1 / 17

SPINAL REFLEXES LECTURE

SPINAL REFLEXES LECTURE.

callia
Télécharger la présentation

SPINAL REFLEXES LECTURE

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. SPINAL REFLEXES LECTURE

  2. Summarizing scheme of the interaction between different motor centers. The different major compartments of the motor system and their main pathways for interaction are indicated. The basic functions of the different compartments and descending tracks are summarized to the left and below the scheme. CS, corticospinal; RbS, rubrospinal; VS, vestibulospinal; RS, reticulospinal.

  3. MOTOR NEURON-MUSCLE RELATIONSHIPS Two types of lower motor neuron are found in these neuronal pools: 1) α (alpha) motor neurons, which innervate extrafusal muscle fibers - the striated muscle fibers that generate the forces needed for movement. 2) small γ (gamma) motor neurons innervate specialized muscle fibers that are actually sensory receptors called muscle spindles. The muscle spindles are embedded within connective tissue capsules in the muscle, and are therefore referred to as intrafusal muscle fibers (fusal means capsular). The intrafusal muscle fibers are also innervated by sensory axons that send information to the brain and spinal cord about the length of the muscle. Somatotopic organization of lower motor neurons in a cross section of the ventral horn at the cervical level of the spinal cord. Motor neurons innervating axial musculature are located medially, whereas those innervating the distal musculature are located more laterally.

  4. THE MOTOR UNIT

  5. REGULATION OF MUSCLE FORCE: TERMINOLOGY SUMMATION

  6. REGULATION OF MUSCLE FORCE THERE ARE 3 MAJOR TYPES OF MOTOR UNIT: 1) SLOW 2) FAST FATIGUE-RESISTANT 3) FAST FATIGABLE

  7. REGULATION OF MUSCLE FORCE THERE ARE 3 MAJOR TYPES OF MOTOR UNIT: SLOW (“RED MEAT”; AEROBIC; MYOGLOBIN-RICH; MANY MITOCHONDRIA; DENSE CAPILLARIES; SMALL MNs) FAST FATIGUE-RESISTANT (INTERMEDIATE CHARACTERISTICS; MEDIUM MNs) FAST FATIGABLE (“WHITE MEAT”; ANAEROBIC; FEW MITOCHONDRIA; GLYCOGEN STORES CONVERT TO LACTIC ACID; LARGE MNs)

  8. MOTOR UNIT RECRUITMENT SIZE PRINCIPLE SLOW (S) FAST FATIGUE-RESISTANT (FR) FAST, FATIGABLE (FF)

  9. MUSCLE STRETCH RECEPTORS AND GOLGI TENDON ORGANS

  10. THE SPINAL CORD CIRCUITRY UNDERLYING MUSCLE STRETCH REFLEXES Stretching a muscle spindle leads to increased activity in Ia afferents and an increase in the activity of α motor neurons that innervate the same muscle. Ia afferents also excite the motor neurons that innervate synergistic muscles, and inhibit the motor neurons that innervate antagonists.

  11. ROLE OF GAMMA MOTOR NEURONS

  12. FLEXION WITHDRAWAL REFLEX/ CROSSED EXTENSOR REFLEX

More Related