Researchers at the Washington University in St. Louis have developed a microneedle patch that can help to detect small amounts of antibodies in interstitial fluid. The painless technology could provide an alternative to blood draws for antibody tests, such as those used in the COVID-19 response. The new technology overcomes a bottleneck with many m (Read more...)
Tag: Pathology
Siemens epoc NXS Host Mobile Computer Cleared to Help Point of Care Blood Testing
Siemens Healthineers won both EU and US regulatory approval to introduce its epoc NXS Host mobile computer for the epoc Blood Analysis System. The Android smartphone provides an app-based intuitive interface that replaces the older interface that had over two dozen physical buttons and a relatively low resolution screen. The accompanying app is des (Read more...)
Paper Test for Quick Diagnosis of COVID-19
Researchers at the University of Illinois have developed a paper-based electrochemical diagnostic test for COVID-19 that can provide a result in just five minutes. The inexpensive test relies on the conductive properties of graphene and gold, and contains gold nanoparticles covered in sensitive nucleic acid probes that can bind to RNA from the SARS (Read more...)
CRISPR Test Uses Cell Phone Camera to Detect SARS-CoV-2
Researchers at UC Berkeley have developed a rapid test for SARS-CoV-2 that uses an enzyme to cleave viral RNA, initiating a fluorescent signal that can be detected using a smartphone camera, and which can provide a quantitative measurement of the level of viral particles in the sample. The test produce a result in as little […]
Rapid PCR Chip for Infectious Disease Diagnostics
Researchers at Imperial College London have developed a tiny lab-on-a-chip that can perform PCR diagnostics in just a few minutes. Usually requiring bulky and expensive lab equipment, PCR is a gold standard diagnostic test for a variety of infectious pathogens, including bacteria and viruses, such as SARS-CoV-2. The new testing device is 1 cm in [& (Read more...)
Paper-Based Device Rapidly Detects Antibiotic-Resistant Bacteria
Researchers at Binghamton University have developed a device that can rapidly detect certain types of antibiotic-resistant bacteria. The device uses paper as a substrate, and allows a user to rapidly test the effects of specific antibiotics on patient bacterial samples. It measures the effects of antibiotics on the electron transfer bacteria, provi (Read more...)
Rapid Identification of Antibiotic-Resistant Infections: Interview with Jong Lee, CEO at Day Zero Diagnostics
Antibiotic resistance is a growing concern, with some predictions suggesting that routine surgery could be unacceptably risky in a future where many antibiotics have become obsolete. Part of the problem lies in the time it takes clinicians to diagnose an antibiotic-resistant infection. Current techniques involve lab technicians culturing a bacteria (Read more...)
Tiny Robots Walk Through Colon to Deliver Drugs, Sample Tissue
Delivering drugs to internal organs and tissues is usually achieved through ingested medications, but these are often diluted and intercepted before enough can reach the intended destination. Targeted delivery is preferred but usually very difficult to accomplish, particularly when there’s a lot of fluids and movement. This is the case with t (Read more...)
Robotic Probe for Semi-Autonomous Colonoscopies
Researchers at the University of Leeds in the UK have developed a robotic system that can assist a physician or nurse to perform a colonoscopy. The system uses magnets to guide a probe through the body, and its developers claim that the approach is easier for operators and less painful and uncomfortable for patients. The […]
(Read more...)Cell Culture System Mimics Effects of Lung Motion on Cancer Metastases
Researchers at Purdue University have developed a cell culture system to examine the effects of lung motion on breast cancer metastases. The system uses magnets to provide a stretching force on a 3D culture of breast cancer cells, and the researchers hope that the technology could lead to new insights into metastases and how to […]
Sensor Rapidly Detects SARS-CoV-2, Antibodies, and Inflammatory Markers
Researchers at Caltech have developed a low-cost multiplex test that can rapidly provide three different types of data on COVID-19. The test can detect the presence of SARS-CoV-2, antibodies against the virus (potentially indicating a level of immunity), and inflammatory markers that could indicate the severity of COVID-19. Using blood or saliva, t (Read more...)
Sensor Rapidly Detects SARS-CoV-2, Antibodies, and Inflammatory Markers
Researchers at Caltech have developed a low-cost multiplex test that can rapidly provide three different types of data on COVID-19. The test can detect the presence of SARS-CoV-2, antibodies against the virus (potentially indicating a level of immunity), and inflammatory markers that could indicate the severity of COVID-19. Using blood or saliva, t (Read more...)
Hyperpolarized Gas MRI for Pulmonary Disease Assessment: Interview with Richard Hullihen, CEO of Polarean Imaging
Polarean Imaging, a company based in North Carolina, is pursuing regulatory approval for clinical use of its hyperpolarized gas MRI. The technology is intended to assist in diagnosing respiratory conditions, something that would be particularly useful during the ongoing COVID-19 pandemic. Specifically, Polarean produces equipment to generate hyperp (Read more...)
Sound Waves Move Individual Droplets Inside Microfluidic Devices
Microfluidic devices are analogous to circuit boards, and they can be programmed to perform all kinds of laboratory tasks on a small scale. They have the potential to perform all kinds of medical tests involving body fluids in a short time and using very small samples. While circuit boards pass electricity, which can be abstracted […]
Breathalyzer to Detect COVID-19 in Seconds
Being able to tell, in a matter of seconds, whether someone is infected with the virus that causes COVID-19 would certainly help put a halt to the ongoing pandemic. Existing tests typically involve a deep nasal swab to obtain enough fluid sample, which has to be transferred to a laboratory machine for processing, with the […]
High-Resolution 3D Mouse Brain Map for Neuroscience Researchers
Researchers at the Allen Institute in Seattle have created a 3D Mouse Brain Atlas, which functions as a spatial map of the brain and allows neuroscientists to contextualize their results based on specific brain landmarks. Strikingly, the resolution of the map is so high that it is possible to locate individual cells, providing an enormous [… (Read more...)
New Fluorescence Microscopy Technique for Nanostructure Visualization Within Cells
Researchers at Purdue University have developed a new technique to dramatically enhance the resolution achievable when imaging intracellular structures with super-resolution fluorescence microscopy. The technique uses the distortions created by a specimen to pinpoint the location of individual molecules, and thereby infer the location of intracellu (Read more...)
3D Printed Microscope Costs as Little as $18
Researchers at the University of Bath in the UK have developed a 3D-printed microscope design, called OpenFlexure, which is open-source and can be assembled for as little as $18. More complex versions of the design are possible, and the microscope can incorporate full automation and a Raspberry Pi computer. The research team hopes that the [&hellip (Read more...)
Camera Images Blood Perfusion at High Resolution Thanks to Pulse Oximeter
How blood moves throughout the body and into the smallest capillaries is hard to observe using existing imaging methods. Yet, poor blood perfusion can be an indicator for a variety of medical conditions, potentially serving as a diagnostic tool and a way to help manage diseases. Infrared thermography is a decent tool for this, but […]
Micro-OCT Lets Docs Spot Tumors Below Tissue Surface
A collaboration between researchers at Nanyang Technological University, Harvard Medical School, and University of Alabama has led to the development of a prototype device capable of imaging through tissues at resolutions down to 1 micrometer (μm). The micro-OCT imager takes advantage of optical coherence tomography (OCT) at wavelengths between (Read more...)