Quick and Accurate COVID-19 Test Identifies Neutralizing Antibodies to Aid Vaccine Immunity Monitoring
By HospiMedica International staff writers Posted on 06 Jan 2021 |
Illustration
Researchers have developed a new technology to aid COVID-19 vaccine immunity monitoring with potential for use as an in-home antibody test.
As the COVID-19 vaccine becomes available to the public, immunity monitoring will play an important role in determining whether the vaccine is effective for an individual, and for how long. A new diagnostic test developed by researchers at the University of Alabama (Birmingham, AL, USA) is an accurate and reliable method for determining whether individuals are protected against COVID-19. The technology identifies neutralizing antibodies - those that block the virus from infecting cells. Emerging research suggests neutralizing antibodies offer the best protection against the virus.
The most widely used antibody tests today do not specifically identify neutralizing antibodies. Currently, these neutralizing antibodies can only be measured at a high level of accuracy using complicated and time-consuming laboratory tests not available to the general public. Existing antibody tests use a broad approach to locating antibodies, which attach to very small and distinct pieces of the virus. Current tests can mistake antibodies for other viruses, such as the common cold, for COVID-19 antibodies, leading to possible false-positive results.
To create the new test, the researchers began breaking down the COVID-19 virus into small pieces to identify the exact locations where antibodies attached to the virus. The results were better than the researchers anticipated, with the test detecting 20% more positive cases than the current gold-standard clinical antibody test. The ability to specifically recognize even small amounts of antibodies accurately is an important achievement, according to the researchers.
Immunity to COVID-19 is not anticipated to last forever, and immunity monitoring could continue for several years, even after widespread administration of a vaccine. Clinical trials indicated that COVID-19 vaccines may be remarkably successful; however, even 95% effectiveness will leave millions unprotected. Antibody testing helps determine efficacy and should help indicate whether a person is protected against the virus. The researchers hope to transition the technology to an inexpensive and easy-to-use test that will provide in-home immunity monitoring for the general public.
“The goal of every vaccine is to get the body to produce antibodies, which serve as a first line of defense against the virus,” said Benjamin Larimer, Ph.D., researcher at the University of Alabama at Birmingham, who developed the test. “Tests that specifically detect these antibodies can be used to measure whether a vaccine works, and possibly predict how long its protection will last.”
Related Links:
University of Alabama
As the COVID-19 vaccine becomes available to the public, immunity monitoring will play an important role in determining whether the vaccine is effective for an individual, and for how long. A new diagnostic test developed by researchers at the University of Alabama (Birmingham, AL, USA) is an accurate and reliable method for determining whether individuals are protected against COVID-19. The technology identifies neutralizing antibodies - those that block the virus from infecting cells. Emerging research suggests neutralizing antibodies offer the best protection against the virus.
The most widely used antibody tests today do not specifically identify neutralizing antibodies. Currently, these neutralizing antibodies can only be measured at a high level of accuracy using complicated and time-consuming laboratory tests not available to the general public. Existing antibody tests use a broad approach to locating antibodies, which attach to very small and distinct pieces of the virus. Current tests can mistake antibodies for other viruses, such as the common cold, for COVID-19 antibodies, leading to possible false-positive results.
To create the new test, the researchers began breaking down the COVID-19 virus into small pieces to identify the exact locations where antibodies attached to the virus. The results were better than the researchers anticipated, with the test detecting 20% more positive cases than the current gold-standard clinical antibody test. The ability to specifically recognize even small amounts of antibodies accurately is an important achievement, according to the researchers.
Immunity to COVID-19 is not anticipated to last forever, and immunity monitoring could continue for several years, even after widespread administration of a vaccine. Clinical trials indicated that COVID-19 vaccines may be remarkably successful; however, even 95% effectiveness will leave millions unprotected. Antibody testing helps determine efficacy and should help indicate whether a person is protected against the virus. The researchers hope to transition the technology to an inexpensive and easy-to-use test that will provide in-home immunity monitoring for the general public.
“The goal of every vaccine is to get the body to produce antibodies, which serve as a first line of defense against the virus,” said Benjamin Larimer, Ph.D., researcher at the University of Alabama at Birmingham, who developed the test. “Tests that specifically detect these antibodies can be used to measure whether a vaccine works, and possibly predict how long its protection will last.”
Related Links:
University of Alabama
Latest COVID-19 News
- Low-Cost System Detects SARS-CoV-2 Virus in Hospital Air Using High-Tech Bubbles
- World's First Inhalable COVID-19 Vaccine Approved in China
- COVID-19 Vaccine Patch Fights SARS-CoV-2 Variants Better than Needles
- Blood Viscosity Testing Can Predict Risk of Death in Hospitalized COVID-19 Patients
- ‘Covid Computer’ Uses AI to Detect COVID-19 from Chest CT Scans
- MRI Lung-Imaging Technique Shows Cause of Long-COVID Symptoms
- Chest CT Scans of COVID-19 Patients Could Help Distinguish Between SARS-CoV-2 Variants
- Specialized MRI Detects Lung Abnormalities in Non-Hospitalized Long COVID Patients
- AI Algorithm Identifies Hospitalized Patients at Highest Risk of Dying From COVID-19
- Sweat Sensor Detects Key Biomarkers That Provide Early Warning of COVID-19 and Flu
- Study Assesses Impact of COVID-19 on Ventilation/Perfusion Scintigraphy
- CT Imaging Study Finds Vaccination Reduces Risk of COVID-19 Associated Pulmonary Embolism
- Third Day in Hospital a ‘Tipping Point’ in Severity of COVID-19 Pneumonia
- Longer Interval Between COVID-19 Vaccines Generates Up to Nine Times as Many Antibodies
- AI Model for Monitoring COVID-19 Predicts Mortality Within First 30 Days of Admission
- AI Predicts COVID Prognosis at Near-Expert Level Based Off CT Scans