Nervous tissue is the term for groups of organized cells in the nervous system, which is the organ system that controls the body’s movements, sends and carries signals to and from the different parts of the body, and has a role in controlling bodily functions such as digestion.
Structure Of Nervous Tissue
- It is made of nerve cells or neurons, all of which consists of an axon. Axons are long stem-like projections emerging out of the cell, responsible for communicating with other cells called the Target cells, thereby passing impulses
- The main part is the cell body which contains the nucleus, cytoplasm and cell organelles. Extensions of the cell membrane are referred to as processes.
- Dendrite is a highly branched processes, responsible for receiving information from other neurons and synapses (specialized point of contact). Information of other neurons is provided by dendrites to connect with its cell body.
- Information in a neuron is unidirectional as it passes through neurons from dendrites, across the cell body down the axon.
Characteristics Of Nervous Tissue
- Nervous tissue makes up for the CNS and PNS of the nervous system
- Contains two distinct cells – neurons and glial cells
- It consists of the dendrites, cell body, axon and nerve endings.
- Neurons secrete chemical neurotransmitters which are responsible for stimulating other neurons as a result of a stimuli
- Presence of specialization at axonal terminals called synapsis
- Nerve cells live long, cannot be divided and replaced(except memory cells)
Function Of Nervous Tissue
- Neurons generate and carry out nerve impulses. They produce electrical signals that are transmitted across distances, they do so by secreting chemical neurotransmitters.
- Responds to stimuli
- Carries out communication and integration
- Provides electrical insulations to nerve cells and removes debris
- Carries messages from other neurons to the cell body
Types Of Nerves
The signals that are generated and initiated in the CNS(central nervous system) which typically arise from the brain and in some cases, the spinal cord, approach the outer edge to sites, for instance, the internal organs or limbs which conduct the specified organ of interest to take appropriate action. Responding to the nerve impulses, suitable actions take place such as contraction of a bicep muscle, retracting your hands from a hot cup of tea, the hair on your arms may raise due to extremely cold conditions, responding to light striking the retina, when one of the sense organs receive an input that may cause danger, etc.
The functioning of the nerves is brought about by channelling electrochemical signals or impulses that are obtained from the other nerves or brain or tissues or organs at which the nerves end. On the basis of functionality, nerves can be classified into the following:
Motor nerves
Motor neurons or motor nerves are responsible to send signals or impulses all the way from spinal cord and brain to all the muscles of the body. The impulse enables humans to carry out basic activities such as talking, walking, drinking water, blinking eyes, sitting, sleeping, etc. Damage to the motor neurons can cause muscle weakness or shrinking of the muscles. The nerve that passes from the lower back to the buttocks is known as the sciatic nerve. The sciatic nerve enables the complete leg to move which is a collection of various nerves. A few of these motor nerves function in the hamstring, feet, thighs, and feet.
Sensory nerves
The sensory nerves or sensory neurons are responsible to generate impulses or signals in the contrasting directions from another type of nerves known as the motor neurons. The sense neurons gather information such as pressure, pain, temperature, etc from the sensors that are present in the muscles, skin and other internal organs which in turn redirect it back to the brain and spinal cord. These sensory nerves have the potential of communicating information relating to motion (except for the eyes, as they themselves do it). Damage to the sensory nerves can cause numbness, pain, tingling sensation and hypersensitivity.
Autonomic nerves
The autonomic nerves system controls the actions of the muscles of the heart, such smooth muscles located in the stomach and in the interlining of glands and other organs. The autonomic nerves regulate the functions that are not under control, i.e., involuntary. There are two functional divisions in the autonomic nervous system, namely:
- The sympathetic nervous system – Responsible for the heart rate to speed up and related flight or fight responses
- The parasympathetic nervous system – Controls activities such as excretion, digestion, and related metabolic actions.
Cranial nerves
There are 12 pairs of cranial nerves that emerge from the lower side of the brain. Listed below are the cranial nerves mentioned from front to back:
- Olfactory
- Optic
- Oculomotor
- Trochlear
- Trigeminal
- Abducens
- Facial
- Vestibulocochlear
- Glossopharyngeal
- Vagus
- Spinal accessory
- Hypoglossal nerves
The cranial nerves are crucial in smell, vision, movement of the face and eyes, movements of the tongue and salivation.
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