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WhatsApp rolls out more AI features, iOS multi-account support

WhatsApp is rolling out multiple features designed to make the app easier to use, including AI-powered message replies and photo retouching, support for two accounts on iOS, and chat history transfer between iOS and Android devices.

Meta said that after the new updates, users will be able to touch up images in the chat before sharing them with contacts or in groups using Meta AI.

The Writing Help feature enables users to quickly draft a response based on the active conversation, with Meta saying it uses Private Processing to ensure messages are completely private.

Abstract: ADAMTS7 has been repeatedly associated with coronary artery disease

ADAMTS7 has been repeatedly associated with coronary artery disease.

https://doi.org/10.1172/JCI187451 In this Research Article, Robert C. Bauer & team use the largest human atherosclerosis carotid artery scRNA-seq dataset and new mouse models to demonstrate that ADAMTS7 is expressed across multiple vascular cell types and contributes to atherosclerosis by promoting lipid accumulation in smooth muscle cells.

The image shows smooth muscle cells labeled with ZsGreen and counterstained with DAPI (blue) for nuclei—indicating increased foam cells from a diet-induced mouse model of atherosclerosis with Adamts7-overexpressing SMCs were from SMC origin.

1Cardiometabolic Genomics Program, Division of Cardiology, Department of Medicine, Columbia University, New York, New York, USA.

2Department of Biostatistics, Epidemiology and Informatics, University of Pennsylvania Perelman School of Medicine, Philadelphia, Pennsylvania, USA.

Address correspondence to: Robert C. Bauer, Cardiometabolic Genomics Program, Division of Cardiology, Department of Medicine, Columbia University, 630 W. 168th Street, PS10-401, New York, New York 10,032, USA. Phone: 1.212.342.0952; Email: [email protected].

Continue reading “Abstract: ADAMTS7 has been repeatedly associated with coronary artery disease” | >

Small RNAs offer new clues to schizophrenia and bipolar disorder

For decades, scientists studying brain disorders have focused almost exclusively on proteins and the genes encoding them. Now, research from Thomas Jefferson University’s Computational Medicine Center suggests that several classes of small regulatory molecules, fittingly known as small RNAs, may play a much larger role in schizophrenia and bipolar disorder, and in a healthy brain, than previously thought.

In a study recently published in Translational Psychiatry, a team led by Isidore Rigoutsos, Ph.D. took a comprehensive look at small RNAs in brain samples from people with schizophrenia, bipolar disorder and individuals without psychiatric illness. Their goal was to find out what kind of small RNAs are active in the brain, and whether their levels change in disease.

“Little attention had been paid to small RNAs in these disorders,” says Dr. Rigoutsos, “even though small RNAs help control numerous processes by modulating the abundance of genes.”

Simulated microgravity alters sperm navigation, fertilization and embryo development in mammals

Simulated microgravity reveals species-specific effects on sperm navigation, fertilization, and early embryo development, highlighting compensatory mechanisms and chemical cues critical for reproduction in future space missions.

Adversarial AI framework reveals mechanisms behind impaired consciousness and a potential therapy

Consciousness, and the ways in which it can become impaired after certain brain injuries, are not well understood, making disorders of consciousness (DOC), like coma, vegetative states and minimally conscious states difficult to treat. But a new study, published in Nature Neuroscience, indicates that AI might be able to help researchers gain some traction with this problem. The research team involved in the new study has developed an adversarial AI framework to help them determine what exactly is going on in states of reduced consciousness and how to approach a solution.

To better understand the mechanisms behind impaired consciousness, the researchers developed two types of AI models and had them play a kind of game where one model determined different levels of consciousness based on EEGs simulated to look like those of real unconscious and conscious brains. The AI agents guessing consciousness levels, called deep convolutional neural networks (DCNNs), were first trained on 680,000 ten-second recordings of brain activity from conscious and unconscious humans, monkeys, bats and rats to detect which neural signals related to differing levels of consciousness. The AI showing EEG data was a biologically plausible simulation of the human brain.

“To decode consciousness from these signals, we trained three separate DCNNs, each specialized for a different brain region, to output a continuous score from 0 (unconscious) to 1 (fully conscious): a cortical consciousness detector (ctx-DCNN), a thalamic consciousness detector (th-DCNN) and a pallidal consciousness detector (pal-DCNN). The ctx-DCNN was trained on continuous consciousness levels derived from clinical scales (GCS and CRS-R), enabling it to recognize graded states of consciousness,” the study authors explain.

Brain computer interface enables rapid communication for two people with paralysis

Researchers from Brown University and Mass General Brigham have developed an implantable brain-computer interface that allowed two people with paralysis — one with ALS and one with a spinal cord injury — to communicate through rapid, accurate typing. The system uses microelectrode sensors in the motor cortex, maps letters to attempted finger movements on a QWERTY keyboard, and decodes those neural signals into text.

In the study, one participant reached a top speed of 110 characters per minute (about 22 words per minute) with a 1.6% word error rate, and both participants were able to use the system from home after calibration with as few as 30 sentences. The results were published in Nature Neuroscience.

This is the kind of neurotechnology that starts to close the gap between thought and communication.

Implantable device research from the BrainGate clinical trial enables communication through rapid typing for a patient with ALS and a patient with a spinal cord injury.

Anatomical 3D Visualization Powered by Three.js for Scientific Studies

It’s impressive when 3D visualization work finds use in diverse fields, including science and education. One example of such a project is a 3D visualization of a cranium showcased by a Physiotherapist.

The 3D model is a web-based 3D morphometry and simulation platform for the cranium and cranio-cervical junction, which performs landmark-based measurements on STL/GLB models, applies localized mesh deformation, and generates simulations using patient-derived CSV data.

The real-time 3D visualization is powered by Three.js. The model allows for a wide range of cross-sectional analysis and measurement workflows. According to the creator, the visualization might be used in academic research, anatomy studies, simulations for surgical planning, education, and more. You can find more details in Physiotherapist’s X/Twitter thread.

Reduce Energy Consumption In Unity Games With This Plug-In

Over the past few months, we’ve covered plug-ins for both Unreal Engine and Godot that optimize power use, making games more energy-efficient and helping players get more out of their battery life. They work by detecting when a player goes idle, then lowering the frame rate and rendering resolution, and during longer periods of inactivity, even pausing rendering entirely.

Now, thanks to Oliver Stock, who felt like somebody should step up and do the same for Unity, there’s a similar plug-in available for developers. It’s free and open-source, and you can get it by clicking here. It monitors player input, and when nothing’s happening, it automatically switches between different energy profiles. These profiles control which settings are adjusted, like frame rate, resolution, or physics updates. You can easily tweak or create your own profiles to suit your project’s needs.

Oliver recommends using Unity 2022.3.62f2 or newer. The plug-in currently only works with Unity’s URP or HDRP.

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