CNS Development - Anatomy & Physiology

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Formation of Neural Tissue - © Sophie Stenner
Neural Tube Formation - © Sophie Stenner

Introduction

Development of the Central Nervous System (CNS) includes development of the brain, spinal cord, optic and auditory systems, as well as surrounding supporting cells including ependymal cells, astrocytes, oligodendrocytes and microglia. Information within this page will exclude development of the Peripheral Nervous System (PNS) which includes nerve and ganglia formation. For further information on PNS development, please see the PNS development page.

For the appropriate development of the CNS a number of important basic requirements must be achieved. For example, the appropriate haemopoeitic cells must differentiate into specific cells (either neurons or glia) and any axons must extend to appropriate positions in order to form synapses. Development of the CNS is a complex process and complete coordination is required to facilitate the correct procedure of cell differentiation and the establishment of the correct intracellular connections. A range of neurotrophic factors regulate these interactions including FGF, nerve growth factor, laminin, brain derived neurotrophic factor and neurotrophin 3.

Developmental Origins

The embryological origin of the CNS is from the neural ectoderm which is a ridge of tissue in the centre of the early embryo once the basic blastula has undergone a degree of differentiation. The neural ectoderm is formed via the thickening of the ectoderm and it's interaction with underlying basic neural tissues including the notochord. This interaction results in the formation of the neural plate, termed the neuroectoderm.

Neurulation



In the presence of the Lateral Plate Mesoderm (LPM) factor however, ectoderm forms epidermis. To overcome this in development the notochord secretes a LPM factor antagonist allowing the formation of neuroectoderm directly above it. This forms the neural plate and folds to form the neural tube. WIKIVETneuraltubeformation.jpg

Brain Differentiation - © Sophie Stenner
  • Differentiation of the neural tube at the anterior then forms the brain.
  • The diagram on the right shows how the brain transforms during development.

Origins of Functional Types of Neurone

Cross Section of Spinal Cord - © Sophie Stenner
Nerve Origin
Sensory - Afferent Neural crest
Motor - Efferent Basal plate of neural tube
Association - Interneurones Alar plate of neural tube



This article is still under construction.


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