Neuroblast
-blast is the medical terminology combining form meaning immature or embryonic.-blast is the medical suffix meaning immature cell.
you would say what a nerve cell is made of (cell wall, nucleus, membrane...) and then maybe put a diagram at the bottom of your explanation so the reader can fully understand what you mean.
The process of an embryonic stem cell developing into a specific type of cell, such as a nerve, muscle, skin, or blood cell, is called differentiation. In differentiation, the stem cell undergoes changes in gene expression and morphology to become specialized for its specific function in the body.
The medical term for root-like structures of a nerve that receive impulses and conduct them to the cell body is "dendrites." Dendrites are specialized extensions of nerve cells that branch out to receive signals from other neurons and transmit these signals to the cell body for processing.
Hypochondral or subchondral.subchondral
Masses of nerve tissue are called ganglia. Ganglia are clusters of nerve cell bodies located outside of the central nervous system.
astrocyte
Medical term for within the cell is intra- (meaning within or inside) cellular (meaning cell) *** intracellular***-cytic
Embryonic stem cells that are pluripotent can develop into any type of cell.
Well, the human body contains a lot of neurons. Neurons also send signal to other neurons. so i don't think that neurons divide, but what i do know is that our neurons in the brain starts to develop during Embryonic development. i hope this help you with your question.
Human embryonic and adult stem cells each have advantages and disadvantages regarding potential use for cell-based regenerative therapies. ... Adult stem cells are thought to be limited to differentiating into different cell types of their tissue of origin. Embryonic stem cells can be grown relatively easily in culture.
Nerve cell adhesion molecules are proteins that play a crucial role in the development and function of the nervous system by mediating cell-cell interactions. They are involved in processes such as cell adhesion, migration, and signaling, which are essential for the proper functioning of neurons. Examples of nerve cell adhesion molecules include NCAM, L1CAM, and cadherins.