Neural Tissue Ch. 13
Synaptic terminals
a bulb at the end of an axon in which neurotransmitter are stored and released.
Dendrities
dendrites are responsible for picking up information from neighboring neurons and transmitting this information to the cell body
What is the function of the myelin sheath? What are the cells that form this sheath in the central and peripheral nervous system?
insulation - much like the coating on the outside of electrical wires. It improves speed at which nerve impulses is conducted along axon CNS- oligodendrocyte PNS- Schwann cells, The Schwann cells cytoplasm creates the second layer and is called the neurolemma.
Motor neurons
multipolar in structure, form the efferent division of the nervous system, cell bodies inside the CNS, impulses away from the CNS
Interneurons
multipolar in structure, most numerous type of neuron, inside the CNS, association neurons
What is the difference between myelinated and unmyelinated axons?
myelinated- multilayered membrane sheath composed primarily of phospholipids that wraps around (coats) axon. unmyelinated- axons that are incompletely covered by oligodendrocyte processes(cns)
Sensory neurons
pseudounipolar in structure, cell bodies outside the CNS, form the afferent division of the PNS, carry impulses to the CNS
axon hillock
the conical area of origin of the axon from the nerve cell body
Neurilemma
the outer surface of a glial cell that encircles an axon
Difference between nucleus and ganglion
-A CNS center with discrete anatomical boundaries -collection of sensory /motor neuron cell bodys
Difference between gray and white matter
-Neural tissue dominated by neuron cell bodies -Neural tissue dominated by myelinated axons
Difference between tract and nerve
-a bundle of axons within the CNS that share a common origin, destination, and function -a bundle of axons in the PNS
Difference between sensory and motor tracts
-carries sensory info from the pns to cns -carrie motor commands from cns toward pns
Compare and contrast the somatic and autonomic nervous systems.
1. SOMATIC BRANCH - output to skeletal muscle. VOLUNTARY 2. AUTONOMIC BRANCH - output to smooth muscles and glands. INVOLUNTARY
Axon
A long, slender cytoplasmic process of a neuron; axons are capable of conducting nerve impulses(( action potentials)
Astrocytes
CNS support cell -Blood-brain barrier -Structural support -Repair damaged neural tissue -Neuron development -Create 3-D framework for the CNS
Oligodendrocytes
CNS support cell -Provides myelin covering of CNS axons -Improves functional performance of neurons
Microglia
CNS support cell -Smallest of the glial cells -Phagocytic cells of the CNS -Engulf and remove cellular debris, waste products, and pathogens
What are the components of the central nervous system and the peripheral nervous system?
CNS- Brain and spinal cord PNS- The peripheral nervous (PNS) includes all of the neural tissue outside the CNS.
What are the characteristics of neural tissue?
NEURONS - responsible for transfer and processing of information SUPPORT CELLS (NEUROGLIA) - isolates the neurons, supporting framework for the neural tissue. Five times as many support cells as neurons
Satellite cells
PNS support cell -Surround neuron cell bodies in peripheral ganglia -Regulate exchange of nutrients and waste products -Isolates neurons from other cells in the ganglia
Ependymal cells
Support cell of the CNS -These cells line the ventricles of the brain -Monitor the composition of CSF
Schwann cells
Support cell of the PNS -Associated with all axons of the PNS -On some axons the Schwann cell wraps around the axon to from the myelin sheath -Typically a Schwann cell can cover or myelinate about 1mm of axon length -Space between the myelin sheath is the Node of Ranvier also called the neurofibril node -On other axons the Schwann cell is merely associated with the axon and does not wrap around - unmyelinated axons -Presence of the sheath is to "insulate" the axons and speed up rate of nerve conduction
What is the difference between the central and peripheral nervous system?
The CNS is responsible for integrating, processing, and coordinating sensory input and motor output. The PNS provides sensory information to the CNS and carries motor commands from the CNS to peripheral tissues and system.
