Written by students who passed Immediately available after payment Read online or as PDF Wrong document? Swap it for free 4.6 TrustPilot
logo-home
Summary

Summary Full explanation of Nervous system

Rating
-
Sold
-
Pages
5
Uploaded on
08-02-2025
Written in
2024/2025

A Full explanation with an easy language of Nervous System, with examples and clarification

Content preview

Introduction to Nervous Tissue Histology

 Nervous system includes cells that resemble stars and neurons branching like bare
trees.
 Purpose: Send and receive electrical signals, facilitating body communication.

Organization of the Nervous System
 Central Nervous System (CNS): Brain and spinal cord.
 Peripheral Nervous System (PNS): Nerves branching out from the CNS.

Anatomy of Nerves and Neurons
 Nerves are made of clusters of smaller neurons, similar to electrical cables.
o Transverse Cross-Section: Shows nerve as a "busy" cluster of cells.
o Longitudinal Section: Shows axons running along the nerve's length.
Connective Tissue Layers around Nerves
 Epineurium: Outermost layer; dense, irregular connective tissue.
 Perineurium: Wraps each bundle (fascicle) of neurons.
 Endoneurium: Surrounds individual neuron cells.

Neuron Structure
 Neuron Components:
o Cell Body (Soma): Contains nucleus and organelles.
o Dendrites: Branches that receive impulses from other cells.
o Axon Hillock: Starting point for impulses traveling down the axon.
o Axon: Long structure carrying electrical impulses; can be over a meter long.
o Axon Terminals: End branches that release neurotransmitters to communicate
with other cells.

Types of Neurons
 Myelinated vs. Unmyelinated Neurons:
o Myelinated: Have a myelin sheath (fatty layer) that speeds up signal
transmission.
o Unmyelinated: Lack myelin, resulting in slower signal transmission.
Neuron Types by Shape and Function
 Multipolar Neurons: Most common; one axon with multiple dendrites, found in
brain and spinal cord.
 Bipolar Neurons: One axon and one dendritic tree; found in sensory organs like the
retina.
 Unipolar Neurons: One axon, no dendrites; often found in sensory pathways.

Cell Types in Nervous Tissue
 Neurons: Main signaling cells.
 Glial Cells: Supportive cells; provide structure, protection, and metabolic support.
Types of Glial Cells

,  Astrocytes: Star-shaped; regulate the blood-brain barrier, support synapses, and clear
excess neurotransmitters.
 Oligodendrocytes: Produce myelin in the CNS (brain and spinal cord).
 Schwann Cells: Produce myelin in the PNS.

Myelin and Signal Transmission
 Myelin Sheath: Fatty layer around axons that increases signal speed.
o White Matter: Myelinated axons; faster signal transmission.
o Gray Matter: Unmyelinated fibers; slower transmission.
Types of Axons by Speed and Diameter
 Type 1a Fibers: 4-20 µm wide, myelinated, transmit signals at 70-120 m/s.
 Type B Fibers: 1-4 µm wide, myelinated, slower than Type 1a.
 Type C Fibers: 0.2-1.5 µm wide, unmyelinated, conduct at 0.5-2.5 m/s.

Central Nervous System (CNS) Histology
 Spinal Cord:
o White Matter: Made of myelinated fibers.
o Gray Matter: Dense, unmyelinated fibers arranged in horn-like structures
(anterior, lateral, dorsal horns).
 Brain:
o Meninges: Layers surrounding the brain.
 Dura Mater: Outer layer, dense connective tissue.
 Arachnoid Layer: Middle layer, spiderweb-like.
 Pia Mater: Innermost, delicate layer.
o Cerebrum Layers:
 Cerebral Cortex: Outer layer with six layers.
 Subcortical White Matter: Deep layer under the cortex.

Example Explanation of Histology Terminology
 Epineurium, Perineurium, Endoneurium: Similar to muscle layers (epimysium,
perimysium, endomysium) but named for nervous tissue.
 Myelinated vs. Unmyelinated: Like comparing insulated and bare electrical wires;
myelin acts as insulation for faster impulse travel.

Overview of Action Potential in Neurons
 Communication in Neurons:
o Dendrites: Receive incoming signals.
o Axon: Carries outgoing signals to the nerve terminal for communication with
other cells.
o Action Potential: Electrical signal that travels along the axon, allowing fast
communication across the neuron.

Resting Membrane Potential
 Definition: Electrical difference across the neuron membrane when at rest.

Written for

Document information

Uploaded on
February 8, 2025
Number of pages
5
Written in
2024/2025
Type
SUMMARY

Subjects

  • nervous system
$9.99
Get access to the full document:

Wrong document? Swap it for free Within 14 days of purchase and before downloading, you can choose a different document. You can simply spend the amount again.
Written by students who passed
Immediately available after payment
Read online or as PDF

Get to know the seller
Seller avatar
krampour

Get to know the seller

Seller avatar
krampour Clarkson University
View profile
Follow You need to be logged in order to follow users or courses
Sold
-
Member since
2 year
Number of followers
0
Documents
4
Last sold
-

0.0

0 reviews

5
0
4
0
3
0
2
0
1
0

Why students choose Stuvia

Created by fellow students, verified by reviews

Quality you can trust: written by students who passed their tests and reviewed by others who've used these notes.

Didn't get what you expected? Choose another document

No worries! You can instantly pick a different document that better fits what you're looking for.

Pay as you like, start learning right away

No subscription, no commitments. Pay the way you're used to via credit card and download your PDF document instantly.

Student with book image

“Bought, downloaded, and aced it. It really can be that simple.”

Alisha Student

Working on your references?

Create accurate citations in APA, MLA and Harvard with our free citation generator.

Working on your references?

Frequently asked questions