Quantcast
CONTINUE READING

Stimulate Neuroplasticity Of The Brain To Rewire Lost Connections

Bookmark

by
5 Min Read

Structural and functional plasticity of the brain refers to its ability to retain new info and reassign lost function to its different regions. These neuron repair and regeneration properties can be exploited to cure diseases such as Alzheimer’s. Solving crossword and Sudoku puzzles initiate new neural connections. Meditation, rehabilitation and physical therapy can stimulate inactive neurons.

Until recently, the common scientific belief was that the brain was plastic (or changeable) only during childhood and young adulthood — the period when a person grows to maturity. However, as far back as in the 1890s, psychologist William James observed in his book The Principles of Psychology, “Organic matter, especially nervous tissue, seems endowed with a very extraordinary degree of plasticity.”

What Is Neuroplasticity?

Neuroplasticity refers to the brain’s ability to change and adapt as a result of experience. The term is a combination of neurons, the word for nerve cells, and plasticity, or malleability.

Neurons begin developing in humans during the third week of pregnancy. Before birth, they are created at an average of 250,000 per minute to form the millions of nerve cells a person needs. By the time a baby is born, this development has largely ended.

Writer Kendra Cherry notes that in the 1920s, Karl Lashley, a researcher, saw evidence of changes in the neural pathways of rhesus monkeys. By the 1960s, researchers had realized that stroke victims often regained certain functions, which serves as evidence that the brain was more changeable than previously believed.

Today, neuroscience and neuroplasticity are expanding areas of study, and scientists are excited about unraveling the brain’s secrets.

Neuroplasticity And Learning

Interestingly, it appears that the brain is constantly adapting and reorganizing. Neurons are regularly forming new connections through pathways called synapses. These reorganizations may result from learning, memory formation, or experience, or they may result from damage to the brain.

When you study a language and learn its vocabulary, the brain adapts to accommodate new neural connections; this is called structural plasticity.

If you have a stroke that damages a specific area of the brain, it may reorganize to shift the functions usually done in that region to another part of the brain. This is called functional plasticity.

Why Is Brain Neuroplasticity Research Important?

Neuroplasticity offers hope to all of us that cures can be found for illnesses such as Alzheimer’s disease, one in which neurons seem to erode and become useless, and for brain injuries.

On a smaller scale, it may help us learn to repair the “wires” in the brain connected to memories that seem to have eroded — for instance, those that make it difficult for us to recall someone’s name.

If we can learn to repair neurons or help them regenerate, perhaps we can reverse or prevent these problems or fix them once they occur.

How Do We Promote Neuroplasticity Training?

One approach to stimulating neuroplasticity is mental exercise. Just as physical exercise builds muscle, mental workouts can prompt the brain to reorganize connections more quickly.

Today, many specialized brain workouts or challenges are available, but even trying new experiences, putting yourself in a social situation, or doing physical exercise will stimulate neural activity and help build new connections.

Simple activities, such as doing crossword puzzles or Sudoku puzzles, regularly stimulate the brain. Challenge your brain: learn something new and practice it until it becomes easy for you. Stimulating yourself is the best way to keep those neurons firing. The brain enjoys stimulation, so learning is generally a positive stimulus for the neurons.

Drugs can also stimulate neuroplasticity – but not just any medication! Researchers have learned that drugs that make the hormone norepinephrine more available to the brain assist with rehabilitation after movement loss by helping new synapses form between neurons.

Drugs may work best in combination with physical or rehabilitation therapy, because when used alone, they can be costly and may have unwanted side effects.

The focus of rehabilitation therapy is to stimulate neurons that may not have been active for a while. Specific, targeted physical activities may promote self-repair or neural stimulation that leads to the formation of new pathways.

This approach may be especially effective with older adults because it appears that the brain reorganizes with more difficulty as we age.

Neuroplasticity Exercise – Timing Is Everything

Stephanie Liou, writing for Stanford University’s HOPES project, notes that using an injured body part immediately after a brain injury may increase the damage.

However, waiting too long to shake the neurons out of their slumber may render the connections between them impossible to repair.

Generally, rehabilitation is best after a week or two, but it must be done carefully and under professional guidance so that the new patterns and pathways don’t squeeze out other useful ones.

Meditation And Neuroplasticity

Exciting research into the effects of meditation on the brain by some of the leading neuroscientists in the world is showing that the brain is capable of changing for the better. Science is only scratching the surface in terms of the brain and our ability to influence and bring about change through meditation.

Here is just a brief list of findings regarding meditation and neuroplasticity. Meditation can:

  • Trigger patterns of neural pulsing that produce relaxed alertness
  • Activate positive emotion circuits, building resilience and resistance to depression
  • Increase serotonin, a neurotransmitter that supports mood, sleep, and digestion
  • Thicken the anterior cingulate, strengthening attention and self-observation
  • Thicken the insula, strengthening internal sensing and empathy for others
  • Stimulate the parasympathetic nervous system (PNS) for relaxed well-being
  • Strengthen the immune system, improve cardiovascular health, and dampen chronic pain

With all the amazing positive changes meditation can have on your brain, it’s no surprise that meditation has gone mainstream.

Not meditating yet? Want to start working on improving all parts of your life with meditation? It’s easier than you think.

Marlise Karlin

Marlise Karlin is an internationally renowned thought leader who has been interviewed on NBC and Fox News, and shared the stage with other visionaries including Gregg Braden, Panache Desai, and Dr. Eric Pearl. The emotional and physical trauma of her past, and the illnesses it caused, ignited her search to discover new solutions. Converging 25 years of study in Eastern holistic traditions and modern science, including Epigenetics and Neuroplasticity, Marlise developed The Simplicity of Stillness®, SOS Method. Over a decade of case studies has evidenced highly effective benefits for people on 6 continents. Marlise shares these inspiring stories as well as SOS Tools and Technology in her books, The Simplicity of Stillness Method and The Power of Peace in You. www.theSOSmethod.com

Marlise Karlin

Marlise Karlin is an internationally renowned thought leader who has been interviewed on NBC and Fox News, and shared the stage with other visionaries including Gregg Braden, Panache Desai, and Dr. Eric Pearl. The emotional and physical trauma of her past, and the illnesses it caused, ignited her search to discover new solutions. Converging 25 years of study in Eastern holistic traditions and modern science, including Epigenetics and Neuroplasticity, Marlise developed The Simplicity of Stillness®, SOS Method. Over a decade of case studies has evidenced highly effective benefits for people on 6 continents. Marlise shares these inspiring stories as well as SOS Tools and Technology in her books, The Simplicity of Stillness Method and The Power of Peace in You. www.theSOSmethod.com

FURTHER READING