1. Nerve Tissue
Al-Maarefa College

2. Objective
Understand the microscopic difference between excitable and non-excitable cells present in the nervous system.

3. Nerve Tissue Cells have very high ability to Respond to stimuli
Transmit impulses

4. Nerve Tissue

5. Nerve Tissue
NEURON is the main nerve cell)

6. Nerve Tissue NEURON is the main nerve cell Cell Body(3) Dendrites (5)
Axon(1)

7. Motor Neurone
Figure 9–2. Motor neuron. The myelin sheath is produced by oligodendrocytes in the central nervous system and by Schwann cells in the peripheral nervous system. The neuronal cell body has an unusually large, euchromatic nucleus with a well-developed nucleolus. The perikaryon contains Nissl bodies, which are also found in large dendrites. An axon from another neuron is shown at upper right. It has 3 end bulbs, one of which forms a synapse with the neuron. Note also the 3 motor end-plates, which transmit the nerve impulse to striated skeletal muscle fibers. Arrows show the direction of the nerve impulse.

8. Motor Neurone Cell body Dendrites Axon Covered by Myelin sheath
Figure 9–2. Motor neuron. The myelin sheath is produced by oligodendrocytes in the central nervous system and by Schwann cells in the peripheral nervous system. The neuronal cell body has an unusually large, euchromatic nucleus with a well-developed nucleolus. The perikaryon contains Nissl bodies, which are also found in large dendrites. An axon from another neuron is shown at upper right. It has 3 end bulbs, one of which forms a synapse with the neuron. Note also the 3 motor end-plates, which transmit the nerve impulse to striated skeletal muscle fibers. Arrows show the direction of the nerve impulse.

9. Neurones
Figure 9–4. Simplified view of the three main types of neurons, according to their morphological characteristics.

10. Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy
Neuron
Multipolar
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

11. Neuron's – cerebral cortex
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

12. Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy
Neuron's – spinal cord
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

13. Nerve and Reflex Arc
Figure 9–32. Schematic representation of a nerve and a reflex arc. In this example, the sensory stimulus starts in the skin and passes to the spinal cord via the dorsal root ganglion. The sensory stimulus is transmitted to an interneuron that activates a motor neuron that innervates skeletal muscle. Examples of the operation of this reflex are withdrawal of the finger from a hot surface and the knee-jerk reflex. (Modified, redrawn, and reproduced, with permission, from Ham AW: Histology, 6th ed. Lippincott, 1969.)

14. Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy
Nerve Fiber (Axon)
Nerve fibers are long nerve cell processes (axon cylinder, axon) with a surrounding membrane
Schwann cells (neurolemmocytes, peripheral glial cells) enfold the axon and form an insulating cover known as Schwann’s sheath (neurolemma).
Stain: osmium tetroxide; magnification: × 1000
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

15. Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy
Nerve Fiber (Axon)
Myelinated nerve fiber, i.e., the axon is covered by a myelin sheath, which is rich in lipids.
Every 0.8 to 1.0 mm, a node of Ranvier subdivides the myelin sheath into segments or internodes.
Stain: osmium tetroxide; magnification: × 1000
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

16. Sciatic nerve – cross section
1 Fascicle (nerve fiber bundle)
2 Perineurium
3 Epineurium
4 Artery
5 Vein
6 Adipose
tissue
Stain: alum hematoxylin; magnification: × 10
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

17. Glial Cells Glial cells (Neuroglia) or (Glia) (Greek "glue”
Non-neuronal cells that maintain homeostasis, form myelin, and provide support and protection for the brain's neurons
They occupy the entire space between neurons and separate nerve cells from blood vessels

18. Glial Cells - Functions
Surround neurons and hold them in place
Supply nutrients and oxygen to neurons
Insulate one neuron from another
Destroy pathogens and remove dead neurons

19. Glial Cells - Types Astrocytes (macroglia) Oligodendrocytes
Microgliocytes

20. Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy
Astrocytes
Most abundant
Deal with homeostasis – relate to vessels
Figure 9–13. Drawings of neuroglial cells as seen in slides stained by metallic impregnation. Note that only astrocytes exhibit vascular end-feet, which cover the walls of blood capillaries.
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

21. Astrocytes and nerve cells
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

22. Microglia
Figure 9–13. Drawings of neuroglial cells as seen in slides stained by metallic impregnation

23. Microglia Oligodendrocytes: Closely related to neurons
Provide myelin protection for CNS neurons
Figure 9–13. Drawings of neuroglial cells as seen in slides stained by metallic impregnation

24. Neurons and glial cells
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

25. Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy
Neuron and glial cells
Kuehnel, Color Atlas of Cytology, Histology, and Microscopic Anatomy

26. Summary
Nerve Tissue Cells:
Neurons:
Myelinated
Non-myelinated

27. Summary Nerve Tissue Cells: Neurons: Neurolial cells: Myelinated
Non-myelintaed
Neurolial cells:
Astrocytes
Microglia
Oligodendrocytes