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Part 4 Motor Functions of the Nervous System I Motor Unit and Final Common Pathway. 1. Motor Unit. Every striated muscle has encapsulated muscle fibers scattered throughout the muscle called muscle spindles. Extrafusal and intrafusal fibers.
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Part 4 Motor Functions of the Nervous System I Motor Unit and Final Common Pathway
Every striated muscle has encapsulated muscle fibers scattered throughout the muscle called muscle spindles. • Extrafusal and intrafusal fibers
The extrafusal muscle fibers are innervated by Alpha motor neuron The intrafusal muscle fibers are innervated by Gamma motor neurons
Motor units • A motor unit is a single motor neuron (a motor) and all (extrafusal) muscle fibers it innervates • Motor units are the physiological functional unit in muscle (not the cell) • All cells in motor unit contract synchronously
Motor units and innervation ratio Innervation ratio Fibers per motor neuron Extraocular muscle 3:1 Gastrocnemius 2000:1 Purves Fig. 16.4
The muscle cells of a motor unit are not grouped, but are interspersed among cells from other motor units • The coordinated movement needs the activation of several motors
Spinal Cord Overview - organization of motor systems Motor Cortex Brain Stem -motor neuron Final common pathway Skeletal muscle
muscle fibers (+) Transmitter? Schwann cells motor nerve fiber (-) axon hillock Receptors? acetylcholine esterase (+) NM junction Final common path - -motor neuron (-)
Final Common Pathway, a motor pathway consisting of the motor neurons by which nerve impulses from many central sources pass to a muscle in the periphery.
Spinal Reflexes • Somatic reflexes mediated by the spinal cord are called spinal reflexes • These reflexes may occur without the involvement of higher brain centers • Additionally, the brain can facilitate or inhibit them
(1) Anatomy of Muscle Spindle • The muscle spindles detect change in the length of the muscle -- stretch receptors that report the stretching of the muscle to the spine. • Each spindle consists of 3-10 intrafusal muscle fibers enclosed in a connective tissue capsule • These fibers are less than one quarter of the size of extrafusal muscle fibers (effector fibers)
Anatomy of Muscle Spindle • The central region of the intrafusal fibers which lack myofilaments are noncontractile, • serving as the receptive surface of the spindle (sensory receptor)
Anatomy of Muscle Spindle • Intrafusal fibers are wrapped by two types of afferent endings that send sensory inputs to the CNS • Primary sensory endings • Type Ia fibers • Innervate the center of the spindle • Secondary sensory endings • Type II fibers • Associated with the ends of the spindle
Components of muscle spindle Dynamic intrafusal fiber Static intrafusal fibers Static intrafusal fibers Primary ending } Ia Afferent axons II Secondary ending }
Anatomy of Muscle Spindle • Primary sensory endings • Type Ia fibers • Stimulated by both the rate and amount of stretch
Anatomy of Muscle Spindle • Secondary sensory endings • Type II fibers • stimulated only by degree of stretch
Anatomy of Muscle Spindle • The contractile region of the intrafusal muscle fibers are limited to their ends as only these areas contain actin and myosin filaments • These regions are innervated by gamma () efferent fibers
(2) Muscle stretch reflex Definition: Whenever a muscle is stretched, excitation of the spindles causes reflexive contraction of the same muscle from which the signal originated and also of closely allied synergistic muscle. The basic circuit: Spindle Proprioceptor nerve fiber dorsal root of the spinal cord synapses with anterior motor neurons -motor N. F. the same M. from whence the M. spindle fiber originated.
Circuit of the Strength Reflex Muscle spindle Dorsal root Muscle fiber -mn Tendon Ventral root
The Stretch Reflex • Exciting a muscle spindle occurs in two ways • Applying a force that lengthens the entire muscle • Activating the motor neurons that stimulate the distal ends of the intrafusal fibers to contact, • thus stretching the mid-portion of the spindle (internal stretch)
The Stretch Reflex • Whatever the stimulus, when the spindles are activated • their associated sensory neurons transmit impulses at a higher frequency to the spinal cord
The Stretch Reflex • At spinal cord sensory neurons synapse directly (mono- synaptically) with the motor neurons which rapidly excite the extrafusal muscle fibers of stretched muscle
The Stretch Reflex • The reflexive muscle contraction that follows (an example of serial processing) resists further stretching of the muscle
The Stretch Reflex • Branches of the afferent fibers also synapse with inter- neurons that inhibit motor neurons controlling the antagonistic muscles
Inhibition of the antagonistic muscles is called reciprocal inhibition • In essence, the stretch stimulus causes the antagonists to relax so that they cannot resist the shortening of the “stretched” muscle caused by the main reflex arc
The types of the Stretch Flex • 1)Tendon reflex (dynamic stretch reflex) • Caused by rapid stretch of the muscle, as knee-jerk reflex; • Transmitted from the IA sensory ending of the M. S. • Causes an instantaneous, strong reflexive contraction of the same muscle; • Opposing sudden changes in length of the M.; • A monosynaptic pathway • being over within 0.7 ms;
The types of the Stretch Flex 2)Muscle tonus (static stretch reflex): Caused by a weaker and continues stretch of the muscle, Transmitted from the IA and II sensory ending of the M. S. Multiple synaptic pathway, continues for a prolonged period. Non-synchronized contraction, M. C. for at least many seconds or minutes, maintaining the posture of the body.
The Stretch Reflex • The stretch reflex is most important in large extensor muscles which sustain upright posture • Contractions of the postural muscles of the spine are almost continuously regulated by stretch reflexes
Muscle spindle: motor innervation • Gamma motoneurons: • Innervate the poles of the fibers.
Descending influence (UMN) 1a a WHAT IS THE g-LOOP? Muscle spindle g Activation of the g-loop results in increased muscle tone MUSCLE
Functional significance of gamma impact on spindle activity • The tension of intrafusal fibers is maintained during active contraction by gamma activity. • The system is informed about very small changes in muscle length.
2. The Deep Tendon Reflex (1) Structure and Innervation of Golgi Organ
Golgi tendon organ: structure • Located in the muscle tendon junction. • Connective tissue encapsulating collagen fibers and nerve endings. • Attached to 10-20 muscle fibers and several MUs. • Ib afferent fiber. • sensitive to tension
(2) Golgi tendon organ: response properties • Less frequent than muscle spindle.
Golgi tendon organ: response properties (cont) • Sensitive to the change of tension caused by the passive stretch or active contraction
(3) The Deep Tendon Reflex • When muscle tension increases moderately during muscle contraction or passive stretching, • GTO receptors are activated and afferent impulses are transmitted to the spinal cord