Yes, neural tissue is considered soft tissue. Soft tissues are tissues that support, connect, or surround other structures and usually have a softer consistency compared to bones. Neural tissue includes the brain, spinal cord, and nerves, which are all made up of cells and fibers that are softer and more pliable compared to bones.
Yes, the pituitary gland is composed of both glandular and neural tissue. The anterior pituitary is primarily glandular and produces and releases hormones, while the posterior pituitary is neural tissue that stores and releases hormones produced by the hypothalamus.
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glial cells
Immune cells called microglia engulf and digest invading microorganisms as well as dead neural tissue in the central nervous system (CNS). They serve as the primary immune defense within the CNS and help to maintain tissue homeostasis by removing unwanted material.
The soft white fat tissue is known as adipose tissue. It is a type of loose connective tissue that stores energy in the form of fat cells called adipocytes. Adipose tissue also helps cushion and insulate the body.
neural tissue
The Epiderm
the brain
No, the adrenal cortex is not made of neural tissue. It is the outer region of the adrenal glands and is derived from mesoderm, not neural tissue. The adrenal cortex is responsible for producing hormones such as cortisol and aldosterone.
Yes, the pituitary gland is composed of both glandular and neural tissue. The anterior pituitary is primarily glandular and produces and releases hormones, while the posterior pituitary is neural tissue that stores and releases hormones produced by the hypothalamus.
Neural
transmitt massages
Microglia
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A CT would show an abnormally large cranial vault with increased soft tissue opacity within the cranial vault. An MRI would be able to distinguish between the pathologic fluid and the neural tissue remaining.
Neural tissue is formed by neural stem cells, which are progenitor cells found in the nervous system. These stem cells have the ability to differentiate into various types of neural cells like neurons, astrocytes, and oligodendrocytes, ultimately forming the intricate network of the nervous system.
Acetylcholine