The trigeminal nerve is primarily responsible for sensory functions.
The trigeminal nerve is responsible for transmitting sensory information from the face to the brain. In trigeminal neuralgia, this nerve becomes irritated or compressed, causing severe facial pain.
The trigeminal nerve (V cranial nerve) is primarily responsible for sensory innervation of the lower gums, teeth, lips, and palate. Specifically, the branches involved in this innervation are the mandibular nerve (V3) for the lower gums and teeth and the maxillary nerve (V2) for the lips and palate.
the trigeminal nerve (V) controls the movement of eight muscles, including the four muscles of mastication.The muscle that are involved in chewing food are the, temporalis, the masseter and the pterygoids.
None actually go to the tongue... Trigeminal nerve - (V) fifth cranial nerve V1: Ophtalmic-eye, forehead and nose.1-Sensory V2: Maxillary - upper teeth, gums and lip, the cheek, lower eyelid and the side of the nose.1-Sensory V3: Mandibular - lower teeth, lower gums and lower lip.1-Sensory - Jaw.2-Motor 1SENSORY: Transmits pressure, touch, pain and temperature signals to the brain. 2MOTOR: Controls movement. http://www.tnaaustralia.org.au
The mixed nerve house is a term used to describe cranial nerves, such as the trigeminal nerve, that contain both sensory and motor fibers. These nerves perform a combination of functions, including transmitting sensory information like touch and pain sensations as well as controlling muscle movements. The mixed nature of these nerves allows for complex sensory and motor functions to be carried out efficiently.
The trigeminal nerve is responsible for transmitting sensory information from the face to the brain. In trigeminal neuralgia, this nerve becomes irritated or compressed, causing severe facial pain.
It is the Trigeminal Nerve
The trigeminal nerve (V cranial nerve) is primarily responsible for sensory innervation of the lower gums, teeth, lips, and palate. Specifically, the branches involved in this innervation are the mandibular nerve (V3) for the lower gums and teeth and the maxillary nerve (V2) for the lips and palate.
its the sensory neurone ... silly ;D
The trigeminal nerve, specifically the mandibular division (V3), is responsible for conducting sensory impulses for the lower teeth. This nerve carries sensory information from the lower jaw to the brain.
The trigeminal nerve (cranial nerve V) carries sensory information to the diencephalon. It is responsible for transmitting sensory information from the face, including touch, temperature, and pain sensations.
The body section that is responsible for sensory functions on an insect is the head. It is where the antenna is located, which perceives odors, touch, humidity, vibration, wind velocity and direction
the trigeminal nerve (V) controls the movement of eight muscles, including the four muscles of mastication.The muscle that are involved in chewing food are the, temporalis, the masseter and the pterygoids.
The medulla oblongata is primarily responsible for relaying motor information. It regulates vital functions such as heart rate, breathing, and blood pressure. Sensory information is processed higher up in the brain, such as in the thalamus and cerebral cortex.
None actually go to the tongue... Trigeminal nerve - (V) fifth cranial nerve V1: Ophtalmic-eye, forehead and nose.1-Sensory V2: Maxillary - upper teeth, gums and lip, the cheek, lower eyelid and the side of the nose.1-Sensory V3: Mandibular - lower teeth, lower gums and lower lip.1-Sensory - Jaw.2-Motor 1SENSORY: Transmits pressure, touch, pain and temperature signals to the brain. 2MOTOR: Controls movement. http://www.tnaaustralia.org.au
Trigeminal neuralgia is a rare disorder of the sensory fibers of the trigeminal nerve (fifth cranial nerve), which innervate the face and jaw. The neuralgia is accompanied by severe, stabbing pains in the jaw or face.
A mixed nerve, such as the trigeminal nerve, contains both sensory and motor fibers that can send and receive messages. These nerves are responsible for carrying both sensory information from the body to the brain and motor commands from the brain to the muscles.