Neurulation - Neural Tube formation - Third Week Embryology

MedicoVisual - Visual Medical Lectures

15 Apr 202108:39

Summary

TLDRDr. Azar explains neurulation, the critical process during embryonic development that leads to the formation of the neural tube, which becomes the brain and spinal cord. Initiating in the third week, the ectoderm thickens to form the neural plate, which then invaginates to create the neural groove and folds. Neural crest cells arise from these folds, migrating to develop essential structures, including parts of the peripheral nervous system. The closure of cranial and caudal neuropores is vital; their failure can result in severe anomalies like anencephaly and spina bifida, highlighting the importance of this developmental stage.

Takeaways

😀 The neural tube is the structure from which the brain and spinal cord develop.
😀 Neurolation begins in the third week of embryonic development.
😀 The ectoderm is the outer layer of the embryo, which forms the neural plate.
😀 The neural plate thickens and invaginates to form the neural groove and neural folds.
😀 Neural crest cells arise from the neural folds and migrate to form various structures in the body.
😀 Neural crest cells are crucial for the development of the peripheral nervous system and other tissues.
😀 The neural tube has two openings: the cranial neuropore and the caudal neuropore.
😀 The cranial neuropore closes around the 24th day, while the caudal neuropore closes by the 28th day.
😀 An open cranial neuropore can lead to anencephaly, resulting in severe brain malformations.
😀 Spina bifida occurs when the caudal neuropore remains open, leading to incomplete spinal cord formation.

Q & A

What is neutralization in the context of embryonic development?
-Neutralization is the process by which the neural tube develops, which is the structure from which the brain and spinal cord are formed.
At what stage of development does the process of neutralization begin?
-The process of neutralization begins during the third week of embryonic development.
What is the neural plate and how is it formed?
-The neural plate is a localized thickening of the ectoderm that forms as part of the early development process, specifically induced by structures like the notochord and primitive node.
What are neural folds and neural grooves?
-Neural folds are the raised edges of the neural plate, while the neural groove is the depression that forms between the folds as the neural plate invaginates.
What role do neural crest cells play in development?
-Neural crest cells separate from the neural folds and migrate to various parts of the body to form important structures, including parts of the peripheral nervous system and other key tissues.
What are the cranial and caudal neuropores?
-Cranial and caudal neuropores are the openings at the ends of the neural tube that remain open during early development; the cranial neuropore closes around the 24th day and the caudal around the 28th day.
What are the consequences if the cranial neuropore remains open?
-If the cranial neuropore remains open, it can lead to a condition known as anencephaly, where significant portions of the brain do not develop properly.
What is spina bifida?
-Spina bifida is a condition that occurs if the caudal neuropore remains open, resulting in a split spinal cord and improper formation of the spinal cord.
How do the neural tube and ectoderm interact during development?
-As the neural tube forms, it detaches from the ectoderm, which then becomes the surface ectoderm, while the neural tube itself becomes the primordium of the central nervous system.
Why are neural crest cells sometimes referred to as the 'fourth layer' of the embryo?
-Some authors refer to neural crest cells as the 'fourth layer' because they are crucial in forming many significant structures in the body, in addition to the three primary germ layers: ectoderm, endoderm, and mesoderm.