NERVES
NERVES a nerve is a bundle of neurons
Neuron Interaction & Integration sensory neuron sensory receptors interneuron effector Interaction Between Neurons motor neuron
Nerves 2 main types of nerve cells Glial cells –non-conducting and used for structural and nutritional support Neurons – carry nerve impulses
Typical Neuron dendrite cell body Myelin sheath Synapse axon
Neuron Structure Functional cells of NS Transmit electrochemical messages called nerve impulses to Other neurons Effectors (muscles or glands)
Neuron Structure (cont.) Neurons lose their ability to divide If destroyed, not replaced Neuralgia Support cells for neurons that can divide Astrocytes – anchor blood vessels to nerves Microglia – act as phagocytes Oligodendrocytes – assist with production of myelin sheath
Neuron Structure (cont.) Dendrites – short Receive nerve impulses for the neuron Axons – long Send nerve impulses away from the cell body Neurons have a cell body and processes called nerve fibers that extend from the cell body.
Neuron Structure (cont.) White matter – axons with myelin sheath Schwann cells Wrap around some axons Cell membranes contain myelin Myelin insulates axons and enables axons to send nerve impulses more quickly Gray matter – axons without myelin sheath Schwann cells Axon Dendrites
Myelin Sheath & Schwann Cell Nodes of Ranvier
myelinated nerve fibers are covered by neurilemma which, along with the Schwann cell, promotes the regeneration of the nerve fiber after trauma
Components of a Neuron Dendrites are short branches that surround the cell body of the neuron. Axons carry impulses away from the cell body Myelin sheath Axons may be enclosed in a fatty sheath produced by a Schwann cell or glial cell. Acts as insulation for neurons by preventing the loss of charged ions. Very white in appearance.
Neurilemma covers myelinated nerve fibers and it promotes the regeneration of the nerve fiber after trauma Nodes of Ranvier. small gaps between each Schwann cell on an axon Saltatory Action myelin sheath increases the speed of nerve transmission., from 1m/s to 100m/s or 360 Km/h
myelinated neurons form white matter in the unmyelinated grey matter myelinated nerve fibers are covered by neurilemma which promotes the regeneration of the nerve fiber after trauma Unmyelinated nerves lack a myelin sheath. These will not be regenerated after injury.
Multiple Sclerosis Not hereditary. The cause of MS is not known. T cells (immune cells) attack cells and tissues in the CNS. This results in damage to myelin, nerve fibers and the cells that make myelin.
The main functions of the nervous system: Receive information Make decisions about the response Sorts impulses and sets priorities for action i.e. walking across the street – eat a bar or drive a car Transmit impulses to the motor units (muscles) which carry out appropriate action