Exercise helps the brain to recover movements after a stroke. Here is how it happens!
The brain is a highly adaptable organ. With the right stimulation, it can learn to compensate for the damage caused by a stroke.
Exercise is one such form of stimulation that helps to improve the brain’s ability to function and recover movements.
Exercise stimulates the brain to create new neurons and new connections.
By engaging in physical activity, the brain is forced to make new connections and stimulate the growth of new neurons. This process, known as neuroplasticity, is essential for brain recovery after a stroke.
This is exciting news; this is how it happens, according to the researchers.
Exercise boosts BDNF production
First, physical activity stimulates the release of a vital protein known as “Brain-Derived Neurotrophic Factor” (BDNF)1 in neurons. This protein is only produced in response to exercise and has been shown to be present in response to aerobic exercise by researchers. It is also believed that resistance exercises may also stimulate the release of BDNF in neurons.
What does this protein (BDNF) do?
Second, this protein triggers a series of changes in many areas of the brain. It includes the sprouting of new dendrites and synapses1 (see Figure 1). With these structural changes, repair work begins. This is a sort of remodelling. These new neurons and connections are essential to take over the jobs earlier carried out by dead neurons.
(This remarkable ability of the brain to undergo structural changes to face changing realities is commonly called “neuroplasticity”).
However, there is a catch!
The exercise intensity level should cross a minimum threshold to release this protein.
The BDNF protein does not appear if the exercise attempts do not reach the required intensity threshold level. We have another important fact to remember: The intensity level and the BDNF level go hand-in-hand – the higher the intensity level more the release of BDNF level!
What is the minimum threshold?
Exercise is a key factor in regaining movements after a stroke, and the more you do, the better the results. Engage in consistent physical activity to achieve maximum progress in your recovery journey.
It should be moderate-to-high intensity.
What is that?
Treadmill high-intensity interval training resulted in significantly high blood levels of BDNF at least 20 minutes when compared to treadmill moderate-intensity continuous exercise; that is what researchers have found out2.
Other benefits of exercise
Mang et al. (2013)1 describe other types of assistance aerobic exercises provide to the brain’s recovery attempts.
Releasing messenger proteins
Researchers have uncovered that exercises stimulate neighbouring neurons to release messenger proteins such as dopamine and serotonin. Neurons require these proteins to communicate with each other fast and efficiently.
These are urgent requirements! Because the brain has to adapt to face new challenges after the stroke attack.
How do we know this?
New technologies such as Functional MRI (fMRI) help researchers to view the changes while someone is carrying out activities or exercises.
Increasing the brain’s blood flow
Exercises increase the blood flow to the brain; This is necessary because the neurons require food and more oxygen for their extra-duty work at present.
Increasing muscle strength
This is again really necessary to restart activities of daily living as early as possible. More importantly, muscle non-use results in irreversible muscle wasting.
Types of exercises and activities we should promote?
One of the most effective forms of exercise for stroke recovery is aerobic exercise. This type of exercise helps to improve cardiovascular health, increases blood flow to the brain, and promotes neuroplasticity. Aerobic exercise can be performed in various forms, including walking, cycling, and swimming. These activities are typically performed for 30 to 60 minutes at a moderate intensity, several times per week.
Another type of exercise that can aid in stroke recovery is resistance training. This type of exercise involves using weights or resistance bands to strengthen the muscles. Resistance training helps to improve muscle strength, increase flexibility, and improve balance. By performing resistance training exercises, individuals who have had a stroke can work to rebuild their strength and regain the ability to perform activities of daily living.
Balance and coordination
Balance and coordination exercises are also important for stroke recovery. These exercises help to improve stability, balance, and coordination, all of which can be impacted by a stroke. Examples of balance and coordination exercises include tai chi, yoga, and balance boards. These exercises are performed slowly and deliberately, helping to improve balance and coordination over time.
Certain rules apply here in promoting post-stroke exercises and activities; this post outlines what those rules are; Following posts discuss what those rules are;
- Six rules to regain movements after a stroke
- Regaining arm movement after stroke
- Best practices to regain walking after stroke
- Cameron S. Mang, Kristin L. Campbell, Colin J.D. Ross, Lara A. Boyd, Promoting Neuroplasticity for Motor Rehabilitation After Stroke: Considering the Effects of Aerobic Exercise and Genetic Variation on Brain-Derived Neurotrophic Factor, Physical Therapy, Volume 93, Issue 12, 1 December 2013, Pages 1707–1716, https://doi.org/10.2522/ptj.20130053
- Boyne, P., Meyrose, C., Westover, J., Whitesel, D., Hatter, K., Reisman, D. S., Cunningham, D., Carl, D., Jansen, C., Khoury, J. C., Gerson, M., Kissela, B., & Dunning, K. (2019). Exercise intensity affects acute neurotrophic and neurophysiological responses poststroke. Journal of applied physiology (Bethesda, Md. : 1985), 126(2), 431–443. https://doi.org/10.1152/japplphysiol.00594.2018