- AI can predict brain cancer survival rate in patients suffering from ‘most lethal form’ of the disease, scient Daily Mail
- Survival prediction of glioblastoma patients using modern deep learning and machine learning techniques | Scientific Reports Nature.com
- A study led by the UPV opens up a new approach for improving personalized treatment of patients with glioblastoma EurekAlert
- MRI-guided radiation with AI allows for real-time monitoring of glioblastoma treatment response Healio
- AI can predict short-term and long-term survivors of brain cancer News-Medical.Net
Tag Archives: predict
AI can predict brain cancer survival rate in patients suffering from ‘most lethal form’ of the disease, scientists reveal – Daily Mail
- AI can predict brain cancer survival rate in patients suffering from ‘most lethal form’ of the disease, scientists reveal Daily Mail
- Survival prediction of glioblastoma patients using modern deep learning and machine learning techniques | Scientific Reports Nature.com
- A study led by the UPV opens up a new approach for improving personalized treatment of patients with glioblastoma EurekAlert
- MRI-guided radiation with AI allows for real-time monitoring of glioblastoma treatment response Healio
- AI can predict short-term and long-term survivors of brain cancer News-Medical.Net
AI could predict heart attack risk up to 10 years in the future, finds Oxford study – The Guardian
- AI could predict heart attack risk up to 10 years in the future, finds Oxford study The Guardian
- American Heart Association Late-Breaking Science Presentation Reveals Majority of Adverse Cardiac Events Occur Among Patients Without Obstructive Coronary Artery Disease but Risks Are Detectable by Novel AI Yahoo Finance
- Artificial intelligence may speed heart attack diagnosis and treatment American Heart Association
- Speaking from the heart: New smartphone app predicts cardiac failure WEEKS in advance – by listening to subtle Daily Mail
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CDC gives Northeastern U. $17.5 million to predict pandemics – The Boston Globe
- CDC gives Northeastern U. $17.5 million to predict pandemics The Boston Globe
- UNC Gillings School to host new CDC center for outbreak forecasting, response – UNC Gillings School of Global Public Health UNC Gillings School of Global Public Health
- Johns Hopkins Center for Health Security Awarded $23.5 Million CDC Grant to Launch New Epidemic Preparedness Project | Johns Hopkins | Bloomberg School of Public Health Johns Hopkins Bloomberg School of Public Health
- Northeastern Receives $17.5M from CDC for Infectious Disease Center Northeastern University
- CDC awards $17.5M to UC San Diego-led coalition to develop innovative outbreak response tools News-Medical.Net
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Microsoft AI Research Introduce a Novel Deep Learning Framework Called Distributional Graphormer (DiG) to Predict the Equilibrium Distribution of Molecular Systems. – MarkTechPost
- Microsoft AI Research Introduce a Novel Deep Learning Framework Called Distributional Graphormer (DiG) to Predict the Equilibrium Distribution of Molecular Systems. MarkTechPost
- MIT researchers to lead a new center for continuous mRNA manufacturing MIT News
- MIT’s AI and Laser Duo Is Shaking Up How We Make Medicine SciTechDaily
- MIT Researchers Have Developed a Unified Framework that Uses Machine Learning to Simultaneously Predict Molecular Properties and Generate New Molecules Using Only a Small Amount of Data for Training MarkTechPost
- MIT Scientists Build AI Models for Biological Research Analytics Insight
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Feel Like You’re Being Watched? The Sensation May Predict Cognitive Decline in Parkinson’s – ScienceAlert
- Feel Like You’re Being Watched? The Sensation May Predict Cognitive Decline in Parkinson’s ScienceAlert
- Is someone behind you? That feeling could be a warning sign for Parkinson’s disease Study Finds
- Early hallucinations may indicate faster cognitive decline in patients with Parkinson’s disease News-Medical.Net
- Parkinson’s symptoms and treatment as hallucinating someone is behind you ‘could be early sign’ Yahoo Lifestyle UK
- Presence hallucinations: An early predictor of cognitive decline in Parkinson’s disease Medical Xpress
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Trade experts predict bumper opening for ‘Adipurush’.. – Greatandhra
- Trade experts predict bumper opening for ‘Adipurush’.. Greatandhra
- Adipurush likely to make an opening day collection of ₹45-50 crore Hindustan Times
- Adipurush (Hindi) Advance Booking: Prabhas starrer sells over 1.5 lakh tickets across the National chains Bollywood Hungama
- Adipurush box office prediction: Will Prabhas, Kriti Sanon starrer break all records? Republic World
- BREAKING: Several theatres to place an idol or photograph of Lord Hanuman and offer flowers on the seats reserved for the God in the shows of Adipurush Bollywood Hungama
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Khloe Kardashian fans predict cute nickname for her baby son and call his moniker the ‘best of the f… – The US Sun
- Khloe Kardashian fans predict cute nickname for her baby son and call his moniker the ‘best of the f… The US Sun
- Khloe Kardashian and Tristan Thompson’s Baby Boy’s Name Revealed Parade Magazine
- Khloé Kardashian & Tristan Thompson’s Son’s Name Has Been Revealed (Report) Access Hollywood
- Khloe Kardashian’s baby son’s name supports family tradition with middle name choice despite ‘pressure’ fro… The US Sun
- Name Of Khloé Kardashian’s Second Child Finally Revealed, 9 Months After Birth msnNOW
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Putin evokes Stalingrad to predict victory over ‘new Nazism’ in Ukraine
VOLGOGRAD, Russia, Feb 2 (Reuters) – President Vladimir Putin evoked the spirit of the Soviet army that defeated Nazi German forces at Stalingrad 80 years ago to declare on Thursday that Russia would defeat a Ukraine supposedly in the grip of a new incarnation of Nazism.
In a fiery speech in Volgograd, known as Stalingrad until 1961, Putin lambasted Germany for helping to arm Ukraine and said, not for the first time, that he was ready to draw on Russia’s entire arsenal, which includes nuclear weapons.
“Unfortunately we see that the ideology of Nazism in its modern form and manifestation again directly threatens the security of our country,” Putin told an audience of army officers and members of local patriotic and youth groups.
“Again and again we have to repel the aggression of the collective West. It’s incredible but it’s a fact: we are again being threatened with German Leopard tanks with crosses on them.”
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Russian officials have been drawing parallels with the struggle against the Nazis ever since Russian forces entered Ukraine almost a year ago.
Ukraine – which was part of the Soviet Union and itself suffered devastation at the hands of Hitler’s forces – rejects those parallels as spurious pretexts for a war of imperial conquest.
Stalingrad was the bloodiest battle of World War Two, when the Soviet Red Army, at a cost of over 1 million casualties, broke the back of German invasion forces in 1942-3.
Putin evoked what he said was the spirit of the defenders of Stalingrad to explain why he thought Russia would prevail in Ukraine, saying the World War Two battle had become a symbol of “the indestructible nature of our people”.
“Those who draw European countries, including Germany, into a new war with Russia, and … expect to win a victory over Russia on the battlefield, apparently don’t understand that a modern war with Russia will be quite different for them,” he added.
“We don’t send our tanks to their borders but we have the means to respond, and it won’t end with the use of armoured vehicles, everyone must understand that.”
VICTORY PARADE
As Putin finished speaking, the audience gave him a standing ovation.
Putin had earlier laid flowers at the grave of the Soviet marshal who oversaw the defence of Stalingrad and visited the city’s main memorial complex, where he held a minute’s silence in honour of those who died during the battle.
Thousands of people lined Volgograd’s streets to watch a victory parade as planes flew overhead and modern and World War Two-era tanks and armoured vehicles rolled past.
Some of the modern vehicles had the letter ‘V’ painted on them, a symbol used by Russia’s forces in Ukraine.
Irina Zolotoreva, a 61-year-old who said her relatives had fought at Stalingrad, saw a parallel with Ukraine.
“Our country is fighting for justice, for freedom. We got victory in 1942 and that’s an example for today’s generation. I think we’ll win again now whatever happens.”
The focal point for the commemorations was the Mamayev Kurgan memorial complex, on a hill overlooking the River Volga dominated by a hulking statue called The Motherland Calls – of a woman brandishing a giant sword.
The five-month-long battle reduced the city that bore Soviet leader Josef Stalin’s name to rubble, while claiming an estimated 2 million dead and wounded on both sides.
A new bust of Stalin was erected in Volgograd on Wednesday along with two others, of Soviet marshals Georgy Zhukov and Alexander Vasilyevsky.
Despite Stalin’s record of presiding over a famine that killed millions and political repression that killed hundreds of thousands, Russian politicians and school textbooks have in recent years stressed his role as a successful wartime leader who turned the Soviet Union into a superpower.
Reporting by Tatiana Gomozova
Writing by Andrew Osborn
Editing by Mark Trevelyan and Kevin Liffey
Our Standards: The Thomson Reuters Trust Principles.
High Frequency Brain Wave Patterns in the Motor Cortex Can Predict an Upcoming Movement
Summary: Spatially organized recruitment of neural activity across the motor cortex informs details of planned movements.
Source: University of Chicago
Nicholas G. Hatsopoulos, PhD, Professor of Organismal Biology and Anatomy at the University of Chicago, has long been interested in space. Specifically, the physical space occupied by the brain.
“Inside our heads, the brain is all crumpled up. If you flattened out the human cortex into a single 2D sheet, it would cover two and a half square feet of space — roughly the size of four pieces of paper. You would think that the brain would take advantage of all that space when organizing activity patterns, but aside from knowing that one patch of the brain controls the arm and another controls the leg, we’ve mostly ignored how the brain might use that spatial organization.”
Now in a new study published on January 16 in Proceedings of the National Academy of Sciences, Hatsopoulos and his team have found evidence that the brain does indeed use the spatial organization of high frequency propagating waves of neuronal activity during movement.
The presences of propagating waves of neuronal activity has been well-established, but they are traditionally associated with the general behavioral state of an animal (such as awake or asleep). This study is the first evidence that spatially organized recruitment of neuronal activity across the motor cortex can inform details of a planned movement.
The team hopes the work will help inform how researchers and engineers decode motor information to build better brain-machine interfaces.
To conduct the study, the researchers recorded the activity from multielectrode arrays implanted in the primary motor cortex of macaque monkeys while the monkeys did a task that required them to move a joystick. Then, they looked for wave-like patterns of activity, specifically those of high-amplitude.
“We focused on the high frequency band signals given its rich information, ideal spatial reach and easiness of obtaining signal in every electrode,” said Wei Liang, first author on the study and a graduate student in the Hatsopoulos lab.
They found that these propagating waves, comprised of the activity of hundreds of neurons, traveled in different directions across the cortical surface based on which direction the monkey pushed the joystick.
“It’s like a series of dominoes falling,” said Hatsopoulos. “All of the wave patterning we’ve seen in the past didn’t tell us what the animal was doing, it would just happen. This is very exciting because now we’re looking at this propagating wave pattern and shown that the direction the wave goes tells you something about what the animal is about to do.”
The results provide a new way of looking at cortical function. “This shows that space does matter,” Hatsopoulos said. “Instead of just looking at what populations of neurons do and care about, we’re seeing that there is spatially organized patterning that carries information. This is a very different way of thinking about things.”
The research was challenging due to the fact that they were studying the activity patterns from individual movements, rather than averaging the recordings over repeated trials, which can be quite noisy. The team was able to develop a computational method for cleaning up the data to provide clarity on the signals being recorded without losing important information.
“If you average across trials, you miss information,” said Hatsopoulos. “If we want to implement this system as part of a brain-machine interface, we can’t be averaging trials — your decoder has to do it on the fly, as the movement is happening, for the system to work effectively.”
Knowing that these waves contain information about movement opens the door to a new dimension of understanding how the brain moves the body, which can in turn provide additional information for the computational systems that will drive the brain-machine interfaces of the future.
“The spatial dimension has been mostly ignored thus far, but it’s a new angle we can use for understanding cortical function,” said Hatsopoulos. “When we try to understand the computations the cortex is doing, we should consider how the neurons are spatially laid out.”
Future studies will examine whether similar wave patterns are seen in more complicated movements, such as sequential movements as opposed to simple point-to-point reaching, and whether or not wave-like electrical stimulation of the brain can bias the monkey’s movement.
Funding: The study, “Propagating spatiotemporal activity patterns across macaque motor cortex carry kinematic information,” was supported by the National Institutes of Health (R01 NS111982). Additional authors include Karthikeyan Balasubramanianb and Vasileios Papadourakis of the University of Chicago.
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About this movement and neuroscience research news
Author: Alison Caldwell
Source: University of Chicago
Contact: Alison Caldwell – University of Chicago
Image: The image is in the public domain
Original Research: Open access.
“Propagating spatiotemporal activity patterns across macaque motor cortex carry kinematic information” by Wei Liang et al. PNAS
Abstract
Propagating spatiotemporal activity patterns across macaque motor cortex carry kinematic information
Propagating spatiotemporal neural patterns are widely evident across sensory, motor, and association cortical areas. However, it remains unclear whether any characteristics of neural propagation carry information about specific behavioral details.
Here, we provide the first evidence for a link between the direction of cortical propagation and specific behavioral features of an upcoming movement on a trial-by-trial basis.
We recorded local field potentials (LFPs) from multielectrode arrays implanted in the primary motor cortex of two rhesus macaque monkeys while they performed a 2D reach task. Propagating patterns were extracted from the information-rich high-gamma band (200 to 400 Hz) envelopes in the LFP amplitude.
We found that the exact direction of propagating patterns varied systematically according to initial movement direction, enabling kinematic predictions.
Furthermore, characteristics of these propagation patterns provided additional predictive capability beyond the LFP amplitude themselves, which suggests the value of including mesoscopic spatiotemporal characteristics in refining brain–machine interfaces.