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@crazinessfeelslikeheaven
you decide the energy you let in. remember that
have you ever looked at someone and thoughtâŠ
i could look at you for hours and not get bored
the older i get the more sensitive i become to warm genuine words, like wow you really think that kindly of me? hold up, lemme cry
How do u deal with your problems?
I donâtÂ
romanticise yourself and your own existence
SHOUTOUT TO THAT ONE PERSON THAT HEARS YOU WHEN YOUâRE TALKING IN A GROUP AND SMILES OR REPLIES SO YOU DONT FEEL LIKE A TWAT
SHOUTOUT TO THE PERSON IN THE GROUP WHO PRETENDS TO BE EXCITED ABOUT YOUR NICHE INTEREST WHILE EVERYONE ELSE IGNOFES YOU
Unlocking the mysteries of the brain
How does our brain store information?
Seeking an answer, researchers at CHU Sainte-Justine Hospital and Université de Montréal have made a major discovery in understanding the mechanisms underlying learning and memory formation.
The results of their study are presented in Nature Communications.
Led by Professor Roberto Araya, the team studied the function and morphological transformation of dendritic spines, tiny protrusions located on the branches of neurons, during synaptic plasticity, thought to be the underlying mechanism for learning and memory.
âWe are very excited because this is the first time that the rules of synaptic plasticity, a process directly related to memory formation in the brain, have been discovered in a way that allows us to better understand plasticity and ultimately how memories are formed when neurons of the cerebral neocortex receive single and/or multiple streams of sensory informationâ said Professor Araya.
A neuronal "treeâ
The brain is made up of billions of excitable nerve cells better known as neurons. They specialize in communication and information processing.
âImagine a tree,â said Araya. âThe roots are represented by the axon, the central trunk by the cell body, the peripheral branches by the dendrites and finally, the leaves by the dendritic spines. These thousands of small leaves act as a gateway by receiving excitatory information from other cells. They will decide whether this information is significant enough to be amplified and circulated to other neurons.
âThis is a key concept,â he added, âin the processing, integration and storage of information and therefore in memory and learning.â
Neurons amplify the âvolumeâ
Dendritic spines serve as a contact zone between neurons by receiving inputs (information) of varying strength. If an input is persistent, a mechanism by which neurons amplify the âvolumeâ is triggered so that it can better âhearâ that particular piece of information.
Otherwise, information of a low âvolumeâ will be further turned down so that it goes unnoticed. This phenomenon corresponds to synaptic plasticity, which involves the potentiation or depression of synaptic input strength.
âThis is the fundamental law of time-dependent plasticity, or Spike-timing-dependent plasticity (STDP), which adjusts the strength of connections between neurons in the brain and is believed to contribute to learning and memory,â said Sabrina Tazerart, co-author of the study.
While the scientific literature shows this phenomenon and how neurons connect, the precise structural organization of dendritic spines and the rules that control the induction of synaptic plasticity have remained unknown.
âLaws of connectionsâ
Arayaâs team has succeeded in shedding light onto the mechanisms underlying STDP.
âUntil now, no one knew how synaptic inputs (incoming information) were arranged in the âneural treeâ and what precisely causes a dendritic spine to increase or decrease the strength, or loudness, of information it passes on,â the professor said. âOur goal was to extract âlaws of synaptic connectivityâ responsible for building memories in the brain.ââ
For their study, his team employed preclinical models at a juvenile stage, a critical period for learning and memory in the brain.
Using advanced techniques in two-photon microscopy that mimic synaptic contacts between two neurons, the researchers discovered an important law related to the arrangement of information received by dendritic spines.
Their work shows that depending on the number of inputs received (synapses) and their proximity, the information will be taken into account and stored differently.
âWe found that if more than one input occurs within a small piece of tree branch, the cell will always consider this information important and will increase its volume,â said co-first author Diana E. Mitchell.
âA major discoveryâ
âThis is a major discovery,â added Araya.
âStructural and functional alterations of dendritic spines, the major recipients of inputs from other neurons, are often associated with neurodegenerative conditions, such as Fragile X syndrome or autism, as the patient can no longer process or store information properly,â he said.
âThis disrupts the logic of memory construction. Now, by understanding the mechanisms underlying the dynamics of dendritic spines and how they impact the nervous system, we will be able to develop new and better-adapted therapeutic approaches.â
life cleansing tips:
- delete conversations between people you no longer talk to. its healthy to let go of the past and not letting yourself dwell on things.
- say kind things about people you like. say good things about yourself. donât speak or think about people you donât like.
- look in mirrors. you shouldnât be afraid of facing yourself.
- clean sheets make clean sleep make clean minds
- allow yourself time to feel and grow. donât be too hard on yourself for crying, you need to vent in order to move on to better times. even rainy days work towards sunny days.
- if things donât work out, stop forcing them. thereâs no reason for you to keep working and failing if thereâs other places/people for you to excel and be happy.
- kiss your body, caress your body. make yourself feel loved.
- running away doesnât always solve everything. sometimes, the reason that made you run will still be with you. focus on freeing yourself before starting anew.
- a glass of water and a good nights rest can go a long way
Is anyone else in a weird state of mind right now ? Like everything is fine but everythingâs not fine
someday in the future you will be picking wildflowers. wait for that moment, however long it takes
original writing / do not repost
wrap it up covid I wanna be in an interactive science museum
me when a hot person accidentally touches me