas Biomedical Research Institute (San Antonio, TX, USA) combines optofluidics and nanopore technology to create a lab-on-a-chip diagnostic system. Optofluidics refers to the control of tiny amounts of fluids using beams of light, with a nanopore for counting single nucleic acids to read genetic material. The testing process begins with a biofluid sample mixed with magnetic microbeads designed with a matching RNA sequence of the disease for which the test is meant to detect. For instance, in case of a test to detect COVID-19, the microbeads will have strands of SARS-CoV-2 RNA on them. When SARS-CoV-2 virus is present in the sample, the virus's RNA binds to the beads.

After waiting briefly, the magnetic beads are pulled down to the bottom of the container and everything else is washed out. The beads are placed into a silicon microfluidics chip, where they flow through a long, thin channel covered by an ultra-thin membrane. The beads are caught in a light beam that pushes them against a wall in the channel, which contains a nanopore, a tiny opening only 20 nanometers across. In comparison, a human hair is approximately 80,000 - 100,000 nanometers wide. After this, heat is applied to the chip, making the RNA particles come off the beads and sucked into the nanopore, which detects that the virus RNA that is present

For this study, the researchers used various biofluids, including saliva and blood from baboons and marmosets, to understand disease transmission in different animals. The test demonstrated accuracy in virus detection at levels sometimes missed by PCR, indicating potential superior sensitivity. This lab-on-a-chip technology is not only applicable to Zika and COVID-19 but can be adapted to any virus for which the researchers have a genetic sample. The system can be further simplified and minimized, allowing it to simultaneously test for multiple disease types, a feature called disease multiplexing.

“We built up a simple lab-on-a-chip system that can perform testing at a miniature level with the help of microfluidics, silicon chips, and nanopore detection technologies,” said Mohammad Julker Neyen Sampad, a graduate student at the Texas Biomedical Research Institute. “Simple, easy, low resource tool development was our goal — and I believe we got there.”

Related Links:
UC Santa Cruz
Texas Biomedical Research Institute

Gold Member
Antipsychotic TDM Assays
Saladax Antipsychotic Assays
Antipsychotic TDM AssaysSaladax Antipsychotic Assays
New
Herpes Virus Test
Human Herpes Virus (HHV-6) Real Time PCR Kit
New
Alpha-1-Antitrypsin ELISA
IDK alpha-1-Antitrypsin ELISA

Print article

Channels

Clinical Chemistry

view channel
Image: Rapid and non-invasive analysis of paracetamol overdose using paper arrow-mass spectrometry (Photo courtesy of Dr Simon Maher/University of Liverpool)

New Saliva Test Rapidly Identifies Paracetamol Overdose

Paracetamol is the most widely used medication worldwide, and its easy availability contributes to its frequent misuse and overdose. Overdosing on paracetamol can lead to liver toxicity, requiring hospitalization.... Read more

Molecular Diagnostics

view channel
Image: The study found previously undetected cancers in pregnant women with abnormal prenatal cfDNA test results (Photo courtesy of NIH)

Abnormal Prenatal Blood Test Results Could Indicate Hidden Maternal Cancers

Researchers have discovered previously undiagnosed cancers in 48.6% of pregnant individuals who received abnormal results from prenatal cell-free DNA (cfDNA) testing, which is typically used to screen... Read more

Hematology

view channel
Image: RHD screening just got easier with single exon NIPT testing (Photo courtesy of Devyser)

Non-Invasive Test Solution Determines Fetal RhD Status from Maternal Plasma

RhD (rhesus D) is a blood group type that can trigger immune responses. Individuals who lack RhD on their red blood cells are classified as RhD-negative. These individuals may produce antibodies against... Read more

Immunology

view channel
Image: Concept for the device. Memory B cells able to bind influenza virus remain stuck to channels despite shear forces (Photo courtesy of Steven George/UC Davis)

Microfluidic Chip-Based Device to Measure Viral Immunity

Each winter, a new variant of influenza emerges, posing a challenge for immunity. People who have previously been infected or vaccinated against the flu may have some level of protection, but how well... Read more

Microbiology

view channel
Image: A new test finds bacteria in liquids and indicate their presence by changing color (Photo courtesy of Georgia Kirkos/McMaster University)

New Hands-Free Rapid Test Detects Bacteria in Fluids

Bacteriophages, the most abundant form of life on Earth, are specialized to target and destroy specific types of bacteria. Their natural ability to fight bacteria has long been harnessed to treat infections.... Read more
Copyright © 2000-2024 Globetech Media. All rights reserved.