What are the key levels of cervical lymph nodes. How do they relate to different cancer types. Where are the anatomical boundaries of each lymph node level. What is the clinical importance of understanding cervical lymph node anatomy.

Understanding the Importance of Cervical Lymph Node Mapping

Cervical lymph node mapping plays a crucial role in the diagnosis and treatment of head and neck cancers. Accurate identification and classification of lymph nodes are essential for proper staging, treatment planning, and prognosis. This comprehensive guide delves into the intricate anatomy of cervical lymph nodes, their levels, and clinical significance.

The Anatomy of Cervical Lymph Nodes: An Overview

Cervical lymph nodes are strategically positioned throughout the neck region, serving as vital components of the lymphatic system. They are categorized into distinct levels based on their anatomical location and drainage patterns. Understanding these levels is crucial for healthcare professionals involved in head and neck oncology.

Key Anatomical Landmarks

• Hyoid bone
• Cricoid cartilage
• Carotid arteries
• Sternocleidomastoid muscle
• Manubrium of sternum

These landmarks serve as reference points for accurately identifying and describing the various lymph node levels in the neck.

Level I: Submental and Submandibular Nodes

Level I lymph nodes are further divided into two subgroups: Level Ia (submental) and Level Ib (submandibular).

Level Ia: Submental Nodes

Where are the submental nodes located? The submental nodes are found in the median region between the anterior bellies of the digastric muscles.

Level Ib: Submandibular Nodes

The submandibular nodes occupy the space between the inner aspect of the mandible laterally and the digastric muscle medially, extending from the symphysis menti anteriorly to the submandibular gland posteriorly.

Which cancers are associated with Level I lymph node metastases? Level I nodes are at risk of metastases from cancers of the oral cavity, anterior nasal cavity, soft tissues of the mid-face, and the submandibular gland.

Level II: Upper Jugular Nodes

Level II is a critical region in cervical lymph node mapping, further subdivided into Level IIa and Level IIb.

Lymphatic Drainage and Cancer Risk

Level II receives lymphatics from various structures, including:

• Face
• Parotid gland
• Submandibular, submental, and retropharyngeal nodes
• Nasal cavity
• Pharynx
• Larynx
• External auditory canal
• Middle ear
• Sublingual and submandibular glands

Which cancers commonly metastasize to Level II nodes? Nodes in Level IIa and IIb are at risk of harboring metastases from cancers of the nasal and oral cavity, nasopharynx, oropharynx, hypopharynx, larynx, and major salivary glands.

Level IIa vs. Level IIb

How are Level IIa and IIb distinguished? A line drawn at the posterior edge of the internal jugular vein separates Level IIa from Level IIb.

Is there a difference in metastatic patterns between Level IIa and IIb? Yes, Level IIb is more frequently associated with primary tumors of the oropharynx or nasopharynx, and less commonly with tumors of the oral cavity, larynx, or hypopharynx.

Level III: Mid Jugular Nodes

Level III plays a significant role in the lymphatic drainage of several head and neck structures.

Lymphatic Connections and Drainage

Level III receives efferent lymphatics from:

• Levels II and V
• Some efferent lymphatics from retropharyngeal, pretracheal, and recurrent laryngeal nodes
• Base of the tongue
• Tonsils
• Larynx
• Hypopharynx
• Thyroid gland

What is the anatomical boundary between Level III and Level IVA? The inferior border of the cricoid cartilage serves as the demarcation between these two levels.

Cancer Risk and Metastases

Which cancers are most likely to metastasize to Level III nodes? Nodes in Level III are at risk of harboring metastases from cancers of the oral cavity, nasopharynx, oropharynx, hypopharynx, and larynx.

Level IV: Lower Jugular and Medial Supraclavicular Nodes

Level IV is further divided into Level IVa and Level IVb, each with distinct characteristics and associated cancer risks.

Level IVa

Which cancers are associated with Level IVa metastases? Nodes in Level IVa are at risk for harboring metastases from cancers of the hypopharynx, larynx, thyroid, and cervical esophagus.

Can Level IVa nodes be involved in oral cavity cancers? Yes, in rare cases, metastases from the anterior oral cavity may manifest in this location with minimal or no proximal nodal disease.

Level IVb

What types of cancers commonly metastasize to Level IVb? Nodes in Level IVb are at risk for harboring metastases from cancers of the hypopharynx, subglottic larynx, trachea, thyroid, and cervical esophagus.

Anatomical Boundary

How is the border between Level IVa and IVb determined? The border is set arbitrarily 2 cm cranial to the sternoclavicular joint.

Level V: Posterior Triangle and Supraclavicular Nodes

Level V encompasses the nodes of the posterior triangle group, playing a crucial role in the lymphatic drainage of various head and neck structures.

Anatomical Boundaries

What are the key anatomical landmarks defining Level V? Level V is bounded anteriorly by the posterior border of the sternocleidomastoid muscle, posteriorly by the anterior border of the trapezius muscle, and inferiorly by the clavicle.

Subdivisions and Clinical Significance

Level V is further divided into Level Va and Level Vb. How are these sublevels distinguished? The horizontal plane marking the inferior border of the cricoid cartilage separates Level Va (above) from Level Vb (below).

Which cancers are associated with Level V metastases? Nodes in Level V are at risk for harboring metastases from cancers of the nasopharynx, oropharynx, and cutaneous structures of the posterior scalp and neck.

Advanced Levels: VI, VII, and Beyond

While the first five levels form the core of cervical lymph node mapping, additional levels have been defined to provide a more comprehensive understanding of lymphatic drainage in the head and neck region.

Level VI: Anterior Compartment

What structures are included in Level VI? Level VI encompasses the pretracheal, paratracheal, precricoid (Delphian), and perithyroidal lymph nodes.

Which cancers commonly metastasize to Level VI nodes? Nodes in Level VI are particularly important in thyroid cancer and can also be involved in cancers of the larynx, hypopharynx, cervical esophagus, and apex of the pyriform sinus.

Level VII: Superior Mediastinal Nodes

Where is Level VII located? Level VII includes the lymph nodes in the upper mediastinum, extending from the suprasternal notch to the innominate artery.

What is the clinical significance of Level VII nodes? These nodes are crucial in the staging and treatment of thyroid cancer and can also be involved in advanced laryngeal and hypopharyngeal cancers.

Additional Levels: VIII to X

How have lymph node levels been extended beyond the traditional classification? Some systems have expanded the classification to include Levels VIII, IX, and X, providing more detailed mapping of lymph nodes in specific regions.

• Level VIII: Parotid nodes
• Level IX: Bucco-facial nodes
• Level X: Retropharyngeal nodes

Why is this extended classification important? These additional levels allow for more precise localization and description of lymph nodes, particularly in cancers affecting the parotid gland, facial structures, and pharyngeal regions.

Clinical Applications of Cervical Lymph Node Mapping

Understanding cervical lymph node anatomy and mapping is crucial for various aspects of head and neck oncology.

Diagnosis and Staging

How does lymph node mapping aid in cancer diagnosis and staging? Accurate identification of involved lymph nodes helps determine the extent of disease spread, guiding the TNM staging process and informing treatment decisions.

Treatment Planning

Why is precise lymph node mapping essential for treatment planning? Knowledge of lymphatic drainage patterns and potential metastatic spread allows for targeted interventions, such as selective neck dissections or radiation therapy field design.

Prognosis and Follow-up

How does lymph node status impact prognosis and follow-up strategies? The presence, number, and location of metastatic lymph nodes are significant prognostic factors in head and neck cancers, influencing survival rates and guiding post-treatment surveillance protocols.

Advanced Imaging Techniques in Cervical Lymph Node Assessment

Modern imaging modalities play a crucial role in the accurate assessment and mapping of cervical lymph nodes.

Computed Tomography (CT)

How does CT contribute to cervical lymph node evaluation? CT scans provide detailed cross-sectional images of the neck, allowing for precise localization and measurement of lymph nodes. They are particularly useful in assessing the relationship between nodes and surrounding structures.

Magnetic Resonance Imaging (MRI)

What advantages does MRI offer in lymph node imaging? MRI provides superior soft tissue contrast, making it valuable for detecting subtle lymph node abnormalities and assessing potential extranodal extension of tumors.

Positron Emission Tomography (PET)

How does PET-CT enhance lymph node assessment? PET-CT combines functional and anatomical imaging, allowing for the detection of metabolically active lymph nodes that may harbor metastases, even when they appear normal in size on conventional imaging.

Ultrasound

What role does ultrasound play in cervical lymph node evaluation? Ultrasound is a valuable tool for real-time assessment of lymph node morphology and vascularity. It also facilitates ultrasound-guided fine-needle aspiration for tissue sampling.

Challenges and Future Directions in Cervical Lymph Node Mapping

While significant progress has been made in understanding and mapping cervical lymph nodes, several challenges and areas for future research remain.

Micrometastases and Occult Disease

How can the detection of micrometastases be improved? Advanced molecular techniques, such as sentinel lymph node biopsy and molecular analysis of lymph node tissue, are being explored to enhance the detection of small-volume metastases.

Personalized Lymph Node Mapping

Is it possible to develop more individualized approaches to lymph node assessment? Ongoing research aims to identify patient-specific factors that influence lymphatic drainage patterns, potentially leading to more tailored diagnostic and treatment strategies.

Artificial Intelligence and Machine Learning

How might AI and machine learning impact cervical lymph node mapping? These technologies show promise in automating lymph node detection and characterization on imaging studies, potentially improving accuracy and efficiency in clinical practice.

Functional Imaging Advancements

What new imaging techniques are being developed for lymph node assessment? Novel tracers and imaging modalities, such as lymphotropic nanoparticle-enhanced MRI, are being investigated to provide more detailed and accurate information about lymph node status.

In conclusion, a thorough understanding of cervical lymph node anatomy and mapping is essential for optimal management of head and neck cancers. As research continues to advance, we can expect further refinements in lymph node classification, imaging techniques, and personalized approaches to diagnosis and treatment. This evolving knowledge will ultimately lead to improved outcomes for patients with head and neck malignancies.

The Radiology Assistant : Cervical Lymph Node Map

modified from Robbins

Aurelia Fairise and Robin Smithuis

Institut de Cancérologie de Lorraine in Nancy, France and the Alrijne hospital in Leiderdorp, the Netherlands

Publicationdate 2022-07-11

This article is based on the nomenclature proposed by the American Head and Neck Society and the American Academy of Otolaryngology-Head and Neck Surgery.

10 node groups are defined with a concise description of their main anatomic boundaries, the normal structures juxtaposed to these nodes, and the main tumor sites at risk for harboring metastases in those levels [1]. 

Overview

In this cervical lymph node map the levels were extended to 10.

Some of these are being divided into sub-levels to correspond more completely with the TNM atlas.

Borders

Important landmarks are:

• Hyoid bone
• Cricoid
• Carotids
• Sternocleidomastoid muscle
• Manubrium of sternum

Axial CT

Axial CT slices in correlation to overview illustration.

Axial CT slices in more detail.
Enlarge images by clicking on them.

Levels

I – Submental and submandibular

Nodes in level I are at risk of developing metastases from cancers of the oral cavity, anterior nasal cavity and the soft tissues of the mid-face and the submandibular gland.

Level Ia 
is a median region located between the anterior belly of the digastric muscles, which contains the submental nodes.

Level Ib 
contains the submandibular nodes located in the space between the inner side of the mandible laterally and the digastric muscle medially, from the symphysis menti anteriorly to the submandibular gland posteriorly.

II – Upper jugular

Level II receives lymphatics from the face, the parotid gland, and the submandibular, submental and retropharyngeal nodes.
Level II also directly receives the collecting lymphatics from the nasal cavity, the pharynx, the larynx, the external auditory canal, the middle ear, and the sublingual and submandibular glands [1]. 

Level II can be divided into level IIa and level IIb by drawing a line at the posterior edge of the internal jugular vein.

The nodes in level IIa and IIb are at risk of harboring metastases from cancers of the nasal and oral cavity, nasopharynx, oropharynx, hypopharynx, larynx and major salivary glands.

Level IIb is more likely associated with primary tumors of the oropharynx or nasopharynx, and less frequently with tumors of the oral cavity, larynx or hypopharynx [1].

III – Mid jugular

Level III receives efferent lymphatics from levels II and V, and some efferent lymphatics from the retropharyngeal, pretracheal and recurrent laryngeal nodes.
It collects the lymphatics from the base of the tongue, tonsils, larynx, hypopharynx and thyroid gland.

The inferior border of the cricoid is the border between level III and IVA.

Nodes in level III are at risk of harboring metastases from cancers of the oral cavity, nasopharynx, oropharynx, hypopharynx and larynx.

IV – Lower jugular and medial supraclavicular

The border between level IVa and IVb is set arbitrarily 2 cm cranial to the sterno-clavicular joint.

Level IVa
These nodes are at risk for harboring metastases from cancers of the hypopharynx, larynx, thyroid and cervical esophagus.
Rarely metastases from the anterior oral cavity may manifest in this location with minimal or no proximal nodal disease.

Level IVb
These nodes are at risk for harboring metastases from cancers of the hypopharynx, subglottic larynx, trachea, thyroid and cervical esophagus.

V – Posterior triangle and Supraclavicular

Level V contains the nodes of the posterior triangle group located posteriorly to the sternocleidomastoid muscle around the lower part of the spinal accessory nerve and the transverse cervical vessels.

Nodes in level V are most often associated with primary cancers of the nasopharynx, the oropharynx, the cutaneous structures of the posterior scalp, and the thyroid gland.

Level Vc – Supraclavicular

This level contains the lateral supraclavicular nodes located in the continuation of the posterior triangle nodes (level Va and Vb) from the cervical transverse vessels down to a limit set arbitrarily 2 cm cranial to the sternal manubrium.
It corresponds partly to the area known as the supraclavicular fossa.

Level Vc receives efferent lymphatics from the posterior triangle nodes (level Va and Vb) and is more commonly associated with nasopharyngeal tumors [1]. 

Transverse cervical artery
Scroll through the images for the anatomy of the transverse cervical artery.

VI – Anterior cervical

This level contains the superficial anterior jugular nodes (level VIa) and the deeper prelaryngeal, pretracheal, paratracheal and recurrent laryngeal nerve nodes (level VIb).

Level VIa
This level contains the superficially located anterior jugular nodes.

Level VIb
This level is contained between the medial borders of the common carotid arteries.
The nodes in this area are:

• pre-laryngeal nodes in front of the larynx and cricoid
• pre-tracheal nodes in front of the trachea 
• paratracheal nodes also called recurrent laryngeal nerve nodes

Delphian lymph node

The Delphian lymph node derived its name from the oracle of Delphi, whose prophecy would be a death secondary to laryngeal cancer.

It is a pretracheal node in level VIa located anterior to the cricoid and in between the cricothyroid muscles.

The recurrent laryngeal nerves branch off the vagus, the left at the aortic arch, and the right at the right subclavian artery.

The left laryngeal nerve can be compressed by subaortic lymph node metastases in the aorto-pulmonary window as seen in patients with lung cancer.

VII – Retropharyngeal and retrostyloid

Retropharyngeal nodes receive lymphatics from the mucosa of the nasopharynx, the Eustachian tube and the soft palate. 

These nodes are at risk of harboring metastases from cancers of the nasopharynx, the posterior pharyngeal wall and the oropharynx (mainly the tonsillar fossa and the soft palate).

Level VIIa – retropharyngeal

These nodes lie within the retropharyngeal space, extending cranially from the upper edge of the first cervical vertebrae (massa lateralis) to the cranial edge of the body of the hyoid bone caudally (figure).

This space is bounded anteriorly by the pharyngeal constrictor muscles and posteriorly by the longus capitis and longus colli muscles.
Laterally, the retropharyngeal nodes are limited by the medial edge of the internal carotid artery.

Retropharyngeal nodes receive efferent lymphatics from the mucosa of the nasopharynx, the Eustachian tube and the soft palate.
These nodes are at risk of harboring metastases from cancers of the nasopharynx, the posterior pharyngeal wall and the oropharynx (mainly the tonsillar fossa and the soft palate).

Level VIIb – retrostyloid

The retro-styloid nodes are the cranial continuation of the level II nodes.
They are located in the fatty space around the jugulo-carotid vessels up to the base of skull at the jugular foramen. 

Click to enlarge

The retro-styloid space is delineated by the internal carotid artery medially, by the styloid process and the deep parotid lobe laterally, by the vertebral body of C1 and the base of skull posteriorly and by the pre-styloid para-pharyngeal space anteriorly.

VIII – Parotid

This level contains the parotid node group, which includes the subcutaneous pre-auricular nodes, the superficial and deep intraparotid nodes and the subparotid nodes. 

These nodes extend from the zygomatic arch and the external auditory canal down to the mandible.

They extend from the subcutaneous tissue laterally to the styloid process medially, and from the posterior edge of the masseter and the pterygoid muscles anteriorly to the anterior edge of the sternocleidomastoid muscle and the posterior belly of the digastric muscle posteriorly [1].

Click to enlarge

The parotid group receive lymphatic from the frontal and temporal skin, the eyelids, the conjunctiva, the auricle, the external acoustic meatus, the tympanum, the nasal cavities, the root of the nose, the nasopharynx, and the Eustachian tube.  

They are at risk of harboring metastases from cancers of the frontal and temporal skin, orbit, external auditory canal, nasal cavities and parotid gland.

IX – Buccofacial

Level IX contains the malar and bucco-facial node group, which includes inconsistent superficial lymph nodes around the facial vessels on the external surface of the buccinator muscle.
These nodes extend from the caudal edge of the orbit (cranially) down to the caudal edge of the mandible (caudally) where they reached level Ib. 

They lay on the buccinators muscle (medially) in the sub-cutaneous tissue, from the anterior edge of the masseter muscle and the Bichat’s fat pad (posteriorly) to the anterior sub-cutaneous tissue of the face.

The bucco-facial nodes receive efferent vessels from the nose, the eyelids, and the cheek. 

They are at risk of harboring metastases from cancers of the skin of the face, the nose, the maxillary sinus (infiltrating the soft tissue of the cheek) and the buccal mucosa.

X – Retroauricular and occipital

Level Xa contains the retroauricular (also called mastoid) and subauricular nodes, which includes superficial nodes lying on the mastoid process from the cranial edge of the external auditory canal cranially to the tip of the mastoid caudally. 

Level Xb contains the occipital lymph nodes, which are the cranial and superficial continuation of the level Va nodes up to the cranial protuberance. They lie from the posterior edge of the sternocleidomastoid muscle to the anterior (lateral) edge of the trapezius muscle.

Lymph node metastases in level X are from skin cancers of the retro-auricular area (Xa) and skin cancers of the occipital area (Xb).

Click on the image below to get more information about Medical Action Myanmar, a medical organization run by Nini Tun and Frank Smithuis, who happens to be the brother of Robin Smithuis.

1. Delineation of the neck node levels for head and neck tumors: A 2013 update. DAHANCA, EORTC, HKNPCSG, NCIC CTG, NCRI, RTOG, TROG consensus guidelines

   DAHANCA, EORTC, HKNPCSG,NCIC CTG, NCRI, RTOG, TROG consensus guidelines.
   by V Grégoire et al.
   Radiother Oncol 2014 ;110:172–81.

2. Integrating radiological criteria into the classification of cervical lymph node disease.
   by Robbins KT.
   Arch Otolaryngol Head Neck Surg 1999 ;125:385–7.

3. International association for the study of lung cancer (IASLC) lymph node map: radiologic review with CT illustration.

   by El-Sherief AH, Lau CT, Wu CC, Drake RL, Abbott GF, Rice TW.
   Radiographics. 2014 Oct;34(6):1680-91.

Cervical lymph nodes: anatomy, groups and drainage

Author:
Roberto Grujičić MD
•
Reviewer:
Dimitrios Mytilinaios MD, PhD

Last reviewed: December 05, 2022

Reading time: 3 minutes

Superficial anterior cervical lymph nodes

Nodi lymphoidei cervicales anteriores superficiales

1/7

Synonyms:
Nodi lymphatici cervicales anteriores superficiales, Lymphonodi cervicales anteriores superficiales

The cervical lymph nodes, commonly known as the lymph nodes of the neck, are a large group of lymph nodes that can be classified into several groups. These groups of nodes include:

• The superficial anterior cervical lymph nodes that are situated adjacent to the anterior jugular vein. These nodes drain lymph from the infrahyoid region, isthmus of the thyroid gland, inferior larynx to the deep lateral cervical lymph nodes.
• The deep anterior cervical lymph nodes that are situated mostly in the midline and can be divided into four groups of nodes including the prelaryngeal, thyroid, paratracheal and pretracheal nodes. They drain lymph from the larynx, trachea, and thyroid to the deep lateral cervical lymph nodes. 
• The superficial lateral cervical lymph nodes that are situated adjacent to the external jugular vein. They drain lymph from the parotid nodes to the supraclavicular nodes. 
• The deep lateral cervical lymph nodes that are situated adjacent to the internal jugular vein. They can be subdivided into superior and inferior groups. These nodes receive the majority of lymph from the head and neck region and drain to the jugular trunk. 
• The accessory lymph nodes that are the most lateral group of cervical nodes, located adjacent to the accessory nerve. These nodes drain lymph from the lateral neck, pharynx and shoulder regions and empty into the supraclavicular nodes.
• The supraclavicular lymph nodes that are situated at the root of the neck. These nodes receive lymph from the deep lateral cervical lymphatic vessels and empty into the jugular trunk on each side. 
• The retropharyngeal lymph nodes that are situated posterior to the pharynx. These nodes receive afferents from the nasal cavities, paranasal sinuses, soft palate, palatine arch, outer and middle ear and drain into the superior and inferior deep lateral cervical lymph nodes of the neck.

In summary, all lymphatic vessels from the head and neck drain directly or indirectly into the deep cervical lymph nodes. Lymph from these deep nodes passes to the jugular lymphatic trunk, which joins the thoracic duct on the left side and the internal jugular vein or brachiocephalic vein on the right side.

Terminology	English: Cervical lymph nodes English synonym: Lymph nodes of the neck Latin: Nodi lymphoidei cervicales Latin synonyms: Nodi lymphatici cervicales, Lymphonodi cervicales
Main groups	Superficial anterior cervical lymph nodes Deep anterior cervical lymph nodes Superficial lateral cervical lymph nodes Deep lateral cervical lymph nodes Accessory lymph nodes Supraclavicular lymph nodes Retropharyngeal lymph nodes
Function	Lymph nodes of the neck filter and transport lymph from surrounding lymph nodes and viscera back into the bloodstream

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• Lambert SM. Shoulder girdle and arm. In: Gray’s Anatomy: The Anatomical Basis of Clinical Practice. 41st ed. Elsevier; 2016. p. 834.
• Richter E, Feyerabend T. Normal lymph node topography: CT atlas. Springer; 2004.
• Iwanaga J, Lofton C, He P, Dumont AS, Tubbs RS. Lymphatic System of the Head and Neck. J. Craniofac. Surg. 2021;32(5):1901–5.
• 
  Kyriacou H, Khan YS. Anatomy, Shoulder and Upper Limb, Axillary Lymph Nodes. StatPearls. 2021;

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Lymphadenitis of the face and neck / Lipetsk city dental clinic №1

What are the lymph nodes on the face and where are they located

Lymph nodes on the face act as a kind of lymph filters from toxic substances. This defensive reaction is especially important on the face. Location of lymph nodes:

Behind both auricles on the head On the neck under the ears slightly shifted forward Under the jaw from below Under the beard Under the eyes

Causes of inflammation of the lymph nodes of the face

Facial lymph nodes play the role of “guards” of the body as a whole. And they are sensitive to the invasion of any infection or the beginning of an inflammatory process in the human body.

Inflammation of the lymph nodes on the face can be the result of such troubles as:

Infectious disease (cold, flu, rhinitis, sinusitis, tonsillitis) Tuberculosis Dental problems (periodontal disease, caries) Decreased immunity Skin diseases on the face Allergy Otitis Periodontitis

Inflammation of the lymphatic knots on the face often occur as a result of hypothermia of a person.

Lymphadenitis of the facial node

Inflammation of the lymph nodes on the face indicates that there is an infection in the human body and red blood cells “rushed into battle. ” And it is worth not only treating the lymph nodes on the face, but conducting a complete diagnosis of the state of health to detect the underlying problem.

The main cause of lymphadenitis of the facial nodes are skin diseases: acne, acne.

Location of lymph nodes

Lymphadenitis of the parotid and behind the ear nodes

Thickening of the lymph nodes on the face near the ears is a companion of inflammatory processes that occur in the ear or salivary gland, or diseases of the throat.

In children, there is a thickening of the parotid and behind the ear nodes on the face with rubella, chickenpox. Such allergic reactions to vaccination are not uncommon. For a more accurate diagnosis, you should consult a surgeon.

Enlarged nodes in the lower part of the face

Lymph nodes in the lower part of the face can become inflamed for various reasons:

Dental problems (inflammation of the gums, caries) Sialoadenitis

With these diseases, there is an intensive removal of erythrocyte decay products from inflammation sites. Lymph nodes in the lower body do not have time to filter the lymph. This causes stagnation in the node and, as a result, its inflammation.

Lymphadenitis of the facial area symptoms

Inflammation of the lymph nodes on the face occurs with prolonged stagnation of lymph in the node itself. Main symptoms:

Skin thickening in this area Redness and itching Painful sensations when pressed Increased body temperature

Cases of purulent inflammation of the lymph nodes on the face are not uncommon. With such a complication, pus accumulates in the node itself. The final recovery of the patient occurs after the extraction of purulent accumulations. It can rupture on its own or be removed with minor surgery.

Remember! Inflammatory processes of the lymph nodes on the face are not an entirely innocent disease. It can lead to serious complications:

Meningitis Encephalitis

It is strictly forbidden to self-treat inflammation of the lymph nodes on the face.

Types of lymphadenitis

Lymphadenitis of the facial nodes is:

Acute Chronic Nonspecific lymphadenitis

The acute form of diseases of the lymph nodes on the face is characterized by the rapid onset of painful symptoms:

Thickening of the focus Redness of the skin Accumulation of pus Increased body temperature Painful sensations when pressed 04 Specific lymphadenitis on the face appears as concomitant manifestations of such diseases as:

AIDS Syphilis Tuberculosis

Nonspecific lymphadenitis manifests itself after various infectious bacteria enter the lymph:

Streptococcus Staphylococcus Various toxins

If pus accumulates in a lymph node on the face, it is purulent lymphadenitis.

Diagnosis

As noted above, lymphadenitis is one of the body’s signals that inflammatory processes are occurring in the human body. And it is worth making a full diagnosis to find the root cause. After all, eliminating the symptoms does not get rid of the main problem.

During the examination, the doctor pays special attention to the location of the inflamed lymph nodes. If they are near the ear, this may indicate otitis media. Purulent inflammation of the node on the face is most often the result of subcutaneous abscesses.

Purulent inflamed lymph nodes on the face in most cases are treated with surgery. But it is not uncommon that the abscess is torn. It is very good if the content comes out. It happens that pus gets inside. Then surgery is simply a must with a more thorough approach. Need general anesthesia and a long process of cleaning the affected area of ​​the face.

Prevention

Avoiding inflammation in the lymph node is quite easy:

Follow the strengthening of the immune system. This will help to avoid colds, viral diseases. Elementary hygiene of the oral cavity and ears will save you from stagnation of lymph in these areas of the face. Don’t skip the mandatory vaccination schedule. Try to avoid exposure to allergens on the body. Simple rules will relieve you of pain during lymphadenitis and strengthen the body.

MRI of the lymph nodes of the soft tissues of the neck

MRI Center – MRI of the lymph nodes

Neck soft tissue examination

A key part of the peripheral immune system consists of the lymph nodes. When metabolic / autoimmune pathologies occur, neoplasms occur, infection appears, lymph nodes increase in size. This process belongs to the general medical signs.

Such changes entail a variety of procedures and therapeutic examinations. The best way to examine this organ is tomography of the lymph nodes.

Price of MRI of lymph nodes in Moscow

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Survey	Promotion price! Find out the end date of the promotion by calling the medical center
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Why MRI of lymph nodes is necessary

MRI of the lymph nodes is the most advanced diagnostic method that reveals inconsistencies in the body. The display is based on a magnetic field combined with radio frequency pulses.

The positive aspect of this research method is its harmlessness and information content. During the examination, patients are spared from contact with highly radioactive substances, as well as from the perception of harmful radiation. The image quality factor makes it possible to recognize even the slightest modifications in the depicted organ.

Using only MRI of the lymph nodes, doctors can make a qualitative assessment of the state of the entire lymphatic system, as well as its individual elements

Indications for MRI of the lymph nodes

Lymph nodes in the human body perform the work of filtering of natural origin. Lymph flows through these filters, and they also trap all kinds of cells of the wrong composition.

MRI of the lymph nodes is usually done if:

• Immunity is impaired due to various diseases.
• There is an assumption of infectious diseases. This includes special diseases (tuberculosis or HIV).
• Symptoms are present that suggest the presence of metastases or tumors in the lymph nodes.

An appointment for MRI of the lymph nodes is issued if the patient has:

• As a result of infection, the lymph nodes have changed in size.
• If the size of the lymph nodes has changed for unknown reasons.
• Lymph nodes are enlarged on one side.
• The patient has already recovered, and the lymph nodes continue to grow.
• Lymph nodes have become larger. At the same time, the patient’s body temperature is elevated, the patient feels pain, there is a violation of swallowing functions.

For more effective diagnosis, the patient may be offered an MRI with contrast. This research method consists of introducing a contrast agent into the body by injection. This drug accumulates in the organ being examined.

Soft tissues of the neck

MRI of the soft tissues of the neck

From an anatomical point of view, the neck area is subject to the greatest load. It contains many organs that fit tightly to each other in a limited space. These organs belong to different systems such as nervous, circulatory, digestive, endocrine, lymphatic. Therefore, with the help of MRI of the soft tissues of the neck organs, it is possible to examine various changes in the structures (larynx, lymph nodes, thyroid gland, salivary glands).

Neck MRI is prescribed if there are suspicions of diseases of the vascular system, endocrine anomalies, when the salivary glands or the thyroid gland are inflamed. Also, tomography helps to identify tumors and metastases in the neck.

Where to get an MRI of lymph nodes in Moscow

If you need to diagnose lymph nodes, please contact our medical center, located near the metro station.