Click it and Unblock the Notifications
Latest Updates
-
World Kidney Day 2026: History, Significance And Theme Behind This Global Health Awareness Day -
Who Is Charulatha Remesh? Sanju Samson’s ‘Dear Pondatti’ Post After India’s T20 World Cup Victory Wins Hearts -
Sheetala Saptami 2026: Significance, Vrat Katha And Why Families Eat Cold Food And Avoid Cooking This Day -
Suryakumar Yadav Takes T20 World Cup Trophy To 526 Year Old Adalaj Stepwell -
Horoscope for Today March 10, 2026 - Calm Energy, Steady Progress -
Women Car Rally Held In Gurugram On International Women’s Day, Boldsky Collaborates As Media Partner -
The Protein Gap In Women’s Diets: Gynaecologist Explains Why This Nutrient Matters From Puberty To Menopause -
Ralph Lauren Showcases ‘Jhumkas’ At Paris Fashion Week, Rekindling Debate On Credit For Indian Craft -
Viral Video: Pakistani Family Celebrates India’s T20 World Cup Victory With Cake, Sings Indian National Anthem -
Who Is Aditi Hundia? Viral Video Shows Ishan Kishan Celebrating India’s T20 World Cup Win With Girlfriend
Scientists Develop New Sensor That Help Combat Drug Resistance
A new way to combat drug resistance has been developed by scientists. Check it out.
Scientists have developed a sensor for quickly determining whether an antibiotic combats a given infection, thereby hastening effective medical treatment and limiting drug-resistant bacteria.
The method developed by researchers at the National Institute of Standards and Technology (NIST) in the US can quickly sense mechanical fluctuations of bacterial cells and any changes induced by an antibiotic.
The prototype sensor provides results in less than an hour, much faster than conventional antimicrobial tests, which typically require days to grow colonies of bacterial cells, researchers said.
Delayed results from conventional tests allow dangerous infections to progress before effective treatments can be found and provides a time window for bacteria to develop drug resistance.
Improperly prescribed antibiotics and antibiotic- resistant bacteria pose serious threats to public health. At least two million illnesses and 23,000 deaths are attributed to antibiotic-resistant bacterial infections in the US each year, according to a 2013 report from the Centers for Disease Control and Prevention.
The new sensing approach is based on a quartz-crystal resonator whose vibrations vary in measurable ways when particles on the surface change.
The approach, which involves bacterial cells adhered to a resonator, represents a new way of using these super- sensitive crystals, which researchers previously demonstrated for applications such as measuring carbon nanotube purity.
The technique senses the mechanical motion of microbes and their response to antibiotics. The method may be more useful in clinical settings because it collects electronic data cost-effectively and, since it senses large bacterial colonies, can be macroscopic and robust.
The sensor is piezoelectric, which means its dimensions change when exposed to an electric field. A thin piezoelectric quartz disk is sandwiched between two electrodes. An alternating voltage at a stable frequency near the crystal's resonant frequency is applied to one electrode to excite crystal vibrations.
From another electrode on the opposite side of the crystal, researchers record oscillating voltages of the crystal response, a signal that shows fluctuations in the resonant frequency (or frequency noise) arising from microbial mechanical activity coupled to the crystal surface.
(With Agency Inputs)
Disclaimer: The information provided in this article is for general informational and educational purposes only and is not intended as a substitute for professional medical advice, diagnosis, or treatment. Always seek the advice of your physician or a qualified healthcare provider with any questions you may have regarding a medical condition.
Continue with Google