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Researchers Discovered Your Brain Really Can Sync Up With Someone Else’s. Here’s How It Works

If you’ve ever been riding a wave of creativity that feels like your brain and someone else’s have been Bluetooth-synced and are now finishing each other’s sentences, both instinctively knowing where the song/screenplay/woodworking project or whatever you’re building should go, then you’ve experienced what scientists call brain synchrony.

As described by a team of researchers publishing their findings as a press release on Eureka Alert, originally published in Trends in Cognitive Sciences, it’s a real phenomenon that’s been observed in laboratories and real-world settings. Now, researchers say it isn’t just measurable, but it can actually be strengthened.

Researchers reviewed a decade of studies involving thousands of people, from regular everyday students to professional artists. Using portable EEG headsets, researchers found that when people are genuinely engaged with one another, their brainwave activity begins to align. Even more interesting, when participants received real-time feedback showing how synchronized they were, that alignment often became even stronger.

The S1–insula Circuit Differentially Modulates Alcohol Drinking and Aversive Behavior in Mice

Sensory processing assigns salience to environmental and internal stimuli, shaping behavior through learned associations. In alcohol use disorder (AUD), sensory cue processing is dysregulated, driving problematic drinking patterns and hyperkatifeia in abstinence. While visual, olfactory, and taste cues are known to influence AUD progression, the neurocircuit mechanisms that regulate sensory information in addiction remain poorly understood. The primary somatosensory cortex (S1) encodes tactile, thermal, proprioceptive, and nociceptive inputs and projects to higher-order regions involved in motor and emotional processing. One such target is the insula, a hub for interoceptive integration and affective regulation. We previously identified that insula neurons receiving S1 projections in turn extend into the extended amygdala, implicating this projection in emotional processing.

Does time come from the entire universe running computations?

Explaining the passage of time has been a gnarly problem in physics basically forever, but physicist and computer scientist Stephen Wolfram has a radical proposal for where it comes from. He discussed his ideas on time – and what they mean for free will – with reporter Leah Crane

Frank Visser / ChatGPT

With the death of Ervin Laszlo at the age of 94, the world has lost one of the twentieth and twenty-first centuries’ most prolific advocates of holistic thinking. Philosopher, systems theorist, futurist, concert pianist, and founder of multiple international organizations, Laszlo spent decades arguing that humanity needed a new worldview—one capable of integrating science, ecology, ethics, and spirituality into a coherent vision.

Although many of his more speculative ideas remain controversial, his broader contribution to systems thinking and global consciousness deserves serious attention. Few intellectuals worked as tirelessly to bridge disciplinary divides or to communicate the urgency of planetary interconnectedness.

My podcast episode of Frameshifts is now available!

🧬 Benjamin Arya interviews me about my research on gene therapy delivery systems, about my first startup company Cathedral Therapeutics (see link to website and a bit about my newer venture towards solving the brain delivery problem.


“Putting an AAV inside of a protein vault shields the AAV from the preexisting antibodies that humans produce.”

Early warning sign of Alzheimer’s!

When most people think about Alzheimer’s disease, memory loss is usually the first thing that comes to mind. Forgetting a loved one’s name, missing appointments or repeatedly misplacing everyday items are often considered early warning signs.

But what if the disease begins affecting the brain long before memory problems become noticeable? New research suggests that another change in brain function may appear even earlier: difficulty adapting when circumstances change.

In a recent study, researchers found that animal models with Alzheimer’s-related brain changes developed problems with cognitive flexibility months before they showed signs of memory impairment. Cognitive flexibility refers to the brain’s ability to adjust behavior, learn new rules and adapt when situations change.

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