University of Jordan1 Motor system-Motor Functions of the Spinal Cord- L15- L16 Faisal I. Mohammed, MD, PhD.

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University of Jordan1 Motor system-Motor Functions of the Spinal Cord- L15- L16 Faisal I. Mohammed, MD, PhD

University of Jordan 2 Objectives  List the ascending and descending tracts passing through the spinal cord  Describe the muscle spindle  Explain the functions and mechanism of action of the muscle spindle system  Outline the spinal cord reflex mechanism  Follow up the neural circuitry and function of the spinal reflexes (Stretch reflex e.g knee and Ankle jerks, Flexor and crossed extensor reflexes)  Demonstrate spinal reflexes  Interpret the results of spinal reflexes

University of Jordan 3 Motor System

Inferior Olivary Nucleus Cerebral Cortex Spinal Motor Centers Brain stem Centers MusclesReceptors Spinal Relay Nuclei Spino-cerebellum VA/VL Thalamus Red Nucleus Pontine Lateral Reticular Nucleus B.G Motor Command Feed Back Command Monitor Corrective Command Motor System DSC & VSC Red Nucleus C.Spinal Rubrospinal

University of Jordan 5 The Spinal Cord is More Than Just a Conduit for Nerve Fibers Neuronal circuits for walking and various reflexes are contained within the spinal cord. Higher brain centers activate and command these circuits.  walking  maintaining equilibrium

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8 Internal Anatomy of Spinal Cord

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University of Jordan 11 Motor Organization of the Spinal Cord Sensory fibers enter the cord and are transmitted to higher centers, or they synapse locally to elicit motor reflexes. Motor neurons are located in the anterior portion of the cord.  motor neurons are % bigger than other neurons

University of Jordan 12 Anterior Motor Neurons Alpha motor neurons  give rise to large type A alpha fibers (~14 microns).  stimulation can excite extrafusal muscle fibers collectively called a motor unit Gamma motor neurons  give rise to smaller type A gamma fibers (~5 microns)  stimulation excites intrafusal fibers, a special type of sensory receptor

University of Jordan 13 Interneurons and Propriospinal Fibers Interneurons  30 times as many as anterior motor neurons  small and very excitable  comprise the neural circuitry for the motor reflexes Propriospinal fibers  travel up and down the cord for segments  provide pathways for multisegmental reflexes

University of Jordan 14 Sensory Receptors of the Muscle Muscle Spindle  sense muscle length and change in length Golgi Tendon Organ  sense tendon tension and change in tension

University of Jordan 15 The Muscle Spindle

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University of Jordan 18 Sensory fibers of muscle spindle

University of Jordan 19 Muscle spindle

University of Jordan 20 Static Response of the Muscle Spindle When the center of spindle is stretched slowly - the number of impulses generated by the primary and secondary endings increases in proportion to the degree of stretch. This is the ‘static response’. Function of the static nuclear bag and nuclear chain fibers.

University of Jordan 21 Dynamic Response of the Muscle Spindle When the center of the spindle is stretched rapidly - the number of impulses generated by the primary endings increases in proportion to the rate of change of the length. This is the ‘dynamic response’. Function of the dynamic nuclear bag fiber.

University of Jordan 22 Physiologic Function of the Muscle Spindle Comparator of length between the intrafusal and extrafusal muscle fiber. Opposes a change in length of the muscle. When the muscle is stretched the spindle returns it to its original length. Leads to the stretch reflex.

University of Jordan 23 Smoothening effect of muscle spindle

University of Jordan 24 Function of the Gamma System - Controls the intensity of the stretch reflex. - Spindle is normally tonically active as a result of input from higher brain centers. Alpha-gamma co-activation helps maintain muscle contraction - Performs a damping function by adjusting sensitivity.

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University of Jordan 27 Effect of gamma motor fibers (Dynamic and static)

University of Jordan 28 Control of the Gamma Motor System (Fusimotor System) Gamma signal excited by the bulboreticular facilatory area of the brain stem. Secondarily by areas that send impulses to this area.  cerebellum, basal ganglia, cortex Little is known about the precise control of this system.

University of Jordan 29 Clinical Application of the Stretch Reflex Knee jerk reflex  striking the patellar tendon with a hammer stretches the quadriceps muscle.  this initiates a stretch reflex which shortens the muscle and causes the knee to move forward. Can be done with almost any muscle. Index of the facilitation of the gamma efferents. Cortical lesions usually increase muscle stretch reflexes.

University of Jordan 30 Golgi Tendon Reflex Mediated by the golgi tendon organ receptor located in the tendon. This receptor responds to tension. When the tension becomes too great the reflex inhibits the motor fibers attached to the tendon. Function is to equalize force among muscle fibers.

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University of Jordan 32 Transmission of Stretch Information to Higher Centers Muscle spindle and golgi tendon signals are transmitted to higher centers. This informs the brain of the tension and stretch of the muscle. Information is transmitted at 120 m/sec. Important for feedback control of motor activity.

University of Jordan 33 The Withdrawal Reflexes A painful stimulus causes the limb to automatically withdraw from the stimulus. Neural pathways for reflex:  nociceptor activation transmitted to the spinal cord  synapses with pool of interneurons that diverge the to the muscles for withdrawal, inhibit antagonist muscles, and activate reverberating circuits to prolong muscle contraction  duration of the afterdischarge depends on strength of the stimulus

University of Jordan 34 Crossed Extensor Reflex Painful stimulus elicits a flexor reflex in affected limb and an extensor reflex in the opposite limb. Extensor reflex begins seconds after the painful stimulus. Serves to push body away from the stimulus, also to shift weight to the opposite limb.

University of Jordan 35 Neuronal Circuits for Withdrawal and Crossed Extensor Reflex

University of Jordan 36 The Stretch Reflex

University of Jordan 37 Other Reflexes for Posture and Locomotion Pressure on the bottom of the feet cause extensor reflex.  more complex than flexor-crossed extensor reflex Basic walking reflexes reside in the spinal cord.

University of Jordan 38 Reflexes that Cause Muscle Spasm Pain signals can cause reflex activation and spasm of local muscles. Inflammation of peritoneum can cause abdominal muscle spasm. Muscle cramps caused by painful stimulus in muscle:  can be due to cold, ischemia, of overactivity  reflex contraction increases painful stimulus and causes more muscle contraction

University of Jordan 39 1 SENSORY RECEPTOR (responds to a stimulus by producing a generator or receptor potential) 1 SENSORY NEURON (axon conducts impulses from receptor to integrating center) SENSORY RECEPTOR (responds to a stimulus by producing a generator or receptor potential) 2 1 SENSORY NEURON (axon conducts impulses from receptor to integrating center) SENSORY RECEPTOR (responds to a stimulus by producing a generator or receptor potential) INTEGRATING CENTER (one or more regions within the CNS that relay impulses from sensory to motor neurons) Interneuron SENSORY NEURON (axon conducts impulses from receptor to integrating center) SENSORY RECEPTOR (responds to a stimulus by producing a generator or receptor potential) INTEGRATING CENTER (one or more regions within the CNS that relay impulses from sensory to motor neurons) MOTOR NEURON (axon conducts impulses from integrating center to effector) Interneuron SENSORY NEURON (axon conducts impulses from receptor to integrating center) SENSORY RECEPTOR (responds to a stimulus by producing a generator or receptor potential) INTEGRATING CENTER (one or more regions within the CNS that relay impulses from sensory to motor neurons) MOTOR NEURON (axon conducts impulses from integrating center to effector) EFFECTOR (muscle or gland that responds to motor nerve impulses) Interneuron Reflex Arc

University of Jordan 40 1 SENSORY NEURON (axon conducts impulses from receptor to integrating center) SENSORY RECEPTOR (responds to a stimulus by producing a generator or receptor potential) INTEGRATING CENTER (one or more regions within the CNS that relay impulses from sensory to motor neurons) MOTOR NEURON (axon conducts impulses from integrating center to effector) EFFECTOR (muscle or gland that responds to motor nerve impulses) Interneuron Reflex Arc

University of Jordan 41 1 Stretching stimulates SENSORY RECEPTOR (muscle spindle) Antagonistic muscles relax 1 Stretching stimulates SENSORY RECEPTOR (muscle spindle) SENSORY NEURON excited To brain Spinal Nerve Stretching stimulates SENSORY RECEPTOR (muscle spindle) SENSORY NEURON excited Within INTEGRATING CENTER (spinal cord), sensory neuron activates motor neuron Inhibitory interneuron To brain Spinal Nerve + – Stretching stimulates SENSORY RECEPTOR (muscle spindle) SENSORY NEURON excited MOTOR NEURON excited Antagonistic muscles relax Motor neuron to antagonistic muscles is inhibited Within INTEGRATING CENTER (spinal cord), sensory neuron activates motor neuron Inhibitory interneuron To brain Spinal Nerve + – Stretching stimulates SENSORY RECEPTOR (muscle spindle) SENSORY NEURON excited MOTOR NEURON excited EFFECTOR (same muscle) contracts and relieves the stretching Antagonistic muscles relax Motor neuron to antagonistic muscles is inhibited Within INTEGRATING CENTER (spinal cord), sensory neuron activates motor neuron Inhibitory interneuron To brain Spinal Nerve + – The Stretch Reflex (Knee Jerk)

University of Jordan 42 The Stretch Reflex  Causes contraction of a skeletal muscle in response to stretching of the muscle.  Monosynaptic reflex.  Patellar or knee-jerk reflex: Stretching of a muscle →activation of muscle spindles →sensory neuron →spinal cord→motor neuron → muscle contraction. (Excitatory reflex)  Ipsilateral.  Receptors are located in the same muscle stimulated by lengthening of muscle (stretch)

University of Jordan 43 1 Increased tension stimulates SENSORY RECEPTOR (tendon) 1 Spinal nerve SENSORY NEURON excited To brain Increased tension stimulates SENSORY RECEPTOR (tendon) Within INTEGRATING CENTER (spinal cord), sensory neuron activates inhibitory interneuron Excitatory interneuron Spinal nerve Inhibitory interneuron SENSORY NEURON excited + To brain Increased tension stimulates SENSORY RECEPTOR (tendon) – + 1 – Within INTEGRATING CENTER (spinal cord), sensory neuron activates inhibitory interneuron Excitatory interneuron Antagonistic muscles contract Spinal nerve MOTOR NEURON inhibited Inhibitory interneuron SENSORY NEURON excited + To brain Increased tension stimulates SENSORY RECEPTOR (tendon) Motor neuron to antagonistic muscles is excited – EFFECTOR (muscle attached to same tendon) relaxes and relieves excess tension Within INTEGRATING CENTER (spinal cord), sensory neuron activates inhibitory interneuron Excitatory interneuron Antagonistic muscles contract Spinal nerve MOTOR NEURON inhibited Inhibitory interneuron SENSORY NEURON excited + To brain Increased tension stimulates SENSORY RECEPTOR (tendon) Motor neuron to antagonistic muscles is excited The Tendon Reflex

University of Jordan 44 The Tendon Reflex  Polysynaptic reflex. ( Di-synaptic)  Control muscle tension by causing muscle relaxation when muscle tension is great.  Sensory receptors- Golgi tendon organs (same muscle stimulated by tension applied on the muscle in series with muscle fibers)  ↑ Tension applied to the tendon → tendon organ stimulation → nerve impulse → spinal cord →motor neuron causes muscle relaxation and relieves tension (inhibitory reflex)

University of Jordan 45 1 Stepping on tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) 1 + Stepping on tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) SENSORY NEURON excited Stepping on tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) SENSORY NEURON excited Within INTEGRATING CENTER (spinal cord), sensory neuron activates interneurons in several spinal cord segments Ascending interneuron Interneuron Descending interneuron Spinal nerve Stepping on tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) SENSORY NEURON excited MOTOR NEURONS excited MOTOR NEURON excited Within INTEGRATING CENTER (spinal cord), sensory neuron activates interneurons in several spinal cord segments Ascending interneuron Interneuron Descending interneuron Spinal nerve Stepping on tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) SENSORY NEURON excited MOTOR NEURONS excited MOTOR NEURON excited EFFECTORS (flexor muscles) contract and withdraw leg Within INTEGRATING CENTER (spinal cord), sensory neuron activates interneurons in several spinal cord segments Ascending interneuron Interneuron Descending interneuron Spinal nerve Flexor (Withdrawal) Reflex

University of Jordan 46 Flexor (Withdrawal) Reflex  Polysynaptic reflex  Ipsilateral.  Stepping on a tack (stimulus) → nerve impulse → activation of the interneuron → activation of the motor neuron →muscle contraction →withdrawal of the leg (excitatory reflex)  There is reciprocal inhibition (i.e inhibition of antagonist group of muscles on the same side)

University of Jordan 47 1 Withdrawal of right leg (flexor reflex) Stepping on a tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) in right foot 1 SENSORY NEURON excited Withdrawal of right leg (flexor reflex) Stepping on a tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) in right foot Ascending interneurons SENSORY NEURON excited Spinal nerve Within INTEGRATING CENTER (spinal cord), sensory neuron activates several interneurons Descending interneurons Withdrawal of right leg (flexor reflex) Stepping on a tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) in right foot Interneurons from other side 1 + Ascending interneurons SENSORY NEURON excited Spinal nerve Within INTEGRATING CENTER (spinal cord), sensory neuron activates several interneurons MOTOR NEURONS excited Descending interneurons Withdrawal of right leg (flexor reflex) Stepping on a tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) in right foot Extension of left leg (crossed extensor reflex) MOTOR NEURONS excited Interneurons from other side 1 + Ascending interneurons EFFECTORS (extensor muscles) contract, and extend left leg SENSORY NEURON excited Spinal nerve Within INTEGRATING CENTER (spinal cord), sensory neuron activates several interneurons MOTOR NEURONS excited Descending interneurons Withdrawal of right leg (flexor reflex) Flexor muscles contract and with- drawright leg Stepping on a tack stimulates SENSORY RECEPTOR (dendrites of pain-sensitive neuron) in right foot Extension of left leg (crossed extensor reflex) MOTOR NEURONS excited Interneurons from other side Crossed Extensor Reflex

University of Jordan 48 Crossed Extensor Reflex Polysynaptic reflex. Contralateral reflex. Contraction of muscles that extend joints in the opposite limb in response to a painful stimulus. Stepping on a tack (stimulus) → nerve impulse →activation of several interneuron → activation of the motor neurons → muscle contraction causing flexion of the leg stepping on a tack & extension on the opposite side.  There is reciprocal inhibition (i.e inhibition of antagonist group of muscles on the same side)

University of Jordan 49 Myograms of flexor and crossed extensor reflexes

University of Jordan 50 Thank You