There is much debate over the existence of cervicogenic vertigo, which would be rotational movement associated with neck pain. Cervicogenic dizziness (CGD) however is a feeling of dizziness often described as lightheadedness (not presyncope) or that a patient has a floating head which is associated neck pain and often with decreased balance.
The mechanism by which cervical pain or dysfunction could lead to dizziness is in dispute, it is thought that inflammation or irritation of the cervical roots or facet joints could cause disruption to the proprioceptive receptors (cervical joint and tendon receptors) in the neck. These receptors are responsible to the postural neck reflexes which are linked with spinal cord, brain stem, cerebrum and cerebellum. It is thought that upper cervical spine proprioception is responsible for the generation of cervico-ocular reflex (COR) which works with the vestibular ocular reflex at lower frequencies. Disruption to proprioception is said to result in a mismatch of information to the balance centres due that cause ongoing dizziness and balance impairment.
Did you know that physical exercise is better for your memory than completing a crossword or Suduko.
We all know that physical exercise is good for our bodies and physical health, but it is also good for our brain health.
Just like other muscles of the body if you don't use it you lose it. Exercise affects the brain on several levels research has shown that with physical exercise that increases your breathing and gets your heart pumping there is an increase in the amount of oxygen the brain receives which provides a nourishing environment for growth of brain cells. Also it has been demonstrated that when we get out of breath hormones that are directly related to improving memory and neuroplasticity of the brain are released into the bloodstream, these hormones are called growth factor an increase in growth factors in the brain- making it easier for the brain to grow new neuronal connections new blood vessels and the health of brain cells.
Showing that exercise stimulates the brain plasticity by stimulating growth of new connections between cells and strengthening existing connections in a wide array of important cortical areas of the brain.
Exercise helps with neuroplasticity there are also direct and indirect ways that exercise can help overall brain health The benefits of exercise come directly from its ability to reduce insulin resistance, reduce inflammation, and stimulate the release of growth factors—chemicals in the brain that affect the health of brain cells, the growth of new blood vessels in the brain, and even the abundance and survival of new brain cells. Indirectly, exercise improves mood and sleep, and reduces stress and anxiety. Problems in these areas frequently cause or contribute to cognitive impairment.
Many studies have suggested that the parts of the brain that control thinking and memory (the prefrontal cortex and medial temporal cortex) have greater volume in people who exercise versus people who don’t.
So how can we put this into practise???????
Researchers found that regular aerobic exercise, the kind that gets your heart and your sweat glands pumping, appears to boost the size of the hippocampus, the brain area involved in verbal memory and learning. Resistance (weights) training and balance exercise did not have the same effect.
Studies have shown that people who walked briskly for one hour twice a week had this improvement, which is a total of 120 minutes of moderate intensity exercise per week. Normal recommendations are based on 150 minutes a week or 30 minutes five days a week. Just remember you can build up to this with as little as 10 minutes a day as you get started exercising.
If you don’t want to walk, consider other moderate-intensity exercises, such as swimming, stair climbing, tennis, squash, or dancing. Don’t forget that household activities can count as well, such as intense floor mopping, raking leaves, or anything that gets your heart pumping and breaking out in a light sweat.