Next step in creating lung organoids
Realistic mini-lungs, grown in lab dishes, feature all cell types that make up the human organ, allowing for “Phase 0” testing of new treatments for respiratory diseases.
Realistic mini-lungs, grown in lab dishes, feature all cell types that make up the human organ, allowing for “Phase 0” testing of new treatments for respiratory diseases.
Researchers have developed a machine learning-based technique that speeds speeds up calculations of drug molecules' binding affinity to proteins.
Scientists have discovered a new way to analyse microscopic cells, tissues and other transparent specimens, through the improvement of an almost 100-year-old imaging technique.
Researchers have developed a neural network capable of recognizing retinal tissues during the process of their differentiation in a dish.
Researchers are using high-resolution printing technology and the unique properties of graphene to make low-cost biosensors to monitor food safety and livestock health.
Researchers have developed a new, faster method to identify cancer stem-like cells (CSCs), which could help improve the effectiveness of cancer treatments.
Single-crystal flake devices are so thin and defect-free, they might outperform existing components in quantum computers.
The researchers have use a new laser-assisted technology that maintains high levels of cell viability and functionality.
Argonne, industry and academia collaborate to bring innovative AI and simulation tools to the COVID-19 battlefront.
Researchers at Tel Aviv University have printed an entire active and viable glioblastoma tumor using a 3D printer.
Artificial intelligence can recognise the biological activity of natural products in a targeted manner.
Minuscule, self-propelled particles called “nanoswimmers” can escape from mazes as much as 20 times faster than other, passive particles, paving the way for their use in medication delivery.
Scientists have captured the real-time electrical activity of a beating heart, using a sheet of graphene to record an optical image of the faint electric fields generated by the rhythmic firing of the heart's muscle cells.
The robot scientist Eve has been assembled and is now operating at Chalmers University of Technology. Eve’s first mission is to identify and test drugs against Covid-19.
Scientists have been receiving help with vital coronavirus research from an unlikely team of data analysts—players of the popular online computer game EVE Online.
Progressive Mechanoporation makes it possible to mechanically disrupt the membranes of cells for a short time period and let drugs or genes inside cells.
Researchers have wirelessly recorded the brain activity of patients living with Parkinson's disease and then used that information to adjust the stimulation delivered by an implanted device.
Powerful algorithms used by Netflix, Amazon and Facebook can ‘predict’ the biological language of cancer and neurodegenerative diseases like Alzheimer's.
Researchers have created life forms that self-assemble a body from single cells and do not require muscle cells to move. They're faster, live longer, and can now record information.
We spoke with Prof. Dominic Zerulla, whose company PEARlabs is developing an imaging technique that sets out to push the boundaries once more – by looking at in-vivo nano-scale processes in motion.
The work could lead to efficient, detailed artificial bone tissue, opening doors to disease modeling, in vitro cell research on targeted therapies and drug screening.
A deep learning model that can predict how human genes and medicines will interact has identified at least 10 compounds that may hold promise as treatments for COVID-19.
Using AI and supercomputers, researchers have discovered reoccurring patterns and combinations of the four molecular building blocks A, C, G and T.
Revealing details of the internal structure of 'mini-brains' could help accelerate drug studies and may offer alternatives to some animal testing.
Research has shown how microbubbles carrying powerful cancer drugs can be guided to the site of a tumour using antibodies.
一个AI平台获取an optimal combination of available therapies against SARS-CoV-2 - the optimal drug therapy was a combination of the drugs remdesivir, ritonavir, and lopinavir at specific doses.
Researchers have shown that graphene quantum dots – a form of graphene with applications in both diagnostics and therapy – are biodegradable by two enzymes found in the human body.
The world’s first bioactive plant-based nanocellulose hydrogel supports organoid growth and helps reduce the costs of studies into cancer and COVID-19.
Researchers at have revealed how high-frequency sound waves can be used to build new materials, make smart nanoparticles and even deliver drugs to the lungs for painless, needle-free vaccinations.
Scientists have demonstrated a VR technique which should help in developing drugs against the SARS-CoV-2 virus – and enable researchers to share models and collaborate in new ways.
Researchers have created a deep learning model for drug developers targeting the SARS-CoV-2 main protease.
Scientists at Purdue University have developed tiny robots that can walk through the colon to deliver drugs precisely where needed.
Scientists have created a new method of applying machine learning concepts to the tandem mass spectrometry process to improve the flow of information in the development of new drugs.
Researchers mechanically reprocess silk into a biologically compatible component of bioinks that improves the structural fidelity of 3D-printed hydrogels containing cells for use in drug development and regrowing lost or damaged body
Researchers have developed an oxygen-releasing bioink that may be useful in 3D printing bioengineered cell constructs.
The development of new medical technologies based on cutting-edge discoveries has accelerated during the coronavirus pandemic.
Artificial intelligence can increase the effectiveness of drug repositioning or repurposing research.
Using machine learning, a team of Western computer scientists and biologists have identified an underlying genomic signature for 29 different COVID-19 DNA sequences.
Researchers have developed an artificial intelligence platform to dramatically increase the efficiency of drug combination therapies.
的气p is capable of precisely controlling oxygen and nutrient levels, and allowing observation of cell behavior in real time.
Researchers have created a material with a unique set of properties, which could act as a replacement for human tissue in medical procedures.
“AI is the biggest technological breakthrough of our lifetime. It will boost the entire healthcare ecosystem and will eventually re-invent the way we deliver medicine entirely.”
An AI model identifies a powerful new drug that can kill many species of antibiotic-resistant bacteria.
Researchers have developed a 'tumor-on-a-chip' that can better mimic the environment inside the body, paving the way for improved screening of potential cancer fighting drugs.
An AI platform can analyze genomic data extremely quickly, picking out key patterns to classify different types of colorectal tumors and improve the drug discovery process.
Scientists correlate neuronal activity in the human entorhinal cortex with place-based memories; finding sheds new light on how the brain processes spatial memory.
A robot-controlled laboratory where decisions are made by artificial intelligence will change the way new drugs are discovered.
Researchers have constructed an artificial human eye replica for improve their understanding and treatment of dry eye disease.
Scientists participating in the project “DrugTarget” have now developed a method that can quickly check the condition of the genome. This will help develop points of intervention for new medicines
A machine learning algorithm can spot abnormalities in pupil dilation that are predictive of autism spectrum disorder in mouse models.
With the new unveiled 3D microscope, researchers can observe the details of how cells operate – all the way down to their organelles.
VR can identify early Alzheimer’s disease more accurately than ‘gold standard’ cognitive tests currently in use, suggests new research from the University of Cambridge.
Miniscule spacecrafts able to reach a specific site of the brain and influence drug delivery: graphene flakes, open up truly futuristic horizons.
A simple innovation the size of a grain of sand means we can now analyse cells and tiny particles as if they were inside the human body.
Researchers studied gaming data from the mobile game and found out that it can detect people at risk of Alzheimer’s.
Searching through the mountains of published cancer research could be made easier for scientists, thanks to a new AI system.
An artificial intelligence approach created at the University of North Carolina at Chapel Hill can teach itself to design new drug molecules from scratch.
New contact lenses allow to correct vision, monitor glucose and medical conditions.
A robotic approach to mass-producing organoids could accelerate regenerative medicine research and drug discovery.