Nervous Tissue And Organisation Of The CNS, PNS, ANS And Sensory Networks

Question 1

Define the CNS and PNS

Answer 1

The nervous system can be divided into two parts:
- Central nervous system (CNS): Brain and spinal cord. Contains relay neurones
- Peripheral nervous system (PNS): Cranial nerves and spinal cord. Contains sensory neurones and motor neurone.

Question 2

Describe the structure of grey and white matter

Answer 2

Grey matter is found in the peripheral in brain and in ‘nuclei’. They are where the nerve cell bodies are found. They also consist of: dendrites, axon terminals, non-myelinated axons, neuralgia (support cells). Grey matter has a ‘butterfly shape’ in spinal cord. Contain ventral and dorsal horns and are connected by grey commissure.
White matter is found in the central in brain and peripheral in spinal cord. They consist of myelinated material.

Question 3

Describe the structure of a neuron

Answer 3

Neurones are a normal complement of cell organelles. They are cytoplasmic projections and contain many dendrimers with just one axon.
The main cell body (soma), dendrites and proximal part of the axon are within the CNS. Often coated in myelin.
In the CNS, the myelin is produced by and is part of an oligodendrocyte. In the PNS, the myelin is produced by and is part of a Schwann cell

Question 4

What are the types of neurones

Answer 4

Motor - Location: CNS to periphery. Function: Sends signals to effector tissues
Sensory - Location: Periphery towards CNS. Function: Send environmental signals to integrative centre
Integrative - Location: CNS. Function: Collate all information.
Anaxonic - Location: Retina. Function: Act as relay
Pseudo unipolar, bipolar and postsynaptic auto mic neurone cell bodies are found outside CNS.
Purkinje and pyramidal cells are restricted to CNS. Many have elaborate dendritic aborisation

Question 5

Explain neurotransmitter synthesis

Answer 5

1) Synthesis of neurotransmitter and formation of vesicles.
2) Transport of neurotransmitter down axon
3) Action potential down axon
4) Action

Question 6

What are the different types of synapses

Answer 6

Axosomatic - Direct to plasma membrane of nerve or cell
Axodendritic - Axon terminal synapses with a dendritic spine
Axoaxonic - Synapse at the axon if bouton. Axoaxonic synapse may enhance/I hit axodendritic synsapse
Dendritic-dendritic - Found at back of retina
Axo-axonal - Impinging dendritic/axonal synapse usually inhibits other inputs

Question 7

Explain the connective tissue layers found in peripheral nerves

Answer 7

All 3 nerve fibres found in peripheral nerves. Separated by connective tissue layers:
- Endoneurium: Loose connect tissue that surround single nerve cells/axon
- Perineurium: Specialised connective tissue - transport proteins. Maintains ionic composition and surrounds clusters of axons (fascicle)
Epineurium: Dense irregular connective tissue that separates different types of nerves and fill spaces between fascicles
Paraneurium: fascia that separates nerves from surrounding structures.

Question 8

What is myelin and how does myelination occur.

Answer 8

CNS - Myelin produced by oligodendrocyte
PNS - Myelin produced by a Schwann cell
Myelination
1) Axon sits in groove surround by a Schwann cell
2) The mesaxon membrane initiate myelination by surrounding the embedded axon
3) A sheet-like extension of the mesaxon membrane then wraps successively around axon, forming multiple membrane layers.
4) Cytoplasm extruded from between two appointments plasma membranes of Schwann cell, which compacts forming myelin.

Question 9

What are astrocytes and Microglial cells

Answer 9

Astrocytes have a star-like structure. They have perineural ‘feet’ that contain gap junctions, for biochemical support of nutrients (lactate) from blood to nerve cells. They regulate nerve impulses by releasing glutamate. They contribute to the blood-brain barrier.
Microglial cells - Large cells with elongated nucleus and fewer processes emanating from cell body. Found throughout CNS. There is a resident macrophage which has immune function, removes damaged nerve cells and sense increased potassium ions

Question 10

Explain the function of Schwann cells and node of Ranvier

Answer 10

Schwann cells are a type of glial cell that surrounds neurones keeping them alive and sometimes coving them with a myelin sheath and are the major glial cell type in the peripheral nervous system.
Nodes of Ranvier are microscopic gaps found within myelinated axons. Their function is to speed up propagation of action potentials along the axon via saltatory conduction

Question 11

Explain the role of glial cells

Question 12

Identify nerve fibres in both cross section and longitudinal section

Question 13

Explain the structure of the spinal cord in the transverse section and their histological features

Question 14

Explain the structure of ependymal cells

Question 15

Explain the symptoms, sign and causes of multiple sclerosis

Question 16

Give an outline of the anatomy of the central (CNS), Peripheral (PNS) and autonomic (ANS).

Answer 16

The nervous system contains 2 main divisions:
- Central nervous system (consisting of the brain, and spinal cord).
- Peripheral nervous system consisting of cranial and spinal nerves
- Autonomic nervous system (ANS) is a subregion of the peripheral nervous system and consist of ganglia and associated nerve fibres.

Question 17

Outline the division of the ANS into the sympathetic and parasympathetic nervous systems and describe the different pathways.

Answer 17

The autonomic nervous system is a motor system but unlike the somatic nervous system, it has a chain of 2 neurones between the CNS and the target organ.
Important target for sympathetic nervous system is blood vessels, whilst an important target for the parasympathetic are glands.
In the sympathetic, the preganglionic is short whilst the postganglionic is short. (Vice versa in parasympathetic.
Pregangliotic is myelinated whilst postganglionic is not.
Preganglionic sympathetic live in the lateral horn in the thoracic region. Preganglionic in the parasympathic is in the S2-S4 segment and brain stem.

Question 18

Sympathetic vs parasympathetic systems

Answer 18

Sympathetic: Short preganglionic axon. Long postganglionic axon. Contain the sympathetic chain (chain of ganglei grouped together).
Parasympathic: Ganglions are found within the walls of the target organs. Proves how parasympathic have long preganglionic and short postganglionic.

Question 19

Explain distribution in the sympathetic nervous system

Answer 19

To the skin:
Sympathies preganglionic so arising in the T1-L2 cord supply the skin via 1 of 3 routes:
- Synapse at level of entry (to supply dermatomes at the T1-L2 levels)
- Ascend the chain then synapse (typically to supply the head and neck)
- Descend the chain then synapse (typically to supply the lower limbs.