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Functions of the Nervous System

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The afferent division of the PNS transmits action potentials to the CNS. ... basis of function, sensory (afferent) neurons conduct impulses from receptors ... – PowerPoint PPT presentation

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Title: Functions of the Nervous System


1
Functions of the Nervous System
  • The nervous system has three basic functions
  • Sensory - The nervous system senses certain
    changes (stimuli) both within your body and
    outside of your body.
  • Integrative - It analyzes the sensory
    information, stores some aspects, and makes
    decisions regarding appropriate behaviors.
  • Motor - The nervous system may respond to
    stimuli by initiating muscular contractions or
    glandular secretions.
  • These three functions enable the nervous system
    the accomplishment of mental activity, the
    control of homeostasis, the regulation of other
    systems, and the control of all muscles and
    glands.

2
Divisions of the Nervous System
  • The central nervous system (CNS) consists of the
    brain and the spinal cord.
  • The peripheral nervous system (PNS) consists of
    nerves and ganglia outside the CNS.
  • The afferent division of the PNS transmits action
    potentials to the CNS.
  • The efferent division carries action potentials
    away from the CNS.
  • The PNS is subdivided into the somatic motor
    nervous system and the autonomic nervous system.
  • The somatic motor nervous system which
    innervates skeletal muscle is mostly under
    voluntary control.
  • The autonomic nervous system (ANS) innervates
    cardiac muscle, smooth muscle, and glands, and it
    is mostly under involuntary control.
  • The ANS has sympathetic and parasympathetic
    divisions.

3
Histology of the Nervous System
  • The cells of the nervous system include neurons
    and neuroglia.
  • Neurons receive stimuli and transmit action
    potentials.
  • Neurons consist of a cell body (soma or
    parikaryon), dendrites, and axons.
  • Neurons can be multipolar, bipolar, or unipolar.
  • On the basis of function, sensory (afferent)
    neurons conduct impulses from receptors to the
    CNS association neurons (interneurons) conduct
    impulses from one neuron to another within the
    CNS and motor (efferent) neurons conduct
    impulses to effectors.
  • Neuroglia include astrocytes, oligodendrocytes,
    Schwann cells, microglia, and ependymal cells.
  • Neuroglia are specialized tissue cells that
    support neurons, attach neurons to blood vessels,
    produce myelin sheaths around axons, and carry
    out phagocytosis.
  • Two types of neuroglia produce myelin sheaths
    oligodendrocytes myelinate axons in the CNS and
    Schwann cells myelinate axons in the PNS.

4
Nerve
5
Nerve
6
Nerve
7
Astrocytes
8
The Cerebellum
  • The cerebellum occupies the inferior and
    posterior aspects of the cranial cavity. It
    consists of two lateral hemispheres and a medial,
    constricted vermis.
  • The cerebellum is attached to the brain stem by
    three pairs of cerebellar peduncles. These
    peduncles contain both sensory and motor axons
    that carry information into and out of the
    cerebellum.
  • The cerebellum functions in the coordination of
    skeletal muscles and the maintenance of normal
    muscle tone, posture, and balance.

9
Cerebellum
10
The Cerebrum
  • The cerebrum is the largest part of the brain.
    Its cortex contains gyri (convolutions),
    fissures, and sulci.
  • The cerebral lobes are named the frontal,
    parietal, temporal, and occipital.
  • The white matter is deep to the cortex and
    consists of myelinated and unmyelinated axons
    extending to other regions as association,
    commissural, and projection fibers.
  • The basal ganglia are paired masses of gray
    matter in the cerebral hemisphere. They help
    control muscular movements.
  • The limbic system is found in the cerebral
    hemispheres and diencephalon. It functions in
    emotional aspects of behavior and memory.

11
Cerebrum
12
The Cerebrum
  • The sensory areas of the cerebral cortex are
    concerned with the interpretation of sensory
    impulses.
  • The motor areas are the regions that govern
    muscular movement.
  • The association areas are concerned with more
    complex integrative functions such as recognition
    of information.
  • Speech involves the sensory speech area, the
    motor speech area, and the interactions between
    them and other cortical areas.
  • Memory consists of sensory (lasting less than 1
    sec), short-term (lasting a few minutes), and
    long-term (permanent) memory.
  • Each hemisphere controls the opposite half of the
    body. Commissures connect the two hemispheres.
    The left hemisphere is thought to dominate
    analytical, while the left is dominant for
    spatial perception and musical ability.

13
Neural Terms
  • Ganglia - A cluster of neuron cell bodies outside
    of the CNS. Located in the PNS.
  • Nucleus - A cluster of neuron cell bodies in the
    CNS.
  • Nerve - A group of axons and dendrites located in
    the PNS.
  • Fiber tract - A group of axons and dendrites
    located in the CNS.
  • Decussation- The crossing of nerve tracts from
    one side to the other within the CNS.
  • Contralateral - On the opposite side affecting
    or controlling the opposite side of the body.
  • Ipsalateral - On the same side affecting or
    controlling the same side of the body.

14
Development of the Nervous System
  • The development of the nervous system begins with
    a thickening of ectoderm called the neural plate.
  • The parts of the brain develop from primary and
    secondary vesicles.
  • The primary vesicles include the prosencephalon
    (forebrain), mesoencephalon (midbrain), and the
    rhombencephalon (hindbrain).
  • There are five secondary vesicles.
  • The prosencephalon divides into an anterior
    telencephalon and a posterior diencephalon.
  • The mesencephalon remains unchanged.
  • The rhombencephalon divides into an anterior
    metencephalon and a posterior myelencephalon.

15
Neural Crest Cell Derivatives
  • Bones of the skull
  • Pharyngeal arch cartilages
  • Otic capsule
  • Stroma of the thyroid, parathyroid, thymus and
    salivary glands.
  • Adrenal medullary cells
  • Enteric neurons
  • Sympathetic neurons
  • Sensory neurons
  • Schwann cells
  • Pigment cells
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