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Archive for the ‘neuroscience’ category: Page 112

Apr 7, 2024

New human neuron model sparks hope for Alzheimer’s treatment

Posted by in categories: biotech/medical, neuroscience

Scientists develop a human neuron model that efficiently simulates tau protein spread in Alzheimer’s, hinting at new therapeutic targets.

Apr 6, 2024

Exploring the Brain: from Synapses to Cognition

Posted by in categories: biotech/medical, computing, media & arts, neuroscience

The human brain is a remarkably complex organ, consisting of billions of interconnected neurons. It can be divided into distinct regions, each with specific functions, such as memory and decision-making. Cognition, which includes processes like perception, memory, language, and problem-solving, is all orchestrated by the brain. It’s through these cognitive processes that we perceive and interact with the world around us.

What is special about the structure of the brain compared to other organs? What is the principled way of understanding how the brain works? How does the brain contribute to our sense of Self? Is it possible to compare the brain with the computer? Is it possible to enhance the way that the brain works? What is the brain-basis of language?

Continue reading “Exploring the Brain: from Synapses to Cognition” »

Apr 6, 2024

What is Consciousness Hodgkin and Huxley Neuron model as a universal process of energy exchange

Posted by in categories: neuroscience, particle physics, quantum physics

Diagram of Neuron and Microtubules Reference video:


I would like to dedicate this video on Hodgkin and Huxley model of Neurons. That basically explains Neurons as electric circuits with the organization and movement of positive and negative charge. The positive and negative is in the form of ion atoms. The neuron membrane acts as a boundary separating charge with ionic gates embedded in the cell membrane forming the potential for the build-up and movement of ion charge. This process can form signals along the neurons with the potential difference across the cell membrane forming what is called an action potential.
The big question is how can this process of electrical activity form consciousness?
To answer this question we have to look deeper into the process.
When we do this, we find that the movement or action of charged particles like ions emit photon ∆E=hf energy.

Continue reading “What is Consciousness Hodgkin and Huxley Neuron model as a universal process of energy exchange” »

Apr 6, 2024

Immunotherapy for Alzheimer’s disease shows promise in mouse study

Posted by in categories: biotech/medical, neuroscience

Scientists from Washington University in St.


Antibody mobilizes immune cells to clear amyloid plaques, reducing behavioral abnormalities.

Apr 6, 2024

Powering Brain Repair: Mitochondria Key to Neurogenesis

Posted by in categories: biotech/medical, neuroscience

Summary: Researchers made a groundbreaking discovery about the maturation process of adult-born neurons in the brain, highlighting the critical role of mitochondrial fusion in these cells. Their study shows that as neurons develop, their mitochondria undergo dynamic changes that are crucial for the neurons’ ability to form and refine connections, supporting synaptic plasticity in the adult hippocampus.

This insight, which correlates altered neurogenesis with neurological disorders, opens new avenues for understanding and potentially treating conditions like Alzheimer’s and Parkinson’s by targeting mitochondrial dynamics to enhance brain repair and cognitive functions.

Apr 5, 2024

Human neuron model paves the way for new Alzheimer’s therapies

Posted by in categories: biotech/medical, neuroscience

Weill Cornell Medicine scientists have developed an innovative human neuron model that robustly simulates the spread of tau protein aggregates in the brain—a process that drives cognitive decline in Alzheimer’s disease and frontotemporal dementia. This new model has led to the identification of novel therapeutic targets that could potentially block tau spread.

Apr 5, 2024

Craving Snacks After a Meal? It might be Food-Seeking Neurons, Not an Overactive Appetite

Posted by in categories: food, neuroscience

A new study has shown that food-seeking cells exist in a part of a mouse’s brain usually associated with panic — but not with feeding. Activating a selective cluster of these cells kicked mice into ‘hot pursuit’ of live and non-prey food, and showed a craving for fatty foods intense enough that the mice endured foot shocks to get them, something full mice normally would not do. If true in humans, who also carry these cells, the findings could help address the circuit that can circumvent the normal hunger pressures of ‘how, what and when to eat.’

People who find themselves rummaging around in the refrigerator for a snack not long after they’ve eaten a filling meal might have overactive food-seeking neurons, not an overactive appetite.

UCLA psychologists have discovered a circuit in the brain of mice that makes them crave food and seek it out, even when they are not hungry. When stimulated, this cluster of cells propels mice to forage vigorously and to prefer fatty and pleasurable foods like chocolate over healthier foods like carrots.

Apr 5, 2024

RNA Molecules in Brain Nerve Cells Display Lifelong Stability

Posted by in categories: biotech/medical, genetics, life extension, neuroscience

Certain RNA molecules in the nerve cells in the brain last a life time without being renewed. Neuroscientists from Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) have now demonstrated that this is the case together with researchers from Germany, Austria and the USA. RNAs are generally short-lived molecules that are constantly reconstructed to adjust to environmental conditions. With their findings that have now been published in the journal Science, the research group hopes to decipher the complex aging process of the brain and gain a better understanding of related degenerative diseases.

Most cells in the human body are regularly renewed, thereby retaining their vitality. However, there are exceptions: the heart, the pancreas and the brain consist of cells that do not renew throughout the whole lifespan, and yet still have to remain in full working order. “Aging neurons are an important risk factor for neurodegenerative illnesses such as Alzheimer’s,” says Prof. Dr. Tomohisa Toda, Professor of Neural Epigenomics at FAU and at the Max Planck Center for Physics and Medicine in Erlangen. “A basic understanding of the aging process and which key components are involved in maintaining cell function is crucial for effective treatment concepts:”

In a joint study conducted together with neuroscientists from Dresden, La Jolla (USA) and Klosterneuburg (Austria), the working group led by Toda has now identified a key component of brain aging: the researchers were able to demonstrate for the first time that certain types of ribonucleic acid (RNA) that protect genetic material exist just as long as the neurons themselves. “This is surprising, as unlike DNA, which as a rule never changes, most RNA molecules are extremely short-lived and are constantly being exchanged,” Toda explains.

Apr 5, 2024

Newly Approved Rapid Blood Test for Traumatic Brain Injury Could Speed Up Treatment for Troops

Posted by in categories: biotech/medical, military, neuroscience

The Food and Drug Administration has approved a blood test to detect concussion that produces results in minutes rather than hours — a breakthrough that could help expedite treatment for service members with traumatic brain injuries, according to the U.S. Army and Abbott Laboratories, the…


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“This can help get the most severely injured service members to neurosurgeons faster and ultimately save lives,” Lt. Col. Bradley Dengler, neurosurgical consultant to the U.S. Army Office of the Surgeon General, said in a release.

Continue reading “Newly Approved Rapid Blood Test for Traumatic Brain Injury Could Speed Up Treatment for Troops” »

Apr 4, 2024

Study reveals that the brain’s cerebellum can shape cognition

Posted by in categories: biotech/medical, neuroscience

If you reward a monkey with some juice, it will learn which hand to move in response to a specific visual cue—but only if the cerebellum is functioning properly. So say neuroscientists at the University of Pittsburgh School of Medicine and Columbia University, who recently published findings in Nature Communications that show the brain region plays a crucial role in reward-based learning.

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