Transcript Lecture 3:
Lecture 3: Sensory systems involved in Motor Control Why do we need senses? Provide information for reflexive movement at the spinal cord level. Voluntary movement: Initiate, adjust and terminate the output of movement. Sensory systems Visual Audio/vestibular Proprioception - Muscle spindle - GTO - Joint receptors - Cutaneous (touch) Vision The eye... The eye Retina Photoreceptors Rods - night vision Cones - daylight, color vision Fovea Sensory differentiation is a key to sensory processing (e.g. color blind). Cone Rod Vision... Externalenvironment Internal-our body Identify objects in space. Determine their motion/movement Where is our body in space in relation to our body and motion. Vestibular system Components: Semicircular canals Utricle and Saccule Otolith organ Hair cells generate response due to the movement of fluid. The vestibular system Sensitive to: The position of the head in space and sudden changes in the movement of the head. Stabilizes the eyes and maintains postural stability during stance and walking. Abnormalities cause: dizziness, unsteadiness problems focusing our eyes and maintaining balance. Proprioception Muscle spindle GTO Joint Cutanous -Provide information of location and movement with relation of parts of the body to other parts of the body. -Provide information to motor control. Muscle spindle Located in the muscle belly of a skeletal muscle Sensitive to stretch Highest spindle density in the eye, hand and neck muscles (involved in eye-hand coordination). Golgi Tendon Organ - GTO Sensitive to tension Sensitive to small amounts of tension Joint receptors Located in joint capsules Sensitive to joint angles - provide danger signals Cutaneous Mechanoreceptors - mechanical stimuli Thermoreceptors - temp. Nociceptors - potential damage to the skin. Cutaneous info. gives rise to reflex movements e.g. bottom of the foot. Characteristics of the sensory information Where is the stimulus? What is the intensity? What is the duration? Transmission to other systems