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chapter 9 histology janquira summary

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Summary study book Junqueira's Basic Histology of Luiz Carlos Uchôa Junqueira, Anthony L. Mescher - ISBN: 9781259072321

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  • October 5, 2020
  • 8
  • 2018/2019
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Chapter 9:

 Cells in CNS and PNS are of 2 kinds: nerve cells (neurons) and glial cells.
 Membrane polarization: reacting to stimuli by reversal of ionic gradient and propagation.
 Action potential (depolarization wave or nerve impulse): capable of traveling long distance
transmitting signals to other neurons, muscles and glands.
 Development of nerve tissues:
o Develops from the outermost layer of embryonic layers  the ectoderm
o Signals from notochord  ectoderm on the mid-dorsal side of the embryo thickens to
form the epithelial neural plate.  fuse to form neural tube.  cells of this tube give
rise to the entire CNS, including neurons and most glial cells.
 Neurons:
o Functional unit in both CNS and PNS
o Has 3 main parts:
 Cell body (perikaryon): contains nucleus and most of cell’s organelles and serves
as the synthetic or trophic center for the entire neuron.
 Dendrites: numerous elongated processes extending from the perikaryon and
specialized to receive stimuli from other neurons at unique sites called
synapses.
 Axon: single long process ending at synapses specialized to generate and
conduct nerve impulses to other cells.
o Classification of neurons:
 Multipolar neurons:
 1 axon and two or more dendrites
 Bipolar neurons:
 1 dendrite and one axon
 Mostly found in sensory organs (eye, ear…)
 Unipolar (pseudounipolar) neurons:
 Single process that bifurcates close to the perikaryon with the longer
branch extending to a peripheral ending and the other toward the CNS.
 Found in spinal ganglia and cranial ganglia.
 Anaxonic neurons:
 Many dendrites but no true axon.
 Do not produce action potentials but regulate electrical changes of
adjacent neurons.
o Most neurons are multipolar.
o Can also be divided to afferent (sensory neurons that receive stimuli from the receptors
throughout the body) and efferent (motor neurons that send impulses to effector
organs).
 The autonomic motor nerves control the “involuntary” activities while somatic
motor nerves control voluntary.
o Interneurons establish relationships among other neurons forming complex functional
networks (circuits). They are generally multipolar or anaxonic and include 99% of the
neurons in human CNS.

, o Cell bodies are in gray matter. Axons are concentrated in white matter.
o In PNS, cell bodies are found in ganglia and in some sensory regions while axons are
bundled in nerves.
o 3 parts:
 Cell Body:
 Its cytoplasm has highly developed TRT with many parallel cisternae and
neighboring polyribosomes active production of cytoskeletal proteins
and proteins for transport and secretion.
 Chromatophilic substance (Nissi bodies): concentrated RTR and other
polysomes that appear basophilic.
 Golgi apparatus only found in cell body while mitochondria can be
found along the cell.
 Neurofilaments: intermediate filaments found in both the perikarya (cell
body) and processes.
 They also have microtubules.
 Dendrites:
 They increase the receptive area of the cell
 Dendritic spines: short blunt structures projecting at points along
dendrites where synapses impinging on neurons occur.
 They are important in neural plasticity underlying adaptation, learning
and memory.
 Axons:
 Most neurons have only 1 axon
 Originate from pyramid-shaped region of cell body called axon hillock,
 Axolemma: plasma membrane of axon
 Axoplasm: contents of axon.
o Contains mitochondria, microtubules, neurofilaments, cisternae
of smooth ER, NO polyribosomes or RER. (it depends on
perikaryon for maintenance)
 Initial segment: area just beyond axon hillock which sums excitatory and
inhibitory signals, deciding which to propagate.
 Distal end of axon forms a terminal arborization.
 Collaterals: branches from axons of interneurons and some motor
neurons that end at synapses influencing the activity of many other
neurons.
 Terminal bouton: ending of each branch that contacts another neuron
at a synapse.
 Bidirectional transport of small and large molecules:
o Anterograde transport: organelles and macromolecules
synthesized in the cell body move from there to synaptic
terminals.
o Retrograde transport: opposite direction carries certain
macromolecules from periphery to cell body.

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