Postural control is a term used to describe the way our central nervous system (CNS) regulates sensory information from other systems in order to produce adequate motor output to maintain a controlled, upright posture. The visual, vestibular, and somatosensory systems are the main sensory systems involved in postural control and balance. Postural orientation and equilibrium are two main functional goals of postural control. Postural orientation controls the body’s alignment and tone with respect to gravity, support surface, visual environment, and internal references. The coordination of sensorimotor strategies to stabilize the body’s centre of mass during both self-initiated and externally triggered stimuli constitutes postural equilibrium. Proper postural control is when an individual is able to engage in various static and dynamic activities, such as sitting, standing, kneeling, quadruped, crawling, walking, and running with the ability to contract the appropriate muscles required for a controlled midline posture, as well as the ability to make small adjustments in response to changes in position and movement, without the use of compensatory motions. If even one of the three abovementioned systems is not working the way it is supposed to, it can affect postural control and balance. However, when one system is affected the other two can be trained to compensate. If more than one system is affected in combination with CNS involvement, postural control will be more greatly affected. There are important reflexes involved in postural control known as the Cervicocollic Reflex (CCR), the Vestibulo-ocular reflex (VOR) and the Vestibulospinal Reflex (VSR) that work in conjuction with the vestibular nuclei and cerebellum, discussed in the last module (The vestibular system). The visual, vestibular and somatosensory are our three balance systems which are closely linked to control posture