Cells of the Nervous system
Astrocytes
(Astroglia) Star shaped, symmetrical. Structural support for neurons. Transports substances between neurons and capillaries (blood-brain barrier). Scar tissue formation. Enhance brain activity by providing fuel to active brain regions.
Types of brain tumours
1. Gliomas - Arise from glial cells, account for half of all brain tumours 2. Meningiomas - attach to the meninges and grow entirely outside the brain 3. Metastatic tumours - transfer of tumour cells from one region of the body to another (cancer that spreads to the brain from elsewhere)
Multiple Sclerosis
A chronic disease of the central nervous system marked by damage to the myelin sheath. Plaques occur in the brain and spinal cord causing tremor, weakness, incoordination, paresthesia, and disturbances in vision and speech. Proposed causes include; bacterial or viral infection, pesticides, CNS immune response
Alzheimer's disease
A degenerative dementia associated with loss of memory and other cognitive impairments (problems with language, disorientation), behaviour issues, and changes in mood. Disease associated with abnormal clumps of proteins (plaques) and bundles of fibres (Tangles) in the brain. Patients show a loss of up to one third of their brain volume in advances cases, particularly in the limbic system.
Synapse
A junction (gap) where information is transmitted from one neuron to the next. Usually between an end foot of the axon of one neutron and a dendritic spine of another neuron.
Myelin
A layer of fatty tissue segmentally encasing the fibers of many neurons; enables vastly greater transmission speed of neural impulses as the impulse hops from one node to the next.
Dendrites
A neuron's bushy, branching extensions that receive messages and conduct impulses toward the cell body. 10-20 in each neuron.
Axon
A threadlike extension of a neuron that carries nerve impulses away from the cell body. Begin at one end of cell body, at *axon hillock*. Can have several branches called *axon collaterals*. The lower tip of the axon can further divide into smaller branches - *teleodendria*. At the end of that, is the *terminal button* (end foot)
Interneurons
AKA; Association neurons. Neurons within the brain and spinal cord that communicate internally and intervene between the sensory inputs and motor outputs.
Microglia
Act as phagocytes, eating damaged cells and bacteria, act as the brains immune system. Originate in the blood as offshoot of immune system, migrate throughout the brain. They invade regions with cell damage to aid in repair and scavenge and remove debris and dead cells (phagocytosis)
How do we see a brain cell?
Anatomists first remove most of the water from the brain by soaking it in formaldehyde. The brain is then sliced thin (sectioned) and stained with various dyes to distinguish the cells of interest from surrounding cells. The cells now places under the microscope for viewing.
Blood-Brain Barrier
Astrocytes make a protective barrier between blood vessels and the brain. End feet of astrocytes attach to cells of blood vessel, causing cells to bind together. Tight junctions prevent substances from entering the brain through blood vessel walls. Downside: many useful drugs (including antibiotics) cannot pass through blood-brain barrier.
Dendritic retraction
Characterized by marked brain atrophy (brain volume loss). Neurons can change shape, grow, shrink throughout life. In Alzheimer's, the atrophy not associated with widespread cell death but instead to shrinkage of neurons, in part through dendritic retraction (reduction in branches)
5 types of glial cells
Ependymal cell, astrocyte, microglial cell, oligodendroglial cell, Schwann cell
Two cells which help repair neurons
In the PNS, microglia and schwann cells help repair neurons (both are glial cells)
Neurons
Individual cells in the nervous system that receive, integrate, and transmit information. Three basic subdivisions; *Dendrites, Cell body (soma), and Axon.
Cell Body
Largest part of a typical neuron; contains the nucleus and much of the cytoplasm. Integrates the information.
Brain tumours
Mass of new tissue that undergoes uncontrolled growth
Oligodendroglia
Myelinate CNS axons; do not clear the debris or stimulate or guide regeneration
Two main types of cells of the nervous system
Nerouns, and Gilal cells (pl. glia)
Amyotrophic Lateral Sclerosis
Neurodegenerative motor neuron disease. Motor neurons control voluntary muscle activity (speaking, walking, swallowing, breathing) ALS defined by death of upper and lower motor neurons in the motor cortex of the brain, the brain stem and the spinal cord. Time from diagnosis to death averages 3-4 years
Sensory neurons
Neurons that carry incoming information from the sensory receptors to the central nervous system.
Motor Neurons
Neurons that carry outgoing information from the central nervous system to the muscles and glands.
Spinal Cord Injury
Paralysis - Loss of sensation and movement due to nervous system injury. In the CNS, following spinal cord injury, repair does not take place, axon regrowth may even be inhibited. Axon regeneration following spinal injury is the best hope of returning useful function.
Dendritic spines
Protrusions from dendrite, point of contact with axons from other neurons, they increase the surface area, allow more information to be gathered.
Types of neurons
Sensory, Motor, Interneurons
Ependymal Cells
Small ovoid cells found in the walls of the ventricles. Ependymal cells make and secrete cerebrospinal fluid (CSF) that fills the ventricles. CSF is constantly formed and flows through the ventricles towards base of brain where it is absorbed into blood vessels.
Neural Connections
The appearance of each neuron reveals something about the connections that it must make. In general, neurons with large cell bodies have extensions that are very long; neurons with small cell bodies have short extensions. Neurons are in constant communication. Neurons either excite other neurons, or they inhibit other neurons.
Neuron Hypothesis
The idea that the unit of the brain structure and function is the neuron or nerve cell. Proposed by Cajal, who used the Golgi stain to show that the nervous system was made up of discrete cells. Cajal and Golgi won the Nobel prize for medicine in 1906
Schwann Cell
Type of glia in the PNS, Supporting cells of the peripheral nervous system responsible for the formation of myelin.
Information flow in neuron
dendrites --> cell body --> base of axon --> axon --> axon terminus --> terminal button
Glial Cells
supportive cells of nervous system that guide growth of new neurons; forms myelin sheath; holds neuron in place; provides nourishment and removes waste
