Chapter 7 Flashcards
Neuromuscular efficiency
Neuromuscular system to allow the agonists, synergistic, stabilizers, and neutralizers to work together in all 3 planes of motion
Proprioception
Cumulative neural input to the CNS from all Mechanoreceptors that sense position and limb movement
Kinesthesia
Conscious awareness of joint movement and position resulting from proprioception input
Mechanoreceptors
Neural receptors embedded in connective tissue; convert mechanical distortions of the tissue into neural codes
Ruffini afferents
Joint receptors mechanically sensitive to stress; activated during extreme extension and/or rotation
Paciniform afferents
Widely distributed around joint capsule; sensitive to local compression and tensile loading
Golgi afferents
In ligaments and menisci; high-threshold, slow adapting; mechanically sensitive to tensile loads
Nocioceptors
Afferents located in articular tissue; sensitive to mechanical deformation and pain
Dynamic joint stabilization
Ability of kinetic chain to stabilize a joint during movement
Multi-sensory condition
Training environment that provides heightened stimulation to proprioceptors and mechanoreceptors
Controlled instability
Training environment as unstable as can be safely controlled
Balance-stabilization exercises
Little joint motion of the balance leg; used in stabilization level of OPT model
Balance-strength exercises
Eccentric and concentric movement of the balance leg, full ROM, used in strength level of OPT model
Balance-power exercises
Hopping from one foot to another, hopping on same foot, requires optimal reactive joint stabilization, used in power level of OPT model
