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Personal Perspective: How being raised by two psychotherapists shaped me.

Type 2 diabetes may quietly alter the brain in ways that mimic early Alzheimer’s, weakening reward perception and memory signals in a key brain area called the anterior cingulate cortex (ACC).

The high comorbidity of type 2 diabetes (T2D) with psychiatric or neurodegenerative disorders points to a need for understanding what links these diseases. A potential link is the anterior cingulate cortex (ACC). The ACC supports behaviors related to cognition and emotions and is involved in some T2D-associated diseases, like mood disorders and Alzheimer's disease (AD).

Maybe people can control time — or their perception of it, anyway. A new paper written by ���ӽ紫ý Professor of Psychology James Hyman and published recently in Current Biology shows that the way people experience time has less to do with the physical hands of a clock, and more to do with the number of experiences in that given period of time.

We often think our brains tick away time in perfect synchronization with the clocks on our walls and electronic devices. However, groundbreaking research published in the journal Current Biology provides evidence that our perception of time is not governed by an internal clock but by the number of experiences we have. This study found that changes in brain activity patterns, specifically in the anterior cingulate cortex, indicate that our brains track the passage of time based on the accumulation of experiences rather than a steady internal clock.

Time is a variable that has been studied on countless occasions. In this regard, a study discovered how our brain measures the passage of time.

Have you ever noticed how time seems to crawl when you’re bored but flies by when you’re having fun? It turns out there’s scientific evidence behind this common experience. Researchers from the ���ӽ紫ý (���ӽ紫ý) suggest that our brains don’t actually keep track of time like a clock. Instead, they measure time based on our experiences and activities.

Time is relative, and not only in an astrophysical sense – we’re all familiar with that feeling that time drags when we’re bored and flies when we’re busy. New analysis of brain activity patterns shows how our brains track time, and some intriguing insights into how cells handle it.