Anatomy, Head and Neck, Mandibular Nerve


Article Author:
Rupendra Ghatak


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Jacob Ginglen


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Phillip Hynes
Sandeep Sekhon


Updated:
2/7/2019 11:41:53 PM

Introduction

The fifth cranial nerve is known as the trigeminal nerve and has 3 branches which are the ophthalmic, maxillary, and mandibular. The third branch is called the mandibular nerve (V3). It is the largest of the 3 branches and carries both afferent and efferent fibers. The first 2 branches of the trigeminal nerve carry only afferent fibers. The mandibular nerve innervates the lower face and the mandible, including the teeth, the temporomandibular joint, and the mucous membrane of the mouth and the anterior two-thirds of the tongue, the mastication muscles, and some smaller muscles.[1][2][3]

Structure and Function

From the brain stem, the mandibular branch arises from 3 nuclei (mesencephalic, principal sensory and spinal) and gives rise to the sensory root and one motor nucleus gives rise to the motor root of the nerve. The motor root runs along the floor or the trigeminal cave and joins the larger sensory root before leaving the cranium base as the mandibular branch of the trigeminal nerve through the foramen ovale in the sphenoid bone and enters the infratemporal fossa. Near the skull base, the main trunk immediately gives off the sensory meningeal branch and motor muscular branches to the medial pterygoid, tensor tympani, and tensor veli palatini. After that, it divides into 2 trunks: smaller anterior and larger posterior. The smaller anterior trunk carries mostly efferent fibers that supply the temporalis, masseter and lateral pterygoid muscles, and it also carries afferent fibers that form the buccal nerve. The larger posterior trunk gives off the auriculotemporal nerve which wraps around the medial meningeal artery and supplies sensory innervation to the cutaneous tissue around the auricula and temporal regions. The larger posterior trunk then divides into 2 main splits, lingual and inferior alveolar. The lingual nerve supplies sensory innervation to the anterior of the tongue which does not include taste. The inferior alveolar nerve supplies motor innervations to the mylohyoid and anterior belly of digastric muscles and sensory innervation to the teeth and mucoperiosteum of mandibular teeth, as well as sensory to the chin and lower lip.

Embryology

The trigeminal nerve is derived from the first pharyngeal arch. The musculature of the first pharyngeal arch includes the muscles of mastication, anterior belly of digastric, mylohyoid, tensor tympani, and tensor veli palatini muscles. The trigeminal nerve was studied by following Xenopus laevis embryos. The development of the mandibular nerve is similar to that of the ophthalmic and maxillary branches. The development follows in 3 stages.

First, a pioneer neurite emerges and a nerve forms as other, later neurites fasciculate with this. Upon reaching the inside surface of the cement gland, the neurites separate and penetrate holes in the basal lamina. Finally, the neurites grow between the cells they will innervate and form free nerve endings.

Blood Supply and Lymphatics

The mandibular nerve receives its blood supply from various tributaries throughout their course of the body. Three major arteries supply blood to the trigeminal nerve root: a superolateral branch of the basilar artery, a peduncular cerebellar branch of the anterior inferior cerebellar artery, and the trigeminocerebellar artery. The blood supply to the muscles of mastication is via branches of the maxillary artery.

Nerves

Afferently, the mandibular nerve serves the lower face and its cutaneous tissues between the lower lip and the base of the mandible. Efferently, the mandibular branch serves the muscles of mastication, the tensor veli palatini muscle of the soft palate and tensor veli tympani of the middle ear along with the mylohyoid and anterior digastric muscles.

The meningeal branch of the nerve provides sensory supply to the dura mater of the middle cranial fossa and a part of the anterior cranial fossa. The nerve to tensor veli palatini supplies motor innervation to the tensor veli palatini which tenses and elevates the soft palate to close and prevent food from entering the nasopharyngeal space during swallowing. The nerve to tensor tympani provides motor innervation to its respective muscle in the middle ear space which is responsible for dampening the noise produced by chewing, which helps to prevent ear ossicle damage. The auriculotemporal nerve provides sensory innervation to the temporomandibular joint (branches of temporalis and masseter nerve also provide sensory innervation to the temporomandibular joint). The buccal nerve branch provides sensory innervation to the lower buccal gingiva, lower buccal sulcus, and the mucosa of the cheeks.

The following branches of the mandibular nerve efferently serve the muscles of mastication which include the medial and lateral pterygoids, masseter, and the temporalis. The nerve to medial pterygoid provides innervation to its respective muscle which is responsible for the elevation of the mandible (closes the jaw). The nerve to temporalis provides innervation to the temporalis muscle which is responsible for elevation and retrusion of the mandible (closes and retracts the jaw). The masseteric nerve supplies the masseter muscle which elevates and protrudes the jaw. The nerve to lateral pterygoid provides innervation to the lateral pterygoid muscle which depresses the mandible.[4][5][6]

The posterior trunk of the mandibular nerve splits into two branches known as the inferior alveolar nerve and the lingual nerve. The inferior alveolar nerve carries both motor and sensory fibers and travels along the medial aspect of the lateral pterygoid muscle. Before entering the mandibular foramen, it gives rise to branches that provide motor innervation to the mylohyoid and anterior belly of digastric muscle which is responsible for elevating the hyoid and complex movements of the jaw (speaking, swallowing, chewing, and breathing).  Once the nerve enters the mandibular foramen, it provides innervation to the mandibular teeth and the lower alveolar ridge. A branch of the nerve exits via the mental foramen to become the mental nerve which provides sensory innervation to the dermis of the chin and lower lip and the remaining nerve fibers continue anteriorly to provides innervation to the canines and incisors. The lingual nerve innervated the anterior two-thirds of the tongue and mucous membrane for sense but does not innervate taste fibers.[7][8]

Physiologic Variants

One study showed approximately 20% of the population has anatomical variations of the trigeminal nerve. All of these are related to the mandibular nerve and its branches, not the ophthalmic or maxillary nerve. Some anatomical variations that have been reported include:

  • Anatomical variations of the inferior alveolar nerve
  • Anatomical variations of the lingual nerve
  • Anatomical variations of the buccal nerve
  • Anatomical variations of the auriculotemporal nerve and
  • Cervical plexus: Additional innervation of the mandibular region

The inferior alveolar nerve can give multiple extraosseous branches before it enters the mandibular canal and within the bony canal, it may give rise to multiple intraosseous branches. The inferior alveolar nerve may also show anatomical variations in its relation with the maxillary artery.

Quantitative studies have been done to estimate the position of the lingual nerve in relation to the third molar region. The studies report that the mean horizontal distance of the nerve to the lingual plate ranges from 0.58 to 3.45 mm; whereas the mean vertical distance of the lingual nerve below the alveolar crest is between 2.28 and 8.32 mm. This is important for oral surgery, for example, third molar extraction, mandibular trauma management, periodontal procedures, and excision of neoplastic lesions.

The long buccal nerve may innervate the mandibular molar teeth by entering the alveolar bone through the retromolar foramina. This could be responsible for the failure of the traditional alveolar nerve block.

The auriculotemporal nerve has been described to have a connection with the inferior alveolar nerve. In regional anesthesia, this compromises the efficacy of the inferior alveolar nerve block.

The cervical plexus may give rise to additional nerve fibers that provide supplementary innervation to the mandibular area. The cervical plexus gives rise to the great auricular nerve which provides afferent innervation to the mastoid process, the parotid gland and the outer ear. In cases of third molar extractions where conventional anesthesia was not successful, anesthesia of the great auricular nerve was reported. This suggests that the great auricular nerve is involved in the innervation of the angle of the mandible, and a separate infiltration of the nerve may be required to achieve complete anesthesia of the mandibular region.

Surgical Considerations

The mandibular nerve has an important role in the field of oral maxillofacial surgery and anesthesia. Major surgical concerns include the location of the infratemporal fossa where mandibular nerve compression is common. The infratemporal fossa is one most difficult regions to access surgically. In anesthesia, variations of the inferior alveolar nerve are of concern for surgical and dental practice. Case reports describe anatomical variations of inferior alveolar nerve mimicking a recurrence of keratocystic odontogenic tumors.

Both sympathetic and parasympathetic autonomic nerve fibers travel with different trigeminal nerve branches to reach their target organs and tissues.

Clinical Significance

Physicians and dentists not achieving complete mandibular nerve anesthesia is a common problem due to many physiological variations. Temporomandibular joint dysfunction (TMD) is caused by a group of conditions that cause pain and joint dysfunction in the jaw joint and muscles that control jaw movement. Many branches of the mandibular nerve are responsible for the control of jaw movement and dysfunction can result in TMD. The auriculotemporal nerve may be damaged during TMJ surgery, which may cause paresthesia of the auricle and the ear region.[9]

Trigeminal neuralgia is commonly seen with damage to the mandibular branch and can be treated by cutting the sensory root. Classical trigeminal neuralgia is due to vascular compromise of the trigeminal nerve root. Secondary trigeminal neuralgia is due to major neurological diseases such as multiple sclerosis or tumors with possible involvement of the mandibular nerve branches. 

Ear pain due to radiation along the auriculotemporal nerve with a patient with lingual cancer has been documented. Tonic tensor tympani syndrome results in ear pain, fluttering sensations, or fullness of the ear. Increased activity of the tensor tympani muscle develops in many people with hyperacusis as a part of the startle response to certain sounds.


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Anatomy, Head and Neck, Mandibular Nerve - Questions

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Which of the following muscles of the soft palate is supplied by the mandibular nerve?



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Which nerve innervates the tensor veli palatini muscle?



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What is the innervation of the muscle whose action is to tense the tympanic membrane?



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A lesion of the anterior division of the mandibular nerve would have a profound effect on the muscles of mastication because the motor root of the fifth cranial nerve travels exclusively with the anterior division. Which of the following is accurate regarding this statement and its reasoning?



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Which is true of the mandibular nerve?



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Anatomy, Head and Neck, Mandibular Nerve - References

References

Murthy SP,Paderno A,Balasubramanian D, Management of the marginal mandibular nerve during and after neck dissection. Current opinion in otolaryngology     [PubMed]
Al-Qahtani K,Mlynarek A,Adamis J,Harris J,Seikaly H,Islam T, Intraoperative localization of the marginal mandibular nerve: a landmark study. BMC research notes. 2015 Aug 27;     [PubMed]
Auersvald A,Auersvald LA, Management of the Submandibular Gland in Neck Lifts: Indications, Techniques, Pearls, and Pitfalls. Clinics in plastic surgery. 2018 Oct;     [PubMed]
Modi P,Arsiwalla T, Crocodile Tears Syndrome 2018 Jan;     [PubMed]
Azizzadeh B,Frisenda JL, Surgical Management of Postparalysis Facial Palsy and Synkinesis. Otolaryngologic clinics of North America. 2018 Dec;     [PubMed]
Keidar E,Kwartowitz G, Tensor Tympani Syndrome 2018 Jan;     [PubMed]
von Arx T,Nakashima MJ,Lozanoff S, The Face – A Musculoskeletal Perspective. A literature review Swiss dental journal. 2018 Jul 30;     [PubMed]
Jääskeläinen SK,Forssell H,Tenovuo O,Parkkola R, Difficult diagnosis of facial pain: A case report and mini-review. Scandinavian journal of pain. 2010 Oct 1;     [PubMed]
Huff T,Daly DT, Neuroanatomy, Cranial Nerve 5 (Trigeminal) 2018 Jan;     [PubMed]

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