Just in:
World’s First Commercial Multimodal LLM for Cultural Tourism Enters Broad Application // Bracell Welcomes Fernando Branco’s Appointment to Lead ABAF and Reinforces Commitment to Sustainable Forestry Development in Bahia // Beijing widens Japan curbs as Takaichi row deepens // Abu Dhabi starts new Saadiyat arts landmark // Why your AI transformation can fail — and it’s not the technology // France and Oman press toll-free Hormuz passage // 5 Law Firms Making a Difference in Cincinnati // Alibaba Cloud gains edge in agentic AI race // Masdar starts Kazakh wind power push // Cheap RAT spreads through Telegram channels // Dubai advances Gold Line contractor race // Most UAE expats under-insured, reveals survey // CG Capital, the Leader in Branded Residences in Thailand, Marks Milestone Success for InterContinental Residences Bangkok Asoke Amid Global Economic Uncertainty // Save the Children Hong Kong’s Play to Thrive: Prioritising Personal Growth Over Competitive Success // PRHK 2026 Benchmark Report highlights how Hong Kong’s IPO revival, AI, and the GBA are reshaping the SAR’s PR industry // DSQ Real Estate Highlights Post-Purchase Advisory as a Growing Need for Overseas Dubai Property Owners // Bid To Rebuild Bengal To Its Old Glory Is Welcome, Though Difficult // This summer will never stop us from our wellness routine // Bangladesh-China Joint Statement On Teesta Cooperation Poses A Big Challenge To India // China’s digital hub Hangzhou hosts conference on AI, OPC //

Researchers combat antimicrobial resistance using smartphones

1481862430 59 researchersc

A schematic shows a smartphone and the diagnostic attachment for antimicrobial susceptibility testing. Credit: Aydogan Ozcan/UCLA

A team of UCLA researchers has developed an automated diagnostic test reader for antimicrobial resistance using a smartphone. The technology could lead to routine testing for antimicrobial susceptibility in areas with limited resources.


Antimicrobial-resistant bacteria are posing a severe threat to global public health. In particular, they are becoming more common in bacterial pathogens responsible for high-mortality diseases such as pneumonia, diarrhea and sepsis.

ADVERTISEMENT

Part of the challenge in combatting the spread of these organisms has been the limited ability to conduct antimicrobial susceptibility testing in regions that do not have access to labs, testing equipment and trained diagnostic technicians to read such tests.

The UCLA researchers have developed a simple and inexpensive smartphone attachment that can conduct automated antimicrobial susceptibility testing. The research results were published in the journal Scientific Reports, part of the Nature Publishing Group.

“This work is extremely important and timely, given that drug-resistant bacteria are increasingly becoming a global threat rendering many of our first-line antibiotics ineffective,” said Aydogan Ozcan, Chancellor’s Professor of Electrical Engineering and Bioengineering at the UCLA Henry Samueli School of Engineering and Applied Science. “Our new smartphone-based technology can help put laboratory-quality testing into much wider adoption, especially in resource-limited regions.”

This collaborative interdisciplinary project involved the UCLA research labs of three professors—Ozcan; Omai Garner, an assistant professor of pathology and laboratory medicine in Health Sciences; and Dino Di Carlo, a professor of bioengineering in Engineering.

The UCLA device connects to a smartphone and has a plate that can hold up to 96 wells for testing. An array of LEDs illuminates the sample and then the phone’s camera is used to sense small changes in light transmission of each well containing a different dose selected from a panel of antibiotics. Images are sent to a server to automatically perform antimicrobial susceptibility testing and the results are returned to the smartphone in about one minute.

The researchers then tested the device in clinical settings at UCLA. They used special plates prepared with 17 different antibiotics targeting Klebsiella pneumoniae, a bacteria containing highly resistant antimicrobial profiles. During the clinical tests, they used 78 samples from patients. Their results showed that the mobile-phone-based reader meets the FDA-defined criteria for laboratory testing, with a detection accuracy of 98.2 percent.

The lowest concentration of antibiotic that prevented the growth of bacteria is used to track drug resistance. A criterion—that is susceptible to antibiotics or resistant to them—is assigned to each bacteria/drug combination in order to guide the physician in treatment decisions. A susceptible result indicates that the organisms that have infected the patient should respond to therapy, while a resistant organism will not be inhibited by the concentrations of antibiotic achieved with normal dosages used for that drug.

“This mobile reader could eliminate the need for trained diagnosticians to perform antimicrobial susceptibility testing, reduce the cost barrier for routine testing, and assist in tracking of bacterial resistance globally,” Garner said.

Di Carlo added, “An additional advantage of this technology is the possibility of examining bacterial growth in the presence of a drug at an earlier time point than is currently read, (about 24 hours). This could allow for a more rapid turnaround time of the results to the physician, which might help save lives.”


Explore further:
Simple method tests hard-to-treat bacteria’s susceptibility to different antibiotics

More information:
Steve Feng et al. High-throughput and automated diagnosis of antimicrobial resistance using a cost-effective cellphone-based micro-plate reader, Scientific Reports (2016). DOI: 10.1038/srep39203

Source link



Notice an issue?

Arabian Post strives to deliver the most accurate and reliable information to its readers. If you believe you have identified an error or inconsistency in this article, please don't hesitate to contact our editorial team at editor[at]thearabianpost[dot]com. We are committed to promptly addressing any concerns and ensuring the highest level of journalistic integrity.


ADVERTISEMENT
Social Media Auto Publish Powered By : XYZScripts.com
Just in:
Binzhou’s Leap from Manufacturing to Intelligent Manufacturing // Alibaba Cloud gains edge in agentic AI race // ClawHub breach exposes agent marketplace risk // Bangladesh-China Joint Statement On Teesta Cooperation Poses A Big Challenge To India // Why your AI transformation can fail — and it’s not the technology // Bracell Welcomes Fernando Branco’s Appointment to Lead ABAF and Reinforces Commitment to Sustainable Forestry Development in Bahia // World’s First Commercial Multimodal LLM for Cultural Tourism Enters Broad Application // Bid To Rebuild Bengal To Its Old Glory Is Welcome, Though Difficult // Dubai advances Gold Line contractor race // Afogreen Build Highlights Growing Adoption of Building Performance Modelling in Australia’s Sustainability-Driven Construction Sector // Payments giants back shared Open USD stablecoin // CG Capital, the Leader in Branded Residences in Thailand, Marks Milestone Success for InterContinental Residences Bangkok Asoke Amid Global Economic Uncertainty // Hawaii tests plastic waste in roads // China’s digital hub Hangzhou hosts conference on AI, OPC // Most UAE expats under-insured, reveals survey // Taiwan International Plant-Based Festival Launches in Singapore: High-End Culinary Partnerships and Diplomatic Exhibitions Shape Premium Agri-Product Branding // Beijing widens Japan curbs as Takaichi row deepens // DSQ Real Estate Highlights Post-Purchase Advisory as a Growing Need for Overseas Dubai Property Owners // Cheap RAT spreads through Telegram channels // Masdar starts Kazakh wind power push //