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Submandibular triangle

The submandibular triangle, also known as the digastric triangle, is a distinct anatomical region within the anterior triangle of the neck, situated immediately inferior to the body of the mandible and superior to the hyoid bone.^[1] It is bounded superiorly by the inferior border of the mandible, anteriorly by the anterior belly of the digastric muscle, and posteriorly by the posterior belly of the digastric muscle and the stylohyoid muscle, with the mylohyoid muscle forming its floor.^[1]^[2] This triangle houses critical structures essential for salivary secretion, lymphatic drainage, and vascular supply to the oral cavity and lower face. The primary content is the submandibular gland, the second-largest salivary gland, which is divided into superficial and deep lobes wrapping around the posterior edge of the mylohyoid muscle and draining via Wharton's duct into the sublingual caruncle.^[1] It also contains 3 to 6 submandibular lymph nodes that drain the lower lip, gums, anterior tongue, floor of the mouth, and palatine tonsils, playing a key role in immune surveillance of the head and neck.^[1]^[2] Key neurovascular elements traverse the region, including the facial artery and vein, which loop over the mandible to supply the face; the lingual nerve (a branch of the mandibular division of the trigeminal nerve, CN V3) and hypoglossal nerve (CN XII), which provide sensory and motor innervation to the tongue, respectively; and branches of the facial nerve (CN VII), such as the marginal mandibular nerve, which risks injury during surgical procedures.^[1]^[2] The mylohyoid muscle, innervated by the mylohyoid nerve (also from CN V3), elevates the hyoid bone and floor of the mouth during swallowing and speech.^[1] Clinically, the submandibular triangle is significant due to its susceptibility to pathologies affecting the salivary gland, such as sialadenitis often caused by sialolithiasis (salivary stones obstructing Wharton's duct), leading to painful swelling and potential infection.^[1] Neoplasms, including benign pleomorphic adenomas and malignant adenoid cystic carcinomas, may arise here, necessitating surgical excision with careful preservation of nearby nerves to avoid facial paralysis or lingual dysfunction.^[1] Additionally, enlarged lymph nodes in this triangle can indicate infections, inflammatory conditions like Ludwig's angina, or metastatic spread from oral cavity cancers, making it a focal point for diagnostic imaging and biopsy in head and neck oncology.^[1]

Anatomical Overview

Definition and Location

The submandibular triangle is one of the two suprahyoid subdivisions of the anterior triangle of the neck, anatomically defined by the anterior and posterior bellies of the digastric muscle along with the inferior border of the mandible.^[1]^[2] This region serves as a key landmark in head and neck anatomy, housing critical structures such as the submandibular salivary gland.^[1] It is precisely located inferior to the body of the mandible and superior to the hyoid bone, spanning the area between the anterior and posterior bellies of the digastric muscle, with its extent running from the hyoid bone inferiorly to the angle of the mandible superiorly and posteriorly.^[3]^[2] This positioning places it within the superficial anterior neck, facilitating access to underlying neurovascular and glandular elements during clinical examinations.^[1] Historically referred to as the digastric triangle owing to its demarcation by the digastric muscle, the name submandibular triangle derives from its submandibular (beneath the mandible) location, emphasizing its anatomical relation to the lower jaw.^[3] This nomenclature has been consistently used in anatomical literature to distinguish it from adjacent neck regions.^[4]

Relations to Other Neck Triangles

The neck is anatomically subdivided into anterior and posterior triangles by the sternocleidomastoid muscle, with the anterior triangle bounded superiorly by the inferior border of the mandible, laterally by the sternocleidomastoid, and medially by the midline of the neck. The anterior triangle is further classified into suprahyoid and infrahyoid regions, where the suprahyoid region encompasses the submandibular and submental triangles, while the infrahyoid region includes the carotid and muscular triangles.^[4] The submandibular triangle is positioned medial to the carotid triangle, from which it is separated by the posterior belly of the digastric muscle and the stylohyoid muscle, and lateral to the muscular triangle along the hyoid bone. It lies superior to the submental triangle, sharing the anterior belly of the digastric muscle as a common boundary, and contributes to delineating the transition between superficial and deep neck compartments by overlaying the mylohyoid muscle, which forms its floor and separates the superficial submandibular space from deeper sublingual and submylohyoid spaces.^[5]^[1] Embryologically, the submandibular triangle incorporates structures derived from the second pharyngeal (branchial) arch, such as the posterior belly of the digastric muscle and stylohyoid, which influence its anatomical relations to nearby pharyngeal derivatives like the hyoid bone and associated musculature.^[6]

Boundaries and Coverings

Muscular and Bony Boundaries

The submandibular triangle is delineated by a combination of muscular and bony structures that form its perimeter, contributing to its distinct anatomical position within the anterior triangle of the neck. The superior boundary is formed by the body of the mandible, extending from the symphysis menti anteriorly to the angle of the mandible posteriorly, providing a fixed bony superior limit.^[1] This mandibular segment serves as the primary skeletal framework, with the angle of the mandible marking the posterior extent of the triangle.^[7] The anterior boundary is defined by the anterior belly of the digastric muscle, which originates near the midline at the symphysis menti and extends posteriorly to the intermediate tendon, converging toward its attachment at the hyoid bone.^[1] The posterior boundary consists of the posterior belly of the digastric muscle and the stylohyoid muscle, which runs parallel and anterior to it from the styloid process to the hyoid bone.^[7]

Roof, Floor, and Fascia

The roof of the submandibular triangle consists of the overlying skin, superficial cervical fascia containing subcutaneous fat and the platysma muscle, and the superficial layer of the deep cervical fascia, which forms the immediate covering over the region.^[1] This multilayered structure provides protection to the underlying contents and serves as the initial surgical plane during dissections.^[3] The investing layer of the deep cervical fascia in the roof splits to envelop the submandibular gland, creating a distinct fascial sheath that integrates with the superficial fascia.^[8] The floor of the submandibular triangle is formed by a muscular base, with the mylohyoid muscle constituting the anterior portion and the hyoglossus and middle pharyngeal constrictor muscles forming the posterior aspect.^[3] These muscles create a concave surface that supports the triangle's contents and separates the submandibular space from deeper structures.^[1] The mylohyoid muscle, in particular, arises from the mylohyoid line of the mandible and inserts into the hyoid bone, contributing to the floor's dynamic support during swallowing and speech.^[8] The fascial layers of the submandibular triangle play a critical role in compartmentalization, with the superficial fascia blending seamlessly into the investing layer of the deep cervical fascia to form a continuous envelope.^[1] The deep cervical fascia splits around the submandibular gland, investing it completely and forming a barrier that helps contain infections, such as those arising from odontogenic sources, within the triangle and limiting spread to adjacent neck spaces.^[9] This fascial arrangement is essential for surgical planning, as it defines planes for gland excision while minimizing dissemination of pathology.^[1] Anatomical variations in the floor include occasional accessory slips of the mylohyoid muscle, which may extend to adjacent hyoid muscles or create hiatal discontinuities, potentially compromising the floor's integrity and allowing communication between submandibular and sublingual spaces.^[10] Such variations occur unilaterally in some individuals and can influence the spread of infections or the presentation of herniations like plunging ranulas.^[10] These roof and floor layers enclose the peripheral boundaries of the triangle, ensuring compartmentalized anatomy.^[3]

Internal Divisions and Contents

Anterior Division

The anterior division of the submandibular triangle, separated from the posterior division by the stylomandibular ligament, contains primarily superficial structures located superior to the mylohyoid muscle.^[3] The key feature of this region is the superficial lobe of the submandibular gland, also known as Wharton's gland, which occupies much of the available space within the triangle and wraps around the posterior border of the mylohyoid muscle.^[11] This almond-shaped gland weighs approximately 15 grams and is the second-largest salivary gland, producing 60-70% of the total unstimulated saliva to aid in lubrication and digestion within the oral cavity.^[11] Its excretory system includes Wharton's duct, the main duct averaging 5 cm in length, which courses anteriorly along the floor of the mouth and opens at the sublingual caruncle beside the lingual frenulum; smaller ducts from the adjacent sublingual gland may join it proximally.^[12] Supporting the glandular tissue are the anterior submandibular lymph nodes, typically numbering 3-6 and positioned along the gland's margins, which drain lymphatic fluid from the oral cavity, lower lip, floor of the mouth, and anterior tongue.^[1] Vascular supply in this division features the ascending loop of the facial artery, which emerges from beneath the gland, loops upward over its medial surface, and crosses the mandible, accompanied by the facial vein that runs superficially across the gland to join the retromandibular vein.^[1] The marginal mandibular branch of the facial nerve traverses superficially over the gland and anterior digastric muscle, providing motor innervation to the lower lip depressor muscles while at risk during surgical dissection in this area.^[1]

Posterior Division

The posterior division of the submandibular triangle, separated from the anterior division by the stylomandibular ligament, encompasses key neurovascular and glandular structures in this region.^[3]^[1] The deep lobe of the submandibular gland occupies a significant portion, extending posterior to the mylohyoid muscle and wrapping around its posterior border, with the anterior aspect of the gland splitting to surround this margin. This deep portion features a hilum through which neurovascular elements enter to supply the gland, including branches of the facial artery and associated veins. The facial artery traverses the posterior division, coursing deep to the posterior belly of the digastric muscle and posterior to the submandibular gland before ascending over the inferior border of the mandible; its terminal branches in this area include the submental artery, which emerges deep to the gland, and glandular branches that supply the submandibular gland itself. Additionally, tributaries of the retromandibular vein, particularly its anterior division, contribute to the formation of the facial vein within or adjacent to this division, draining into the internal jugular vein.^[13]^[1]^[1] Nervous structures in the posterior division include the hypoglossal nerve (cranial nerve XII), which courses along the floor of the triangle deep to the submandibular gland and mylohyoid muscle, providing motor innervation to the intrinsic and extrinsic muscles of the tongue. The lingual nerve, a branch of the mandibular division of the trigeminal nerve (CN V3), enters this division and loops around the submandibular duct while carrying parasympathetic fibers from the submandibular ganglion, which is suspended from the lingual nerve and innervates the submandibular and sublingual glands. Posterior submandibular lymph nodes, typically numbering 3 to 6, are situated adjacent to the deep lobe of the gland and drain lymphatic fluid from the tongue, floor of the mouth, and adjacent oral cavity structures. Occasionally, the tail of the parotid gland may extend inferiorly into the posterior aspect of the submandibular triangle, separated from the submandibular space by the stylomandibular ligament, though this is a variable anatomical feature. The stylohyoid ligament, extending from the styloid process to the lesser horn of the hyoid bone, passes through the posterior division, providing attachment points that influence regional muscle dynamics.^[1]^[1]^[3]^[1]^[14]

Clinical Significance

Surgical Approaches

The submandibular triangle serves as a critical surgical corridor for accessing the submandibular gland and level I lymph nodes, primarily through the traditional transcervical approach. Submandibular gland excision, or sialadenectomy, is commonly performed for conditions such as salivary stones (sialolithiasis) causing recurrent sialadenitis or neoplasms, with approximately 50% of tumors being benign.^[15] The procedure involves a 2- to 3-cm horizontal incision placed 1 to 2 cm below the mandible in a skin crease to minimize scarring, followed by elevation of subplatysmal flaps and ligation of the facial artery and vein inferior to the gland.^[16]^[17] To preserve the marginal mandibular branch of the facial nerve, which lies superficial to the facial vein, surgeons employ the Hayes Martin maneuver by mobilizing the vein superiorly with the gland's fascia. The mylohyoid muscle is retracted inferiorly to expose the gland, which is then dissected from surrounding attachments, including the hypoglossal nerve inferiorly, before removal en bloc with any associated stones or tumor.^[16]^[17] Alternative approaches, such as submental or retroauricular incisions, may be used for improved cosmesis, particularly in benign cases, though they increase operative time.^[17] In head and neck cancers, particularly squamous cell carcinoma, selective neck dissection of level I targets lymph nodes within the submandibular triangle (level Ib) for staging and therapeutic removal, often including the submandibular gland if involved. Level Ib is bounded superiorly by the mandible, posteriorly by the posterior belly of the digastric muscle, and inferiorly by the anterior belly of the digastric and hyoid bone. The anterior and posterior bellies of the digastric muscle guide the dissection, with the facial artery ligated beneath the posterior belly to facilitate en bloc resection of fibrous fatty tissue containing at-risk nodes.^[18]^[19] Careful preservation of the hypoglossal nerve is essential during inferior dissection, as it courses medial to the submandibular gland beneath the posterior digastric belly; retraction of the specimen allows its identification and sparing in non-invasive cases. This approach, part of supraomohyoid neck dissection, spares the internal jugular vein, sternocleidomastoid muscle, and spinal accessory nerve to reduce morbidity.^[18]^[20] Surgical approaches to the submandibular triangle evolved in the late 19th and early 20th centuries alongside advancements in neck surgery, with the transcervical method becoming standard for gland excision following refinements in thyroid procedures by Emil Kocher, whose techniques for meticulous hemostasis and tissue handling extended to adjacent salivary and lymphatic structures. Neck dissection techniques were further developed by George Crile in 1906 for radical removal in cancers, later modified by Hayes Martin in 1951 to preserve non-lymphatic structures.^[21]^[18] Complications from these procedures include marginal mandibular nerve injury, with temporary neuropraxia occurring in up to 15.6% of cases and permanent paralysis in 1-5%, often due to traction or electrocautery proximity. Hematoma formation affects 2-10% of patients, necessitating drainage in about 4% requiring reoperation, while hypoglossal or lingual nerve injury rates remain below 2-7%. The submandibular triangle's contents, such as the gland and nodes, are primary surgical targets to minimize these risks through precise landmark-guided dissection.^[16]^[17]^[22]

Pathological Conditions

The submandibular triangle is susceptible to various infections, with Ludwig's angina representing a severe form of bilateral cellulitis originating from dental abscesses, particularly lower molars, that spreads rapidly through the fascial planes of the submandibular space, potentially compromising the airway.^[23] Sialadenitis, or inflammation of the submandibular gland, can be bacterial, often due to obstruction leading to ascending infection, or viral, such as from mumps virus, resulting in glandular swelling, pain, and tenderness.^[24] Neoplasms in the submandibular triangle primarily involve the gland itself or regional lymph nodes, with benign tumors like pleomorphic adenoma accounting for approximately 50% of cases, characterized by slow-growing, painless masses, while malignant ones such as adenoid cystic carcinoma, which predominates among cancers, often presenting with firmness and potential facial nerve involvement.^[25] Lymph node metastases from oral squamous cell carcinoma frequently affect level I nodes in the submandibular triangle, with overall cervical metastasis occurring in 29-36% of cases.^[26] Other conditions include sialolithiasis, where salivary stones form in Wharton's duct due to the submandibular gland's production of viscous, mucous-rich saliva, with 80% of all sialoliths occurring here, leading to ductal obstruction, pain, and recurrent infections. For sialolithiasis, minimally invasive sialendoscopy is preferred as first-line treatment, with success rates up to 90%, reserving gland excision for persistent cases.^[27]^[28] Ranula, a pseudocyst or mucocele arising from the sublingual gland, may extend into the submandibular space, presenting as a fluctuant, bluish swelling in the floor of the mouth that can plunge into the neck if untreated.^[29] Epidemiologically, submandibular gland tumors constitute 1-3% of all head and neck neoplasms, rarer than parotid tumors due to the gland's smaller size, but exhibit a higher malignancy rate of up to 50% compared to 20-25% in the parotid.^[30] Diagnostic imaging plays a key role, with ultrasound preferred for initial evaluation of sialoliths due to its ability to detect up to 90% of stones and assess glandular inflammation, while computed tomography (CT) provides detailed stone morphology and bony involvement; magnetic resonance imaging (MRI) is optimal for characterizing tumors, delineating soft tissue extent and invasion.^[31]

References

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The submandibular triangle is bounded anteriorly by the anterior belly of the digastric muscle and posteriorly by the posterior belly of the digastric muscle.[3] ...
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### Submandibular Triangle Summary
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The submandibular triangle is largely defined by the digastric muscle, which is a double-bellied muscle that depresses the mandible i.e. opens the mouth.
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Mar 16, 2022 · This triangle is further subdivided into four sub-triangles by the hyoid bone, suprahyoid and infrahyoid muscles. These sub-triangles are the ...Anterior Triangle · Carotid Triangle · Posterior Triangle
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The anterior and posterior borders of the submandibular triangle are the anterior and posterior bellies of the digastric muscle, respectively, and the base is ...
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The submandibular triangle is delineated by the inferior border of the mandible and the anterior and posterior bellies of the digastric muscle. The submental ...
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Branchial arches 1 and 2 are referred to as the mandibular and hyoid arches, respectively. Each of the arches is lined internally by endoderm and externally by ...
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Roof is created through investing layer of deep cervical fascia, which divides in order to encompass the submandibular salivary gland. Platysma, cervical ...
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The fascial layers may limit the spread of infection. However, the spaces of the neck communicate with one another forming avenues by which infections may ...
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The mylohyoid forms the floor of the digastric triangle with the hyoglossus and also forms the floor of the submental triangle. The former triangle is ...
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Apr 7, 2017 · The anterior aspect of the submandibular gland splits to surround the posterior aspect of the mylohyoid muscle with a deep extension.Submandibular Gland · Submandibular Duct · Submandibular Triangle
[12]
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A small parotid tail projects off the inferior margin of the gland and is separated from the submandibular space by the stylomandibular ligament.
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Sep 15, 2025 · A 2- to 3-cm transverse neck incision is planned along the inferior aspect of the submandibular gland, approximately 1 to 2 cm below the ...
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The submandibular gland is included in the specimen when the lymph nodes within this triangle are removed. These nodes are at greatest risk for harboring ...
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May 20, 2017 · Level Ia: Submental triangle. Boundaries: Anterior belly of the digastric muscle and the hyoid bone. Level Ib: Submandibular triangle.Missing: triangles | Show results with:triangles
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In all patients, the operation was effective. We found a 4.3 % risk of reoperation for wound infection or postoperative hematomas and an 18.7 % risk of early ...
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Jun 22, 2025 · Ludwig angina is a rare, life-threatening condition characterized by diffuse cellulitis that involves the soft tissues of the floor of the mouth ...Continuing Education Activity · Introduction · Etiology · Treatment / Management
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A salivary gland infection is also called sialadenitis and is caused by bacteria or viruses. A salivary stone or other blockage of the salivary gland duct ...
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A total of 146 tumors (62.13%) were benign and 89 (37.87%) were malignant. Pleomorphic adenoma was the most common neoplasm, occurring in 98 cases (41.70%). The ...
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Nov 26, 2021 · Approximately 29%–36% of oral squamous cell carcinoma (OSCC) patients had cervical lymph node involvement (3, 4). In patients with early-stage ( ...
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Submandibular gland has the highest predilection for sialolithiasis with 80% occurrence rate, followed by the parotid (19%) and the sublingual (1%) glands.
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Ranulas are mucoceles that are of major salivary gland origin and occur on the floor of the mouth. Like mucoceles, these lesions also have two types: oral ...Missing: triangle | Show results with:triangle
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Most of these patients (13/15, 86.7%) had adenoid cystic carcinoma and two patients had mucoepidermoid and carcinoma ex pleomorphic adenoma, respectively.
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Imaging options include CT, MR sialography, or US. If sialolithiasis with secondary sialadenitis is suspected, US is indicated as it detects up to 90% of stones ...