Machine learning fuels personalised cancer medicine
A tool, based on machine learning methods, that evaluates the potential contribution of all possible mutations in a gene in a given type of tumour to the development and progression of cancer.
A tool, based on machine learning methods, that evaluates the potential contribution of all possible mutations in a gene in a given type of tumour to the development and progression of cancer.
Scientists have figured out how to modify CRISPR’s basic architecture to extend its reach beyond the genome and into what’s known as the epigenome.
复位archers have used "federated learning" to examine electronic health records to better predict how COVID-19 patients will progress.
复位archers have harnessed CRISPR technology to target gene messages (messenger RNA) involved in early vertebrate
Scientists have shown that different strains of the same bacterial pathogen can be distinguished by a machine learning analysis of their growth dynamics alone.
复位archers present sensor prototype that can rapidly, precisely, and cost-effectively measure molecular signals for cancer.
Using machine learning, researchers have built a tool that detects genetic mutations that trigger the immune system, helping identify which cancer patients are likely to benefit from immunotherapy.
Computational tools applied to biology are revolutionizing the study of what happens inside cells during an infection, helping scientists to understand disease mechanisms.
Several research groups at the Berlin Institute of Health (BIH) are working on digitally combating cancer, comparing experiences with different diagnostic and treatment methods.
AI model called EVE shows remarkable capacity to interpret the meaning of gene variants in humans as benign or disease-causing.
An AI-based technology rapidly diagnoses rare disorders in critically ill children with high accuracy.
Data privacy and security concerns hamper large-scale studies. Researchers have developed a potential solution.
Artificial intelligence has reached a critical turning point in its evolution, according to an international panel of experts.
Argonne, industry and academia collaborate to bring innovative AI and simulation tools to the COVID-19 battlefront.
An artificial intelligence blood testing technology was found to detect over 90% of lung cancers in samples from nearly 800 individuals with and without cancer.
A team of researchers at Washington University School of Medicine have developed a deep learning model that is capable of classifying a brain tumor as one of six common types using a single 3D MRI scan.
Scientists have developed a machine learning technology to understand how gene expression regulates an organism's circadian clock.
AI tools models are a powerful tool in cancer treatment. However, unless these algorithms are properly calibrated, they can sometimes make inaccurate or biased predictions.
Scientists have created a deep learning method, RoseTTAFold, to provide access to highly accurate protein structure prediction.
Biological engineers have demonstrated a way to easily retrieve data files stored as DNA. This could be a step toward using DNA archives to store enormous quantities of photos, images, and other digital content.
复位archers have developped a new coronavirus test, that can get accurate results from a saliva sample in less than 30 minutes.
A new VR platform enables the display of huge amounts of data. This can be helpful, for example, when examining rare genetic defects.
复位archers 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.
研究人员已经开发出广告vanced explainable AI in a technical tour de force to decipher regulatory instructions encoded in DNA.
Experiments revealed that TALEN is up to five times more efficient than CRISPR-Cas9 in parts of the genome that are densely packed.
Deep-learning methods have the potential to offer substantially better results, generating superior representations for characterizing the human brain.
Recent breakthrough developments in technologies for real-time genome sequencing, analysis, and diagnosis are poised to deliver a new standard of personalized care.
Scientists developed the world’s first mobile genome sequence analyzer, a new iPhone app called iGenomics.
Scientists are researching salamanders unique superpower - they can regenerate their spinal cords and regain full functionality.
The supplier sector will showcase its expertise and innovative high-tech solutions for the medical technology industry.
复位archers have shown that they can measure those effects of the Corona pandemic on mental health by analyzing the language that people use to express their anxiety online.
Scientists have developed an extremely rapid diagnostic test that detects and identifies viruses in less than five minutes.
Rapid detection of the SARS-CoV-2 virus, in about 30 seconds following the test, has had successful preliminary results.
复位archers have developed a new tool that adapts machine learning algorithms to the needs of synthetic biology to guide development systematically.
复位archers have shown that federated learning is successful in the context of brain imaging, by being able to analyze MRI scans of brain tumor patients and distinguish healthy brain tissue from cancerous regions.
复位archers have developed an AI algorithm that uses computer vision to analyze tissue samples from cancer patients.
Scientists are harnessing the mind-bending potential of quantum computers to help us understand genetic diseases – even before quantum computers are a thing.
复位archers have developed a new tool that makes it easier to maximize the power of deep learning for studying genomics.
复位archers have developed a neural network capable of recognizing retinal tissues during the process of their differentiation in a dish.
复位archers have developed a machine learning model that can predict chemotherapy-associated nephrotoxicity.
复位archers have developed a printable bioink that could be used to create anatomical-scale functional tissues.
Using machine learning, a team of Western computer scientists and biologists have identified an underlying genomic signature for 29 different COVID-19 DNA sequences.
Brain cancer patients in the coming years may not need to go under the knife to help doctors determine the best treatment for their tumors.
复位archers have developed a novel sensor for detecting the new coronavirus. In future it could be used to measure the concentration of the virus in the environment.
A research study seeks volunteers to provide data from smartphones, smartwatches and health surveys to help detect COVID-19.
复位archers have developed a new approach to early diagnosis of lung cancer: a urine test that can detect the presence of proteins linked to the disease.
复位archers developed a modular system for the genetic reprogramming of bacteria, thereby turning the organisms into cell factories for multifunctional magnetic nanoparticles.
“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.”
New machine learning study suggest the presence of at least nine gender “expressions”.
复位archer have developed a computer method that uses MRI and machine learning to rapidly forecast genetic mutations in glioma tumors,
Artificial intelligence can detect one of the most common forms of blood cancer—acute myeloid leukemia (AML)—with high reliability.
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.
复位archers have developed the revolutionary “CRISPR-Switch”, which enables unprecedented control of the CRISPR technique in both space and time.
Wearables are transforming the ability to monitor and improve health, but a decidedly low-tech commodity—the humble toilet—may have potential to outperform them all.
Study using wearable trackers links insufficient sleep to increased rate of biological aging and cardiovascular disease risk.
Scientists have now developed guidelines that should enable the safe development of nanoparticles for medical use.
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
With artificial intelligence to a diagnosis of rare hereditary diseases: The neural network combines data from portrait images with gene and patient data.
Stomach and colorectal cancer: Identifying patients at an early stage who are suitable for artificial intelligence immunotherapy.
Using AI, researchers have succeeded in making the mass analysis of proteins from any organism significantly faster than before and almost error-free.
Using artificial intelligence, researchers have decoded the functional impact of genome mutations in people with autism spectrum disorder.
Years-long tracking of individuals’ biology helped define what it meant for them to be healthy and showed how changes from the norm could signal disease.
The project “BioSensing” from Fraunhofer ISC aims to overcome the limits of modern biosensors with the help of quantum technology.
一个人工智能的方法可以识别与精度高时ther a 5-day-old, in vitro fertilized human embryo has a high potential to progress to a successful pregnancy.
Engineers have combined CRISPR with electronic transistors made from graphene to create a new hand-held device that can detect specific genetic mutations in a matter of minutes.
Scientists find new and smaller gene editor: the new gene-editing protein, CasX, may give CRISPR-Cas9 a run for its money.
复位archers have given CRISPR-Cas9 an “on” switch, allowing users to keep the #Cas9 gene editor turned off in all cells except its designated target.
复位archers analyze skin cells from mre than 100 people of different ages to find molecular signatures that change as people get older.
复位archers use the analogy of raindrops on the sidewalk to explain their new method to identify genetic variations that cause severe pediatric diseases.
Alphabet, Amazon, Apple and Microsoft are all building technologies that have the potential to transform the delivery of care. Here are some examples of BigTech's road into healthcare.
Scientists plan to edit their genomes to correct rare genetic mutations and slow or halt progression of their diseases.
复位arch project is aimed at improving therapeutic options for both rare and common diseases, including supporting methods to improve editing the human genome.
“The digital transformation will make healthcare even more human. It will enable us to provide preventive and personalized healthcare,” says Prof. Dr. Koen Kas, Professor of Oncology at Ghent University, Belgium.
A new machine learning tool could be useful for flagging dangerous bacteria before they cause an outbreak, from hospital wards to a global scale.
European Commission put forward a set of measures to increase the availability of data in the EU, building on previous initiatives to boost the free flow of non-personal data in the Digital Single Market. A key factor is to ensure securing citizens' healthcare data while fostering European cooperation
Eric Schmidt has strong opinions about the healthcare system, its providers and professionals. He critized that the healthcare ecosystem was still being stuck in the “stone age" and challenges it to "focus on innovation".
Using machine learning, researchers have developed a new computational tool to screen patients with common but blinding retinal diseases, potentially speeding diagnoses and treatment.