Putting brain cells into a hibernation-like state via drugs that cool down core body temperature may help to preserve them following a stroke
Category: biotech/medical
Corrected microbial family tree offers statistically sound model for how earliest life forms evolved
In this era of Big Data, the prevailing wisdom is that more information leads to better answers. However, a new Canadian study shows that in the hunt for life’s ancient ancestors, more data can actually lead to less truth. Published in the Proceedings of the National Academy of Sciences, the research by UdeM associate professor of computer science Miklós Csűrös reveals that standard methods for reconstructing the genomes of ancient microbes are being overwhelmed by an explosion of information.
This paradox causes current models to “hallucinate” evolutionary events—specifically, an implausibly high number of horizontal gene transfers—that are actually just statistical ghosts, the study shows.
In it, Csűrös identifies a crisis point in evolutionary biology: As researchers try to reconcile thousands of gene sequences across the entire tree of life, the actual evolutionary signal begins to vanish, replaced by mathematical noise.
Trace additive unlocks faster bioplastic biodegradation without losing transparency or strength
Compostable plastics could be part of a solution to the world’s plastic waste problem. But currently these materials need industrial composting facilities to break down. In a step toward making a home-compostable plastic, researchers reporting in ACS Central Science have augmented polylactide (PLA)—a widely used biobased and compostable polymer—with a small amount of an additive. Tests show it helps the material degrade substantially faster without sacrificing critical qualities like strength or transparency.
“PLA can be made to degrade much more effectively under practical composting conditions without compromising the properties that make it useful in everyday applications,” says Marc Hillmyer, a corresponding author of the paper.
PLA is currently found in products such as food packaging, textiles and biomedical devices, and it accounts for roughly two-thirds of total bio-based and biodegradable plastics production worldwide. “Composting is considered one of the most effective end-of-life strategies for PLA products, especially food-contaminated single-use products, because it eliminates the need for additional sorting and washing processes,” says Hillmyer. This process converts organic waste into environmentally innocuous products such as small organic acids.
Before tangles kill neurons, tau-linked transport defects may be reversible
Neurons, specialized cells that transmit information across the nervous system, communicate with each other via projections known as axons. These microscopic, cable-like structures are also used to deliver proteins, signaling molecules and other cargo across different areas of the brain.
Past studies have found that this transfer of cargo, also known as axonal transport, is impaired in models of diseases known as tauopathies. Tauopathies include Alzheimer’s disease (AD), frontotemporal dementia and other neurodegenerative diseases associated with the pathological accumulation of a protein called tau inside neurons, which forms structures known as tau tangles.
Researchers at the UK Dementia Research Institute at University College London (UK DRI, UCL) and the UCL Queen Square Institute of Neurology recently carried out a study in mice aimed at investigating the link between tauopathies and axonal transport. Their findings, published in Nature Neuroscience, show that axonal transport defects prompted by the aggregation of pathological tau could be reversible, identifying a possible strategy for reversing this damage during the early stages of neurodegeneration.
Scientists Let People Play Video Games Using Only Their Thoughts
Researchers developed a brain-controlled gaming system that learns from the brain’s natural wiring, enabling fast BCI training and potentially transforming medicine, mental health, and human-computer interaction. It may not be long before video game controllers become optional. Researchers at
The APOE-R136S mutation protects against APOE4-driven Tau pathology, neurodegeneration and neuroinflammation
Nelson et al. present a detailed biomolecular study of how the APOE-R136S mutation protects against Alzheimer’s disease (AD) in mice and in patient-derived cells. Lots of data on glial contributions and transcriptomic changes. I see this as an excellent target for gene therapies aiming to combat AD. So do the folks at Lexeo Therapeutics (an exciting company you should check out!)
Nelson et al. report that the APOE-R136S mutation protects against APOE4-promoted Alzheimer’s disease pathologies, including phosphorylated Tau accumulation, neuroinflammation and neurodegeneration, in mouse and human neuron models.
Advancing Surgical Robotics with AI-Driven Simulation and Digital Twin Technology
Imagine a surgeon being able to “step inside” a digital version of a patient’s body — studying organs, tissues, and complex structures, rehearsing procedures, and evaluating possible approaches before performing the actual operation.
The integration of robotic surgical assistants (RSAs) in operating rooms offers substantial advantages for both surgeons and patient outcomes. Currently operated through teleoperation by trained surgeons at a console, these surgical robot platforms provide augmented dexterity that has the potential to streamline surgical workflows and alleviate surgeon workloads. Exploring visual behavior cloning for next-generation surgical assistants could further enhance the capabilities and efficiency of robotic-assisted surgeries.
This post introduces two template frameworks for robotic surgical assistance: Surgical First Interactive Autonomy Assistant (SuFIA) and Surgical First Interactive Autonomy Assistant – Behavior Cloning (SuFIA-BC). SuFIA uses natural language guidance and large language models (LLMs) for high-level planning and control of surgical robots, while SuFIA-BC enhances the dexterity and precision of robotic surgical assistants through behavior cloning (BC) techniques. These frameworks explore the recent advances in both LLMs and BC techniques and tune them to excel to the unique challenges of surgical scenes.
This research aims to accelerate the development of surgical robotic assistants, with the eventual goal of alleviating surgeon fatigue, enhancing patient safety, and democratizing access to high-quality healthcare. SuFIA and SuFIA-BC advance this field by demonstrating their capabilities across various surgical subtasks in simulated and physical settings. Moreover, the photorealistic assets introduced in this work enable the broader research community to explore surgical robotics—a field that has traditionally faced significant barriers to entry due to limited data accessibility, the high costs of expert demonstrations, and the expensive hardware required.
Paralyzed man walks again with help of ‘brain bridge’ implant
In a first of its kind procedure, a man left paralyzed after a spinal cord injury was able to walk again. Doctors implanted what they call a \.