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The ability of the nervous system to adjust its activity in response to intrinsic or external stimuli by changing its structure, functions, or connections is known as neural plasticity, also known as neuroplasticity or brain plasticity. The term "plasticity" describes the brain's malleability or capacity for change, not its plasticity. Neuro is short for neurons, which are the nerve cells that make up the brain and neurological system. Thus, neuroplasticity enables adjustments or changes in nerve cells.

Neuroplasticity Types Synaptic plasticity, the ability of neurons to change the strength and effectiveness of synaptic transmission through various activity-dependent mechanisms, is a key characteristic of neurons. Neural plasticity has been demonstrated via research over the last century to be a fundamental characteristic of nervous systems in species ranging from insects to humans. Indeed, because this phenomenon is crucial in learning and memory, studies into synaptic plasticity have not only been a major driving force in neuroscience research but have also contributed to the welfare of our society.

There are two main types of neuroplasticity:

Functional plasticity is the brain's ability to move functions from a damaged area of the brain to other undamaged areas.

Structural plasticity is the brain's ability to actually change its physical structure as a result of learning.

Types of cortical

types of cortical

Early in life, when neurons grow quickly and send out many branches, leading to an excess of connections, developmental plasticity is most pronounced. In actuality, each neuron in the cerebral cortex, which is the outermost layer of the brain, has roughly 2,500 synapses entangled around it at birth. An infant has about 15,000 synapses per neuron by the time they are two or three years old. The average adult brain has nearly twice as much information as this. The connections that aren't strengthened over time by sensory stimuli gradually deteriorate, while the connections that are strengthened grow stronger. Eventually, efficient pathways of neural connections are carved out. Throughout the life of a human or other mammals, these neural connections are fine-tuned through the organism’s interaction with its surroundings. During early childhood, which is known as a critical period of development, the nervous system must receive certain sensory inputs in order to develop properly. Once such a critical period ends, there is a precipitous drop in the number of connections that are maintained, and the ones that do remain are the ones that have been strengthened by the appropriate sensory experiences. This massive “pruning back” of excess synapses often occurs during.

The brain grows quickly in a child's first few years of life. Every neuron in the cerebral cortex has approximately 2,500 synaptic synapse pairs at birth, which are tiny spaces between neurons where nerve impulses are conveyed. This number has increased to a staggering 15,000 synapses per neuron by the age of three or two However, the average adult only has roughly half as many synapses. Why? Because some connections get stronger as we acquire new experiences while others fade away. Synaptic pruning is the term for this procedure. Stronger connections form between regularly utilized neurons. Those that are utilized little or never pass away gradually. The brain may adjust to a changing environment by creating new connections and removing weak ones. There are many benefits of brain neuroplasticity. Allowing your brain to adapt and change helps promote:

  • The ability to learn new things

  • The ability to enhance existing cognitive capabilities

  • Recovery from strokes and traumatic brain injuries

  • Strengthening areas where the function is lost or has declined

  • Improvements that can boost brain fitness

Now let's find some differences between neuroplasticity and neurogenesis Neuroplasticity is the ability of the brain to form new connections and pathways and change how its circuits are wired; neurogenesis is the even more amazing ability of the brain to grow new neurons (Bergland, 2017).

It is simple to infer that learning and neuroplasticity are related because when we learn, our brains create new neural pathways. Every new lesson has the ability to connect new neural pathways and alter the default operating mode of our brains. Learning new facts may not always take advantage of the remarkable adaptability of the brain, but learning a new language or a musical instrument most surely does. Of course, not all learning is created equal. We might be able to learn how to deliberately reorganize the brain through this kind of learning. The degree to which we employ the brain's almost magical powers also depends on how committed we are to fostering neuroplasticity and how we go about living our lives.

Enhancing Neuroplasticity: At any age, there are things you can do to assist your brain to adapt and change.

Improve the Environment It has been demonstrated that learning environments that provide lots of opportunities for focused attention, novelty, and challenge encourage beneficial changes in the brain. While this is especially crucial during childhood and adolescence, an enriching environment can always benefit your brain far into adulthood. Your brain could be stimulated by: Taking language classes playing an instrument and taking lessons

Exercise Regular physical activity offers several advantages for the brain. According to certain studies, exercise may help reduce neuron loss in important regions of the hippocampus, a region of the brain responsible for memory and other processes. Additional research indicates that exercising.


This article on ' Neuroplasticity ' has been contributed by Gulnar Kohli who completed her BA in psychology journalism and women's studies from Indian Institute of Psychology and Research,Bengaluru

Gulnar is a part of the Global Internship Research Program (GIRP), which is mentored by Anil Thomas.

GIRP is an initiative by (International Journal of Neurolinguistics & Gestalt Psychology) IJNGP and Umang Foundation Trust to encourage young adults across our globe to showcase their research skills in psychology and to present it in creative content expression.

Anil is an internationally certified NLP Master Practitioner and Gestalt Therapist. He has conducted NLP Training in Mumbai, and across 6 other countries. The NLP practitioner course is conducted twice every year. To get your NLP certification


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