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




Noninvasive Test Detects Malaria Without Blood Sample

By LabMedica International staff writers
Posted on 30 Oct 2024
Print article
Image: The Cytophone clinical prototype (Photo courtesy of Nat. Commun.; Yadem, A.C., Armstrong, J.N., Sarimollaoglu, M. et al.)
Image: The Cytophone clinical prototype (Photo courtesy of Nat. Commun.; Yadem, A.C., Armstrong, J.N., Sarimollaoglu, M. et al.)

Malaria remains a significant global health issue, with approximately 250 million cases and over 600,000 deaths reported annually. Nearly half of the world's population is at risk for malaria infection, particularly vulnerable groups such as children and pregnant women, who face the highest likelihood of severe illness and death from the disease. Currently, detecting this potentially fatal infection typically requires invasive blood samples, and existing testing methods have considerable limitations that hamper their effectiveness. A new technology now presents an exciting point-of-care (POC) diagnostic tool that has the potential to improve malaria detection and facilitate timely treatment.

Researchers at Yale School of Public Health (New Haven, CT, USA) and their collaborators have introduced a novel noninvasive test that could significantly transform malaria testing in low- and middle-income countries that are heavily impacted by this mosquito-borne illness. The innovative test does not require any blood samples, making it safer and more accessible. It utilizes a device called the Cytophone, which employs targeted lasers and ultrasound to identify malaria-infected cells in the bloodstream. Roughly the size of a tabletop printer, the Cytophone prototype can quickly ascertain the presence of malaria infection through a small, noninvasive probe applied to the back of a patient’s hand over a targeted vein.

The Cytophone's ability to detect infections noninvasively is made possible due to the accumulation of a by-product known as hemozoin in red blood cells infected with malaria parasites. This iron crystal by-product absorbs more light than normal hemoglobin when exposed to laser light, heating up and displaying magnetic and optical properties that the Cytophone probe can identify. In research published in Nature Communications, the team evaluated the Cytophone on 20 adult patients diagnosed with symptomatic malaria in Cameroon. The device successfully identified Plasmodium falciparum, the most prevalent and lethal malaria parasite, along with other less common species. The findings demonstrated that the Cytophone is sensitive enough to detect both high and low levels of parasites in infected blood, achieving 90% sensitivity and 69% specificity—comparable to, and in some cases exceeding, current gold standards for malaria testing that necessitate blood draws. Additionally, the device was capable of tracking the reduction of parasite levels when patients were retested post-treatment.

“Our study showed that the Cytophone was safe and had comparable diagnostic performance to current point-of-care options when compared to highly sensitive quantitative PCR as the gold standard,” said Jillian N. Armstrong, one of the study’s lead authors.

Gold Member
Serological Pipet Controller
PIPETBOY GENIUS
Automated Blood Typing System
IH-500 NEXT
New
Rocking Shaker
HumaRock
New
Tabletop Centrifuge
Mikro 185

Print article

Channels

Hematology

view channel
Image: Personalized blood count could lead to early intervention for common diseases (Photo courtesy of 123RF)

Personalized CBC Testing Could Help Diagnose Early-Stage Diseases in Healthy Individuals

A complete blood count (CBC) screening is a standard examination most physicians request for healthy adults. This test is essential for evaluating a patient’s overall health with a single blood sample.... 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: The BIOFIRE® FILMARRAY® Tropical Fever Panel has received U.S. FDA Special 510(k) clearance (Photo courtesy of bioMérieux)

Syndromic PCR Test Rapidly and Accurately Identifies Pathogens in Patients with Tropical Fever Infections

Tropical fevers refer to infections that are common in, or unique to, tropical and subtropical regions. As these diseases spread to previously unaffected areas and can be brought in by travelers, infections... Read more

Pathology

view channel
Image: The new study highlights efficiency in detecting infectious diseases (Photo courtesy of Adobe Stock)

Optimized Pooled Testing Approach Could Transform Public Health Screening for Infectious Diseases

Traditional individual testing methods can be resource-intensive, particularly when it comes to large-scale screenings. Pooled testing, on the other hand, enables the testing of multiple specimens together,... Read more
Copyright © 2000-2024 Globetech Media. All rights reserved.