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Blood Test Helps PCPs Diagnose AD With Specialist-Level Accuracy

LONDON — Blood-based biomarker (BBM) testing may enable primary care physicians (PCPs) to diagnose Alzheimer’s disease (AD) as accurately as dementia specialists, potentially expanding access to accurate diagnosis beyond memory clinics, new research suggests.

In a prospective study of more than 1,300 patients, PCPs achieved 93% diagnostic accuracy after reviewing BBM results, which was comparable to the 94% accuracy of dementia specialists. The test also changed clinicians’ diagnoses and management plans in a substantial proportion of cases.

“By equipping primary care practitioners with blood test results, we see that they’re as accurate as dementia experts in definitely ruling out [AD],” study investigator Sebastian Palmqvist, MD, PhD, senior consultant neurologist and associate professor, Lund University, Lund, Sweden, told Medscape Medical News.

Sugar-Coated Nanoparticles Shrink Deadly Brain Tumors in Mice

Cancers don’t come much worse than the brain cancer glioblastoma, and it is notoriously difficult to treat. Even with surgery, radiation, and chemotherapy, fewer than 30 percent of patients are alive two years after diagnosis.

Scientists are busy hunting for treatment approaches that can improve those survival rates, and a team from Oregon State University has now found a potential new angle for attacking these tumors: sugar-coated nanoparticles.

As detailed in a mouse study published in the Journal of Controlled Release, the sugar ‘disguise’ used by the nanoparticles helps them cross the blood-brain barrier to the site of cancer, while also directly targeting glioblastoma and avoiding measurable toxicity in major organs.

Epidurals not linked to increased harm for newborns or children

Having an epidural during labor is not associated with clinically significant increased risks of harm to newborn babies, including brain injury, severe breathing problems, sepsis and death, or cerebral palsy later in childhood, according to a study published in The BMJ.

The researchers say these findings “support widening availability and equitable access to epidural analgesia as a safe component of intrapartum care.”

Epidural analgesia in labor provides effective pain relief and may help reduce complications in mothers after giving birth, but evidence of its effect on newborn and child health is limited.

The invisible wearable: New skin sensors advance health monitoring

While wearable health sensors are becoming increasingly common, current iterations are awkward to wear. For example, devices attached to the face can draw unwanted attention, increase self-consciousness and influence the signals users are trying to measure. However, recent research may have found a solution by introducing ultrathin sensors that cannot be seen by observers or felt by the wearer.

In an article published in Science Advances, researchers from the Institute of Industrial Science, The University of Tokyo, and collaborating institutions reported developing thin, stretchable on-skin electrodes that are effectively invisible when worn on the face. The new technology can measure biological signals while remaining undetectable by eye and touch, allowing monitoring to take place under more natural conditions.

Biosignals such as eye movements, facial muscle activity and brain activity provide valuable information for health care monitoring and human-machine interaction. However, conventional facial electrodes can alter a person’s appearance and affect social interactions, creating what are called appearance artifacts—changes in behavior or psychological state caused simply by wearing a device that the individual and others can see.

Joint trajectories of brain atrophy, white matter hyperintensities and cognition quantify brain maintenance

Joint longitudinal modelling of brain atrophy, white matter damage, and cognition in 543 older adults yielded a brain maintenance index. Poorer mental health, lower openness, and faster biological ageing predicted reduced maintenance.

Predicting Risk of Cognitive Impairment With Alzheimer Disease Blood Biomarkers

Alzheimer disease is the most common cause of dementia in older individuals. Cerebrospinal fluid biomarkers and amyloid positron emission tomography (PET) can accurately detect Alzheimer disease brain pathology, but the perceived risks, costs, and limited availability have contributed to low rates of biomarker testing in the clinic.1 With recent approvals of disease-modifying, amyloid-targeting therapies, incorporation of biomarkers into clinical practice has become more important for medical decision-making. Fortunately, blood-based biomarkers of Alzheimer disease pathology have advanced rapidly in recent years and are now increasingly used in research, clinical trials, and clinical practice.2 Blood-based biomarkers are highly scalable and promise to improve accurate diagnosis of Alzheimer disease, with the potential for much greater reach than cerebrospinal fluid or PET tests.2 Among the blood-based biomarkers, plasma phosphorylated tau 217 (p-tau217) has demonstrated the highest accuracy in detecting amyloid pathology and also reflects tau pathology to some degree.3-5

Although Alzheimer disease biomarkers are increasingly being incorporated into clinical practice in patients with mild cognitive impairment or mild dementia (the populations for which amyloid-targeting therapies have demonstrated clinical benefit), these measures are also sensitive to early biological changes associated with Alzheimer disease that precede the onset of clinical symptoms.6 Indeed, these biological changes are thought to begin a decade or more prior to the onset of cognitive decline, during an asymptomatic phase of disease that has often been referred to as preclinical Alzheimer disease.7 Importantly, current Alzheimer’s Association clinical practice guidelines limit testing for Alzheimer disease pathology using blood-based and other Alzheimer disease biomarkers to individuals with objective cognitive impairment undergoing diagnostic evaluation in specialty care; clinical testing of cognitively unimpaired older adults is not recommended at this time.2

However, in the research setting, unimpaired individuals with biomarker evidence of Alzheimer disease pathology have been the focus of numerous natural history studies and, more recently, secondary prevention trials testing whether targeting pathology can forestall the onset of cognitive impairment.8 Studies have demonstrated that higher plasma p-tau217 levels in cognitively unimpaired individuals are associated with higher risk for future cognitive decline and progression to mild cognitive impairment or dementia.9-11 The ability of blood-based biomarkers to detect early Alzheimer disease pathology in cognitively unimpaired individuals with high sensitivity has already been translated to clinical trials of amyloid-targeting therapies. The TRAILBLAZER-ALZ 3 clinical trial enrolled cognitively unimpaired individuals with elevated p-tau217 and is evaluating whether donanemab reduces progression to cognitive impairment.

Scientists Keep Teaching Life to Play Doom, But Why?

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Hello and welcome! My name is Anton and in this video, we will talk about why Doom is used in scientific experiments involving learning.
Links:
https://arxiv.org/pdf/2602.11632
https://corticallabs.com/cl1
• Rats in Doom.
https://theconversation.com/how-scien
#doom #biology #learning.

0:00 Doom runs on everything.
1:03 Brain organoids and why they are used.
2:50 New breakthrough — a biological computer.
3:50 How cells learns to play Doom.
5:10 Rats and Doom.
6:20 Organoids and engineering problems.
7:00 Implications for biology and information sciences.
9:08 Conclusions.

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How the universe generates time and space from a single rewriting rule | Stephen Wolfram

Hypergraphs.


We experience only one small slice of the ruliad. What’s the ruliad? Physicist Stephen Wolfram explains.

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❍ Watch Wolfram’s full interview here: • Physics doesn’t explain the universe. Comp…

Is it time for a new ‘theory of everything’?
World-renowned physicist Stephen Wolfram explains his theory that the universe may be built from simple computational rules. He describes space as a giant network made of tiny “atoms of space,” constantly updating in ways that create time, gravity, quantum mechanics, and the laws of physics. He also introduces the ruliad: the space of all possible computations. Ultimately, Wolfram argues that reality may be far more complex than we can see, shaped by both the universe and how we observe it.

Read the full video transcript: https://bigthink.com/videos/objective

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