Researchers at Ecole polytechnique fédérale de Lausanne in Switzerland have developed miniature soft robots that can mechanically stimulate tiny tissue samples when activated by near-infrared light. The tiny machines could act as medical implants with a role in on-demand drug delivery or to mechanically manipulate tissues. Other appli (Read more...)
Tag: Genetics
Soft Robotic Micromachines Mechanically Stimulate Small Tissue Samples
Researchers at Ecole polytechnique fédérale de Lausanne in Switzerland have developed miniature soft robots that can mechanically stimulate tiny tissue samples when activated by near-infrared light. The tiny machines could act as medical implants with a role in on-demand drug delivery or to mechanically manipulate tissues. Other appli (Read more...)
New Microscopy Technique for Nanoscale Imaging of Living Brain
Scientists collaborating on both coasts of the United States have developed a new technique for imaging the brain that provides an incredible new look at the detailed functionality of the organ. The technique combines expansion microscopy and lattice light-sheet microscopy, two techniques that on their own can provide impressive imaging of liv (Read more...)
Three-Photon Imaging Gives Unprecedented View Into Brain’s Visual Cortex
Three-photon microscopy is an emerging imaging technique that scientists have been perfecting over the last few years. At MIT, this has led to the first ever look into the neural activity of the entire visual cortex of an awake mouse. The researchers were even able to view the neural activity in the subplate below the […]
Advanced Wireless and Battery-Free Optogenetics Device to Control Neuronal Activation
Researchers at the University of Arizona have developed an advanced optogenetics device that can stimulate multiple areas of the brain at once and control the intensity of emitted light. The miniaturized device is wireless and battery-free, and the researchers hope that it will pave the way to treating severe neurological disorders and controlling (Read more...)
Electronic Nanomesh Gently Hugs Beating Heart Cells
Unlike with most other cells, studying the heart’s beating cardiomyocytes is prone to difficulty because attaching rigid sensors to moving cells hinders the movement of those cells. A collaboration of Japanese scientists at University of Tokyo, Tokyo Women’s Medical University, and RIKEN research institute have developed (Read more...)
Implant Controls Overactive Bladder Using LED Lights
Today’s neurostimulators, such as those used to control chronic pain, bladder incontinence, and depression, use electricity to activate nerves. While very effective in many patients, electrical stimulation can lead to inflammation, produce unwanted sensations and pain, and injure fragile tissues. Optogenetics is an approach that offers an alt (Read more...)
Cellular Incubator for Implantation Into Body
Researchers at Tomsk State University and Siberian State Medical University in Russia have developed a new type of cell incubator that can be used to place lab-grown tissues into the body. The incubator is in the shape of a mesh made out of filaments of titanium nickelide (TiNi) that are only 25−40 μm, wound together using a [&he (Read more...)
Fluorescent Molecular Sensor to Detect Metastatic Cancer Cells
Researchers at UC San Diego School of Medicine have developed a molecular sensor that can spot metastatic cancer cells and measure how likely they’re to spread through the body. “Although there are many ways to detect metastasis once it has occurred, there has been nothing available to ‘see’ or ‘measure’ the pote (Read more...)
Nanopore Sensor Exploits Artificial Intelligence for Specific Virus Detection
Researchers at Osaka University in Japan have developed a nanopore sensor to detect single influenza viral particles in a biological sample. The researchers used artificial intelligence to work out the “hallmarks” of the virus, which allowed them to identify it using the sensor. The technique has potential as a point-of-care diagnostic (Read more...)
Nanome Looking for VR Folks to Help Complete Human Biome Map
Molecular scientists these days have tools at their disposal that allow to do quite incredible things. To use these tools to create new drugs and therapies, they need new ways to visualize and manipulate molecules using computers. Proteins are important subjects of study, as an understanding of their structure and how they fold and work [&hel (Read more...)
Tackling Alzheimer’s Biomarkers Using Machine Learning: Interview with IQuity CEO, Dr. Chase Spurlock
Losing one’s memories, and therefore one’s identity, must be a terrifying experience. With a global estimate of almost 50 million people living with dementia, predicted to rise to more than 130 million by 2050, the burden of Alzheimer’s and dementia are indisputable. While there are still no approved drugs for the treatment of Alz (Read more...)
Point-of-Care BRCA1 Mutation Testing in 20 Minutes
BReast CAncer gene one (BRCA1) is one of the best-known genes linked to breast cancer risk. Unfortunately, the technology to spot the gene requires a lab and expertise at interpretation. Researchers at Louisiana State University have now developed a smartphone-based system called FLuoroZen that can test for the cancer-related BRCA1 mutation at the (Read more...)
23andMe’s Pharmacogenetic Test Approved by FDA
The FDA has just approved 23andMe’s Personal Genomic Service (PGS) Pharmacogenetic Reports. This marks the first direct-to-consumer test for pharmacogenetics of enzyme variants that may affect the way patients break down medications. Consumers collect their saliva into 23andMe’s testing kit, mail it to the company’s labs, and then (Read more...)
Microchip for Growing and Studying 3D Brain Mimics
Over the past few years, neuroscientists have been able to grow ever larger and more complex spheroid cultures and organoids that replicate the structure and functionality of brain tissue. While these models are significantly better at mimicking parts of the brain compared to 2D cultures, they are much more challenging to study because it’s h (Read more...)
Vagus Nerve Stimulation to Reduce Post Surgical Brain Inflammation
Following a difficult surgery, some patients end up experiencing cognitive decline and delirium, which seems to arise from inflammatory changes in the brain, that are still poorly understood. This inflammation is difficult to control in a targeted way, but researchers at Duke University seem to have discovered that electrical nerve stimulation may (Read more...)
New Efficient Method for Sequencing Epigenetic Modifications
Researchers at the University of Pennsylvania’s School of Medicine have developed a new method for sequencing chemical groups attached to the surface of DNA. These chemical groups are modifications of the DNA bases that convey important information relating to the patterns of gene expression. These modifications have been studied for the past (Read more...)
Powerful New X-Ray Laser Images Biomolecules Like Never Before
At the Deutsches Elektronen-Synchrotron (DESY), a research center of the Helmholtz Association in Germany, a team of scientists working within the newly built European X-Ray Free-Electron Laser Facility, have unveiled the structure of an enzyme involved in antibiotic resistance. While the finding is important in itself, it really validates a n (Read more...)
Smartphone App and Portable Lab Kit Can Rapidly Detect Pathogenic Bacteria
Researchers at UC Santa Barbara have developed a point-of-care diagnostic kit that can detect pathogenic bacteria in patient samples in as little as one hour. The technology is inexpensive and portable. It consists of a small box of basic lab equipment and a smartphone, that can achieve sensitive and specific identification of a variety of [&hellip (Read more...)
Micro-Patterned Cell Culture Platform Reveals Unknown Cancer Behavior
Researchers at Hokkaido University have developed a micro-patterned cell culture platform to study the behavior of pancreatic cancer cells. The new cell culture substrate revealed previously unknown and clinically relevant pancreatic cell behaviors that could help researchers to develop new therapies. “Cancer studies so far either use cell cu (Read more...)