The ventricular system in four different angles.
Somatic sensory neuron dendrite location series#
This system is an interconnected series of spaces within the brain, which contains the CSF (Figure 1.7). The ventricular system is a derivative of the primitive embryonic neural canal. The CSF is produced by the choroid plexus, which is composed of a specialized secretory ependymal layer located in the ventricular system. The CSF serves to support the CNS, and to cushion as well as protect it from physical shock and trauma. In this space, there is a clear liquid known as the CSF. The space between the arachnoid and the pia is known as the subarachnoid space. The space between the dura and the arachnoid is known as the subdural space.
The space between the skull and the dura is known as the epidural space. The meninges are subject to viral and bacterial infection known as meningitis, a life-threatening condition that requires immediate medical treatment. Blood vessels located on the surface of the brain and the spinal cord are found on top of the pia matter. The inner most delicate connective tissue membrane of collagenous is the pia mater, a thin translucent elastic membrane adherent to the surface of the brain and the spinal cord. It is separated from the inner pia layer by subarachnoid space, which is filled with cerebrospinal fluid. The second, or the intermediated membrane, is a delicate non-vascular membrane of fine collagenous layer of reticular fibers forming a web-like membrane, known as the arachnoid (Greek for “spider”). The most external is a dense collagenous connective tissue envelope known as the dura mater (Latin for “hard mother”). The meninges are composed by three fibrous connective tissues (Figure 1.6).
It is protected from the external environment by three barriers: skull, meninges, and cerebral spinal fluid (CSF). The central nervous system, which includes the spinal cord and the brain, is the most protected organ in the human body. These nerves make synaptic connections in the spinal cord or in the medulla oblongata and ascend to subcortical nuclei. The spinal cord is an essential link between the peripheral nervous system and the brain it conveys sensory information originating from different external and internal sites via 31 pairs of spinal nerves (Figure 1.5). The gray matter is composed of neurons and their supporting cells and is enclosed by the white matter that is composed of a dense layer of ascending and descending nerve fibers. The spinal cord is an elongated cylindrical structure lying within the vertebral canal, which includes the central canal and the surrounding gray matter. The caudal end of the myelencephalon develops into the spinal cord. The myelencephalon (spinal cord-like) includes the open and closed medulla, sensory and motor nuclei, projection of sensory and motor pathways, and some cranial nerve nuclei. The metencephalon includes the pons and the cerebellum.
Lateral view of the metencephalon and a spinal cord section with ventral and dorsal root fibers, and dorsal root ganglia. The cerebral cortex consists of various types of cortices (such as the olfactory bulbs, Figure 1.2B) as well as closely related subcortical structures such as the caudate nucleus, putamen, globus, amygdala and the hippocampal formation (Figure 1.2C). The telencephalon includes the cerebral cortex (cortex is the outer layer of the brain), which represents the highest level of neuronal organization and function (Figures 1.2A and 1.2B). The mesencephalon, metencephalon, and the myelencephalon comprise the brain stem. These three vesicles further differentiate into five subdivisions: telencephalon, diencephalon, mesencephalon, metencephalon, and the myelencephalon (Figure 1.1B). The brain and the spinal cord arise in early development from the neural tube, which expands in the front of the embryo to form the three primary brain divisions: the prosencephalon (forebrain), mesencephalon (midbrain), and rhombencephalon (hindbrain) (Figure 1.1A). The adult spinal cord is approximately 40 to 50 cm long and occupies about 150 cc. It occupies a volume of about 1400 cc - approximately 2% of the total body weight, and receives 20% of the blood, oxygen, and calories supplied to the body. The adult human brain weighs between 1,200 to 1,500 g and contains about one trillion cells. Lateral view of human embryo at the beginning of the 3rd (A) and 5th (B) week of gestation.
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