Microfluidic sensor rapidly measures lactate concentration
Scientists have developed a soft and nonirritating microfluidic sensor for the real-time measurement of lactate concentration in sweat.
Scientists have developed a soft and nonirritating microfluidic sensor for the real-time measurement of lactate concentration in sweat.
The Wyss Institute's eRapid electrochemical sensor technology now enables specific and multiplexed detection of blood biomarkers at low cost.
Researchers have invented a high-throughput cell separation method that can be used in conjunction with droplet microfluidics.
COMPAMED 2020 took place entirely online due to the pandemic - but still won over their audiences due to their high degree of international resonance in this format too.
A microfluidic chip takes up a water sample, adds the necessary chemicals and transports it to the detection site.
我们rable sensor detects multiple chronic wound biomarkers to facilitate timely and personalised wound care.
Researchers have fabricated the first controllable gas-liquid interface at the nanoscale.
A research team led by scientists at Hong Kong Baptist University (HKBU) has developed a novel cell sensor with a barcode-like micro-channel structure that enables rapid and low-cost screening of drug-resistant bacteria.
Researchers have shown in mammals that the concentration of antibiotics in the body can be determined using breath samples.
Researchers have developed a biocompatible energy storage device.
Researchers at Tel Aviv University have printed an entire active and viable glioblastoma tumor using a 3D printer.
Engineers have unveiled an air-powered computer memory that can be used to control soft robots. It overcomes the problem of the mismatch between pneumatics and electronics.
Researchers have developed a novel skin-mounted sticker that absorbs sweat and then changes color to provide an accurate, easy-to-read diagnosis of cystic fibrosis within minutes.
COVID-19 can be diagnosed in 55 minutes or less with the help of programmed magnetic nanobeads and a diagnostic tool that plugs into an off-the-shelf cellphone.
Researchers at the Indian Institute of Science and SigTuple Technologies have developed a method to measure hemoglobin levels in small-volume blood samples.
Researchers have developed an “organs-on-a-chip” system that replicates interactions between the brain, liver, and colon.
Researchers have demonstrated a novel multifunctional ultrathin contact lens sensor layer with transistors that may revolutionise the manufacture of smart contact lenses.
With soaring demand for point-of-care testing (POCT), microfluidics has been a pivotal resource as COVID-19 swept across the world.
The supplier sector will showcase its expertise and innovative high-tech solutions for the medical technology industry.
Researchers have developed a precisely controllable system for mimicking biochemical reaction cascades in cells.
A dual-organ system enables the measurement of cardiac toxicity arising from breast cancer chemotherapy.
Scientists have developed a bioelectronic system driven by a machine learning algorithm that can shift the membrane voltage in living cells and maintain it at a set point for 10 hours.
Xsensio has been awarded CHF 1.8 million in EU funding to adapt its Lab-on-Skin sensing patches so that they can detect when a viral illness like the flu or COVID-19 is about to get worse.
Since mid-2019, the Fraunhofer IBMT has been developing an analysis platform as an alternative to animal experiments in drug development.
Scientists have proposed the concept of a memristive neurohybrid chip to be used in compact biosensors and neuroprostheses.
A wearable smart patch will deliver precision data to help people personalise their diets and reduce their risk of developing lifestyle-related chronic diseases like Type 2 diabetes.
EPFL spin-off Annaida is developing a magnetic resonance system that can detect the chemistry inside the tiniest living organisms.
The chip is capable of precisely controlling oxygen and nutrient levels, and allowing observation of cell behavior in real time.
Researchers have created a 4D printer capable of constructing patterned surfaces that recreate the complexity of cell surfaces.
Researchers have developed a new microrobot that can precisely deliver therapeutic cells to very specific parts of the brain.
With the integration of HaptX Gloves, FundamentalVR demonstrates the ability to integrate its Surgical Haptic Intelligence Engine with third-party devices.
Scientists have developed microscopic, hydrogel-based muscles that can manipulate and mechanically stimulate biological tissue.
Researchers are developing early detection technology for Type 1 diabetes that can accurately predict if a child is at risk of the chronic disease.
By drawing in a bit of sweat, a patch developed in the lab of Alberto Salleo can reveal how much cortisol a person is producing. Cortisol is known as the stress hormone but is involved in many important physiological functions.
Researchers have created an automated blood drawing and testing device that provides rapid results,could speed hospital work, enhance healthcare.
Engineers built a 3D printer that produces a delicate network of thin ribbons of hardened isomalt, the type of sugar alcohol used to make throat lozenges.
MIT engineers have developed new technology that could be used to evaluate new drugs and detect possible side effects before the drugs are tested in humans.
The wafer-thin, feather-light sensor can fit on a fingernail and precisely measures a person’s exposure to UV light from the sun.