Download Mobile App

Video Library

Events

more events

26 Apr 2026 - 28 Apr 2026

ECTES 2026 – 25th Congress of the European Society for Trauma & Emergency Surgery (ESTES)

26 Apr 2026 - 30 Apr 2026

ECIO 2026 – European Congress on Interventional Oncology

26 Apr 2026 - 30 Apr 2026

TIHE 2026 – Tashkent International Healthcare Exhibition

Partner Sites

MedImaging

AI Detection Tool Improves Identification of Lobular Breast Cancer

New Breast Imaging Viewer Unifies Modalities and Enhances Clinical Workflow

Radiomics Analysis of CT Scans Enhances Evaluation of Sarcoidosis

Hybrid AI System Improves Early Lung Cancer Detection on CT

New Contrast Agent Enables Low-Dose X-Ray Joint Imaging

Featured Links

Medical Equipment Marketplace
Visit our all new website Trademed.com where buyers and sellers can find the best medical device and equipment.

Lateral Flow Assay Device Detects Microorganisms in Biofilms

By HospiMedica staff writers
Posted on 28 Aug 2007

A new lateral flow assay device detects microorganisms in biofilms, which attach to inanimate substances such as catheters in humans, or to living tissue such as human heart valves or bone.

The biofilms act as a defense for microorganisms against the immune system and drugs, making it difficult for the body to fight an infection and for physicians to treat it. More...

Developed by a team of faculty members and students from Northern Arizona University (NAU; Flagstaff, AZ, USA) and the University of Maryland (College Park, MD, USA), the lateral flow assay identifies the presence of biofilm-specific antibodies in patients by allowing the antibodies to bind to biofilm-specific proteins on the device.

Biofilms cause more than 70% of community and hospital-acquired infections, such as staphylococcal infections, according to the US Centers for Disease Control and Prevention (Atlanta, GA, USA). The cost associated with treating these infections in the United States is about US$5 billion per year, according to Jeff Leid, an associate professor in the department of biological sciences and associate director for NAU's Center for Microbial Genetics and Genomics.

Biofilms are an important problem with implanted medical devices as well as in the establishment of chronic infections, Prof. Leid said. They are notoriously less susceptible to antibiotics than their single-cell, non-community orientated bacteria and are less susceptible to attack and killing from the human immune system. Prof. Leid explained that because of this, patients often suffer chronic and recurring infections. Without a specific way for physicians and healthcare workers to diagnose these infections, patient treatment may be delayed, he added.

Related Links:
Northern Arizona University
Centers for Disease Control and Prevention
University of Maryland

Visit expo >

Gold Member

12-Channel ECG

CM1200B

Gold Member

STI Test

Vivalytic Sexually Transmitted Infection (STI) Array

New

Multi-Chamber Washer-Disinfector

WD 390

New

Hybrid Arch Device

Neo EDE

Read the full article by registering today, it's FREE!

Free digital version edition of HospiMedica International sent by email on regular basis
Free print version of HospiMedica International magazine (available only outside USA and Canada).
Free and unlimited access to back issues of HospiMedica International in digital format
Free HospiMedica International Newsletter sent every week containing the latest news
Free breaking news sent via email
Free access to Events Calendar
Free access to LinkXpress new product services
REGISTRATION IS FREE AND EASY!

Sign in: Registered website members

Sign in: Registered magazine subscribers

Latest Surgical Techniques News

Channels

Artificial Intelligence

view channel

Critical Care

view channel

Image:Illustration of AI-driven full-process management of heart failure. Integrated AI applications in the risk prediction, phenotyping, diagnosis, treatment, and prognosis of heart failure using inspection, monitoring, and treatment tools. AI: Artificial intelligence; AI-CDSS: AI-assisted clinical decision-support systems; CMR: Cardiac magnetic resonance; CT: Computed tomography; Inbody: InBody Co., Ltd., Seoul, South Korea; PCG: Phonocardiogram (photo courtesy of Yi-Da Tang from Peking University Third Hospital)

AI Expands Across Heart Failure Care Continuum to Improve Management

Heart failure (HF) is a chronic, progressive syndrome with high morbidity and mortality that drives frequent hospital readmissions and variable responses to therapy. Persistent heterogeneity in presentation... Read more

Microneedle Sensor Enables Continuous Monitoring of Drug Clearance

Early identification of kidney and liver dysfunction is essential when dosing nephrotoxic or hepatotoxic drugs, yet clinicians often rely on intermittent blood tests that can miss evolving injury.... Read more

Review Advances Precision Care Pathway for Meningioma Management

Meningiomas are the most common primary brain tumors and account for about 37% of central nervous system tumors, often impairing neurological function depending on where they arise. Care has traditionally... Read more

3D Brain Imaging Marker Predicts Surgical Outcomes in Dementia-Causing Hydrocephalus

Idiopathic normal pressure hydrocephalus (iNPH) is an underdiagnosed cause of gait disturbance, urinary symptoms, and cognitive decline in older adults. Cerebrospinal fluid shunt surgery can alleviate... Read more

Surgical Techniques

view channel

$Image: At Hannover Messe, Paul Motzki (left) and his team are presenting a prototype smart implant that can monitor the fracture healing process and actively support it. Floria Wein (right) is carrying out research into this technology as part of her degree programme (photo courtesy of Oliver Dietze/Saarland University)$