proprioception/neuromuscular control. afferent inputs (3 subsystems) vision –horizontal and...
TRANSCRIPT
Afferent Inputs (3 subsystems)
• Vision• Vestibular
– Head movement
– Inner ear
– Balance and posture
• Somatosensory– Peripheral Afferent
Receptors
Somatosensory System
• Afferent Receptors– Free Nerve Endings
– Cutaneous Receptors• Few respond
• Respond at extreme ROM
Somatosensory System
• Afferent Receptors– Free Nerve Endings
– Cutaneous Receptors
– Articular (Joint)• QA and SA
• Pacinian Corpuscle– Joint capsule
– RA
– sensitivity
Somatosensory System
• Afferent Receptors– Free Nerve Endings
– Cutaneous Receptors
– Articular (Joint)• QA and SA
• Pacinian Corpuscle
• Ruffini Endings– Capusular collagen
– SA
– Sensitive to…
Somatosensory System
• Afferent Receptors– Free Nerve Endings– Cutaneous Receptors– Articular (Joint)
• QA and SA• Pacinian Corpuscle• Ruffini Endings• Golgi-tendon Like
Organs– Ligaments– Sensitivity
Somatosensory System
• Afferent Receptors– Free Nerve Endings
– Cutaneous Receptors
– Articular (Joint)
– Musculotendinous Receptors
• Muscle Spindles
• Golgi tendon organs
Somatosensory System
• Afferent Receptors– Free Nerve Endings
– Cutaneous Receptors
– Articular (Joint)
– Musculotendinous Receptors
• Muscle Spindles
• Golgi tendon organs
Spinal Cord Entry
• Dorsal Roots• Synapse with
interneurons• Monosynaptic Stretch
Reflex• Polysynaptic Reflex
Motor Control Maintenance: How do we control motor
Performance?• FEEDFORWARD AND FEEDBACK
• Feedforward– Preactivation– Functions
Motor Control Maintenance: How do we control motor
Performance?• FEEDFORWARD AND FEEDBACK
• Feedback
• So what?
• The Key
Components of Neuromuscular Control Training
• Proprioception
• Kinesthesia
• Dynamic Stability
• Preparatory Muscle Contractions
• Reactive Muscle Characteristics
• Conscious and Unconscious Movement Patterns
Re-establishing Neuromuscular Control
• Four Basic Elements– Proprioceptiom– Dynamic Joint Stabilization– Reactive Neuromuscular Control– Functional Motor Patterns