Neurology
Scientists at Ecole Polytechnique Fédérale de Lausanne in Switzerland created a wireless photoelectric implant that allows them to activate or suppress certain neurons in the mouse spinal cord. The flexible implant is controlled through Bluetooth and contains miniaturized LEDs that emit red light, which helps to avoid absorption and reflection by nearby neurons. The researchers hope that the technique could allow for more advanced optogenetics studies, and even pave the way for clinical implants to treat patients with neurological disorders. Optogenetics is an advanced technique that allows researchers to delve...
Researchers at the University of Illinois Urbana-Champaign have developed a sensor that can rapidly detect a virus in a sample. It can also identify whether the viral particles are still infectious. So far, the researchers have trialed the technology to detect human adenovirus and SARS-CoV-2. It can provide an answer between 30 minutes and two hours and uses DNA aptamers and nanopore technology to detect infectious viral particles. With some people still testing positive for COVID-19 long after their illness has passed, this new approach may help to put minds...Read More
Swoop Portable MRI: Interview with David Scott, President and CEO of Hyperfine
October 1st, 2021 by Conn Hastings
Hyperfine, a company based in St Guilford, Connecticut, created Swoop, a portable MRI scanner. The device received FDA approval as the first bedside MRI scanner in 2020, and a recent study has shown that it can help to accurately spot hemorrhagic stroke, detecting 85 of 88 blood-negative cases (96.6% specificity). Rapid detection is important for successful treatment of strokes, and helps ensure the best outcomes for patients. The device can be wheeled up to a patient’s bed and powered through a standard wall outlet. This is beneficial for critically ill...Read More
A team at Concordia University in Montreal have developed a technique called Laser-Induced Side Transfer (LIST) that allows for bioprinting of neurons. Low energy laser pulses are directed at a capillary containing a cell-laden bioink, resulting in microbubbles that eject a microjet of the ink onto the substrate below. The technique appears to be fairly gentle on the neurons, and most demonstrated full viability when assessed two days later. The researchers hope that the approach could pave the way for neuron-based printed constructs to assist in drug discovery, and disease...Read More
Researchers at the University of Freiburg in Germany have developed a chip that can measure antibiotic levels in breath, potentially paving the way for rapid point-of-care antibiotic testing. Attaining the correct levels of antibiotics in the body is crucial to effectively treating infections and avoiding drug side-effects or the development of antibiotic-resistant bacteria. The chip enables rapid and non-invasive antibiotic testing, potentially allowing for personalized drug therapy. Antimicrobial resistance is a growing issue, and owes its proliferation to incorrect antibiotic usage. If administered at too low a dose, resistant microbes...Read More
Antimicrobial Coating Prevents Infections Around Ortho Implants
September 29th, 2021 by Conn Hastings
A group at Duke University engineered an antibiotic delivery system to make the surfaces of orthopedic implants resistant to bacterial infiltration. The technique involves spraying or painting a combination of hydrophilic and hydrophobic polymers, mixed with an antibiotic of choice, onto the surface of the implant. A UV light is then used to cure the coating in place. The coating then releases the antibiotic over a period of 2-3 weeks, helping to reduce the chance of infection. Existing orthopedic implants are at risk of infection, resulting in patient morbidity and...Read More
Researchers at the University of Bath in the UK have developed an EEG test for Alzheimer’s disease. The technique involves measuring brain waves using an EEG cap while a person watches a screen with a series of flashing images. Taking just two minutes, the test quantifies a person’s ability to differentiate between images based on whether they have seen one of them previously. Subtle changes in brainwaves tell the researchers when someone remembers an image. The test could enable early diagnosis of Alzheimer’s, potentially allowing for early treatment and better...Read More
A team of scientists at Purdue University created a microneedle patch that can deliver oxygen and bactericidal agents to chronic wounds. The bacterial biofilms that form over non-healing wounds, such as foot ulcers, are a formidable barrier to successful treatment. Such wounds are typically hypoxic and the bacteria within them are shielded from antibiotics within the biofilm structure. This latest technology is designed to non-invasively penetrate such biofilms to deliver calcium peroxide, resulting in bactericidal action and oxygen generation within the wound. Chronic wounds are a significant source of suffering...Read More
Eyevensys Electrotransfection System for Ocular Disease: Interview with Patricia Zilliox, CEO
September 27th, 2021 by Conn Hastings
Eyevensys, a medtech company based in France, has developed the Eyevensys Electrotransfection System, a non-viral transfection system for the treatment of ocular diseases. So far, the firm has demonstrated the safety of the technique in treating noninfectious uveitis and is developing treatments for geographic atrophy, retinitis pigmentosa, and wet age-related macular degeneration (AMD). The technology delivers DNA plasmids to the ciliary muscle in the eye, leading to long-term production of proteins in the back of the eye for therapeutic benefit. The electricity is delivered in short pulses and helps to...Read More
Researchers at the Shibaura Institute of Technology in Japan have developed a control algorithm for rehabilitation robots that ensures that they move naturally during rehab sessions. The control system accounts for the angles the joints in a human arm naturally make while performing various activities, and won’t let the robot attempt to bend the joints in an unnatural manner. The algorithm reduces the complexity and number of calculations required to ensure safe and acceptable movements for such robots. Restoring movement and function after a stroke can be a challenge and...Read More
Researchers at Pohang University of Science & Technology in South Korea have developed a handheld photoacoustic device that can locate sentinel lymph nodes near the armpit. The technology could help clinicians to locate the correct lymph node from which to take a biopsy when checking for breast cancer metastases. At present, this process involves using radioactive probes, and so the current system can help patients and healthcare staff to avoid radiation exposure. The lymph system provides a handy highway through the body for metastasizing cancers. Breast cancers and melanoma often...Read More
A team at MIT has developed a technique to grow organoids, both from healthy and cancerous pancreatic tissue, using a synthetic gel that predictably mimics the pancreatic extracellular environment. Compared with naturally derived materials, the synthetic gel is consistent from batch to batch, meaning that it leads to more reproducible and predictable results when growing organoids. The MIT researchers hope that the technology could advance organoid research, both pancreatic and otherwise. Cancerous pancreatic tissues are not easy to grow and study in the lab, as they lose their cancerous characteristics...Read More
Medicine
Wearable, Non-Invasive Sensor Measures Glucose in Sweat
Scientists at Penn State University developed a wearable glucose monitor that can non-invasively measure glucose levels within sweat in real time. The low-cost...
October 15th, 2021
Improving Medication Compliance with Connected Pill Bottles and More: Interview with Chris O'Brien, CEO at AdhereTech
AdhereTech, a medtech company based in New York City, has developed the Aidia Smart Bottle (previously known as the Smart Pill Bottle), a connected pill bottle that...
October 14th, 2021
Telemedicine to Monitor At-Risk COVID-19 Patients at Home
Researchers at the Technical University of Munich in Germany have developed a telemedicine system for high-risk COVID-19 patients who are isolating at home. The...
October 13th, 2021
Cardiology
POEMS Electro-Optical Cardiac Stimulator to Study Arrhythmias
At the University of Bern in Switzerland, researchers have developed the Panoramic Opto-Electrical Measurement and Stimulation (POEMS) system, which allows them to...
October 7th, 2021
Carbon Nanotube Thread Lets Clothes Monitor Health
Researchers at Rice University managed to create flexible carbon nanotube fibers that can be incorporated into clothing to function as wearable health monitors. The...
August 31st, 2021
Cracking Calcium in Arteries Using Sound Waves: Interview with Shockwave Medical's Scott Shadiow
Shockwave Medical, a medtech company based in California, has developed a technique called intravascular lithotripsy, which involves delivering sonic waves to...
August 26th, 2021
Surgery
Explorer Surgical Expands into Robotic Surgery: Exclusive with CEO Jennifer Fried
As cloud and digital platforms continue to gain traction, we’re seeing a trend toward increased investments in robotic surgery in medical technology fields....
October 13th, 2021
Microneedle Patch Delivers Oxygen to Chronic Wounds
A team of scientists at Purdue University created a microneedle patch that can deliver oxygen and bactericidal agents to chronic wounds.
The bacterial biofilms...
September 28th, 2021
Handheld Photoacoustic Device for Lymph Node Assessment
Researchers at Pohang University of Science & Technology in South Korea have developed a handheld photoacoustic device that can locate sentinel lymph nodes near...
September 22nd, 2021
Emergency Medicine
Swoop Portable MRI: Interview with David Scott, President and CEO of Hyperfine
Hyperfine, a company based in St Guilford, Connecticut, created Swoop, a portable MRI scanner. The device received FDA approval as the first bedside MRI scanner in...
October 1st, 2021
3D-Printed Origami Tube for Low-Cost Ventilators
Researchers at Simon Fraser University in Canada have developed a low-cost portable ventilator that uses a 3D-printed origami tube rather than a conventional...
September 20th, 2021
Aortic Occlusion to Enhance Blood Flow to Brain and Heart: Interview with Habib Frost, CEO of Neurescue
Neurescue, a medtech company based in Denmark, created the NEURESCUE system, a balloon catheter designed to occlude the aorta, resulting in a significant increase...
July 8th, 2021
Radiology
Swoop Portable MRI: Interview with David Scott, President and CEO of Hyperfine
Hyperfine, a company based in St Guilford, Connecticut, created Swoop, a portable MRI scanner. The device received FDA approval as the first bedside MRI scanner in...
October 1st, 2021
Cracking Calcium in Arteries Using Sound Waves: Interview with Shockwave Medical's Scott Shadiow
Shockwave Medical, a medtech company based in California, has developed a technique called intravascular lithotripsy, which involves delivering sonic waves to...
August 26th, 2021
Steerable Catheter to Navigate Tortuous Blood Vessels in Brain
A team at University of California San Diego invented a way to make steerable catheters that can more precisely navigate the tortuous architecture of the brain...
August 25th, 2021
Anesthesiology
Wireless Sensor Measures Deep Tissue Oxygen Levels
Researchers at the University of California, Berkeley have developed an ultrasound-powered implantable sensor that can measure oxygen levels in tissues deep within...
April 19th, 2021
Microfluidics and AI Microscopy for Hemoglobin Measurements
Researchers at the Indian Institute of Science and SigTuple Technologies, a company based in Bengaluru, India, have developed a method to inexpensively measure...
February 25th, 2021
Philips Unveils Medical Tablet for Patient Monitoring During Emergencies
Philips is releasing a computer tablet designed to provide easy access to patient information in various emergency environments without a difficult implementation....
February 5th, 2021
