With 4 Part Architecture, Laminar ORGANIZATION, Sub-Regions, etc.....that can be MAPPED ... sure sounds like DESIGN...
I will praise thee; for I am fearfully and wonderfully made: Psalm 139:14
"The human hippocampus sits at the base of the brain. It stores memories, helps regulate emotions
and guides navigation by spatial processing.
It’s the first part of the brain impaired by Alzheimer’s; hippocampus degeneration also can cause epilepsy and other diseases.
“Like a new atlas, we’ve constructed the most detailed diagram of the hippocampus to date. With a better map, we can see each region and how it functions,” said Dr. Michael Bienkowski, co-lead author of the study.
“Scientists have known the basic four-part architecture of the hippocampus for a long time,” they said.
“What’s different now is we can show its sub-regions and how nerve cells interact across the structure.”
“It’s a night-and-day difference, akin to seeing transmission lines and power poles slung across a city by day compared to fully illuminated at night.”
Notably, previously unknown subiculum gene expression patterns revealed a hidden laminar organization." SciNews
Laminar organization describes the way certain tissues, such as bone membrane, skin, or brain matter, are arranged in layers. The organization of the cerebral cortex can be described by its laminar organization, due to the arrangement of cortical neurons into six distinct layers.
wikipedia
I will praise thee; for I am fearfully and wonderfully made: Psalm 139:14
"The human hippocampus sits at the base of the brain. It stores memories, helps regulate emotions
and guides navigation by spatial processing.
It’s the first part of the brain impaired by Alzheimer’s; hippocampus degeneration also can cause epilepsy and other diseases.
“Like a new atlas, we’ve constructed the most detailed diagram of the hippocampus to date. With a better map, we can see each region and how it functions,” said Dr. Michael Bienkowski, co-lead author of the study.
“Scientists have known the basic four-part architecture of the hippocampus for a long time,” they said.
“What’s different now is we can show its sub-regions and how nerve cells interact across the structure.”
“It’s a night-and-day difference, akin to seeing transmission lines and power poles slung across a city by day compared to fully illuminated at night.”
Notably, previously unknown subiculum gene expression patterns revealed a hidden laminar organization." SciNews
Laminar organization describes the way certain tissues, such as bone membrane, skin, or brain matter, are arranged in layers. The organization of the cerebral cortex can be described by its laminar organization, due to the arrangement of cortical neurons into six distinct layers.
wikipedia