Anatomy, Head and Neck, Pharynx Muscles


Article Author:
Cameron Heyd


Article Editor:
Robert Yellon


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Anantha Padmanabhan
Aakash Gajjar
Burt Cagir


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Komal Shaheen
Sandeep Sekhon


Updated:
3/6/2019 9:29:40 AM

Introduction

The muscles of the pharynx play an integral role in many vital processes such as breathing, swallowing, and speaking. Coordination of the pharyngeal musculature with the laryngeal and tongue muscles is essential to the efficiency of these essential human functions. Broadly categorized by their orientation (circular versus longitudinal), these muscles allow the pharynx to change its size and shape to achieve with the required function. Understanding the embryology, structure, blood supply, lymphatics, innervation, and function of each of the paired pharyngeal muscles is critical for diagnosis and treatment of pathologic conditions.[1]

Structure and Function

The pharynx limits extend from the base of the skull to the cricoid cartilage. The three pharyngeal constrictor muscles are delineated by their position relative to one another (superior, middle, and inferior). Their different attachment points and sequential, involuntary contraction allows the pharyngeal lumen to be closed in a cranial to a caudal direction for peristalsis during swallowing, while alternately remaining open for breathing and speaking.[2]

The longitudinal muscles, palatopharyngeus (PP), stylopharyngeus (STP), and salpingopharyngeus (SLP), merge caudally to become the medial aspect of the lateral wall of the pharynx. They function to shorten and elevate the pharynx and during deglutition. There is a hypothesis that because of their insertion relative to the piriform recess, their contraction may also assist in the clearance of food residue. Caudal to the inferior pharyngeal constrictor muscles, the cricopharyngeus muscle functions as part of the upper esophageal sphincter (UES) and has a close relationship with the three longitudinal muscle pairs.[2][3]

Embryology

Embryologically these muscles are derived from the branchial arches that form during the fourth through seventh weeks of gestation. Their blood supply and innervation correlate with the arch from which they derive. The STP is derived from the third branchial arch, while the rest of the pharyngeal muscles arise from the fourth pharyngeal arch.[4]

Blood Supply and Lymphatics

The pharyngeal muscles receive their blood supply from branches of the external carotid artery according to their anatomic location. The ascending pharyngeal artery commonly supplies all of the pharyngeal muscles. Additionally, the constrictor muscles receive vascular supply from the tonsillar branch of the facial artery and the muscular branch of the inferior thyroid artery. The palatopharyngeus and salpingopharyngeus muscles receive additional supply from the ascending palatine branch of the facial artery, and the descending palatine branch of the maxillary artery.[5][6][7]

The lymphatic drainage of the pharynx is a complex network that has a preferential path for specific anatomic locations. In general, the nasopharyngeal and oropharyngeal region lymphatics drain via the middle posterior cervical nodes to the supraclavicular node group.[8]

Nerves

The pharyngeal plexus provides the sensory and motor innervation to the pharynx. It forms via contributions from the vagus and glossopharyngeal nerves, as well as branches of the superior cervical ganglion. Specifically, the motor innervation of the stylopharyngeus muscle is mostly from the glossopharyngeal nerve, while the vagus nerve supplies the innervation to the other pharyngeal muscles. The pharyngeal muscles have a high nerve-muscle fiber ratio of 1:2 to 1:6 which allows for precisely coordinated functions.[2] The innervation of the cricopharyngeus muscle is from the pharyngeal plexus and the recurrent laryngeal nerve.

Muscles

The superior constrictor pharyngeal muscle (SCPM) originates at the lateral base of tongue, medial pterygoid plate, pterygomandibular raphe, pterygoid hamulus, and the posterior end of the mylohyoid line. It inserts onto the pharyngeal raphe and contracts during deglutition to move the soft palate to the posterior pharyngeal wall, thus preventing the bolus from moving upward.[2][9]

The middle constrictor pharyngeal muscle (MCPM) originates from the stylohyoid ligament and the greater and lesser horns of the hyoid bone. It fans out to attach along the pharyngeal raphe, but this muscle rarely reaches the top of the pharynx (superiorly) or thyroid cartilage (inferiorly). The contraction of these fibers constrict and close the pharynx during deglutition to propel the bolus downward.[1]

The inferior constrictor pharyngeal muscle (ICPM) originates from the cricoid and thyroid cartilages and crosses the cricothyroid muscle. It inserts onto the pharyngeal raphe and constricts in coordination with the SCPM and MCPM during deglutition to propel the bolus towards the esophagus. Due to the finding that some of the inferior ICPM fibers merge with fibers of the cricothyroid muscle, the belief is that the ICPM serves as part of the functional UES.[10][11] 

The cricopharyngeus muscle attaches at the cricoid cartilage and wraps around the pharynx. In contrast to the constrictor muscles, it maintains a contracted state during resting physiology to maintain the UES and thus helps to prevent pharyngeal reflux of esophageal contents. During deglutition, the cricopharyngeus relaxes as the bolus descends through the pharynx to allow passage into the esophagus. The coordination of the constrictor muscle peristalsis with this opening of the UES also creates a negative pressure to propel the bolus further.[2][12]

The palatopharyngeus originates from both the oral and nasal side of the soft palate and inserts along the pharyngeal wall. It functions to elevate the pharynx and moves the lateral pharyngeal wall toward the midline, which propels a bolus downward during deglutition.[13]

The stylopharyngeus muscle originates from the styloid process and inserts along the pharyngeal wall. It functions along with the PP and SLP to elevate the pharynx during deglutition.

The SLP originates from the Eustachian tube and inserts along the pharyngeal wall. It functions along with the PP and STP to elevate the pharynx during deglutition.[3]

Physiologic Variants

Minor anatomic and physiologic variations can occur in these pharyngeal muscles, due to the proximity to other structures and a rich neurovascular supply. Additional attachments by the longitudinal muscle group is a common occurrence, with insertions into the palatine tonsil, epiglottis, arytenoid and thyroid cartilage, among others. In one study, the SLP muscle was found to be present in only 63% of cadavers, with the majority being very thin.[3][14]

Surgical Considerations

The pharyngeal muscles have many surgical implications regarding dysphagia, breathing, and cancer resection. Patients undergoing significant resection of pharyngeal muscles during oncologic surgery should have an assessment for dysphagia and aspiration in the postoperative period. Feeding tubes and swallowing therapy may be required. Another example is the importance of preservation of the STP muscle during lateral pharyngoplasty for obstructive sleep apnea.[15] 

Clinical Significance

Swallowing requires precise coordination between many different nerves and muscles, and many problems can arise. As noted above, a common important clinical problem is dysphagia. The prevalence of dysphagia is around 50% in the very elderly and is also 50% in those with neurologic dysfunction. Many severe complications can arise from dysphagia, such as malnutrition or pulmonary aspiration of food or saliva. The prevalence of dysphagia makes it a highly prioritized area of research.[16][17][18] 

The pharyngeal muscles also can be implicated in other processes such as sleep apnea. During sleep, these muscles may become hypotonic and are unable to prevent the collapse of the airway if increased airway resistance/narrowing are present from factors such as generalized hypotonia, obesity, macroglossia (large tongue), tonsillar hypertrophy, retrognathia (short jaw), etc.).[19]

Other Issues

Failure of relaxation of the cricopharyngeus muscle during swallowing (cricopharyngeal achalasia) can lead to both dysphagia and a pathologic outpouching of the pharynx called Zenker's diverticulum. Since the cricopharyngeus does not relax in the usual fashion, pressure from the constrictor muscles and the bolus builds up in the pharynx causing an outpouching of the pharynx that fills with food. Since the cricopharyngeus is innervated by the pharyngeal plexus and the recurrent laryngeal nerve, a thorough workup including complete head, neck, and chest exam are indicated. If possible malignancy is suspected, esophagoscopy, laryngoscopy, and bronchoscopy are required. MRI or CT of the neck and chest may also be necessary since the vagus and recurrent laryngeal nerves pass through the neck and chest. 


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Anatomy, Head and Neck, Pharynx Muscles - Questions

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A student is examining the pharynx in the cadaver lab and notices a grouping of muscles that are arranged circularly around the pharynx. What is the main action of these muscles?



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During deglutition, the pharyngeal constrictor muscles contract as the upper esophageal sphincter (UES) relaxes to allow the bolus to propel downward. The muscle that relaxes to allow the UES to open is innervated by which of the following nerves?



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A 59-year-old female presents to the office complaining of a non-productive cough for the past couple months, regurgitation of previously chewed food, and trouble swallowing. She has a past medical history of hypertension, hyperlipidemia, and diabetes mellitus type 2. Her blood pressure is 137/78 mmHg, heart rate 67 bpm, temperature 97.9 F, and respiratory rate 16/min. On physical examination, halitosis is noted, but no other abnormalities are found. The provider decides to work up her dysphagia. During deglutition, the pharyngeal muscles are mostly innervated by which two nerves?



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A 40-year-old female is undergoing a laryngoscopy to evaluate her dysphagia. During the procedure, the provider asks her to swallow and visualizes her pharyngeal muscles contract. These muscles work closely together and share common origins and insertions. The pterygomandibular raphe serves as a common origin for which of the following muscles?



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An elderly patient with dysphagia has cricopharyngeal spasm or achalasia. What should be examined?



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During deglutition, the pharyngeal muscles work together to propel a food bolus along its path to the esophagus and eventually the stomach. Which of the pharyngeal muscles is the largest?



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A 42-year-old male undergoes a barium swallow study to investigate his 2-week history of dysphagia. The lateral radiograph shows the tongue, pharyngeal muscles, and esophagus working together to successfully propel the bolus. Which muscle of the pharynx has its origin from the cricoid and thyroid cartilages?



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During a thyroidectomy, the external branch of the superior laryngeal nerve is damaged. Which of the following will be affected?



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A 55-year-old male smoker undergoes surgical resection of a large pharyngeal cancer. Which of the following possible post-op complication must be evaluated in this patient?



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Anatomy, Head and Neck, Pharynx Muscles - References

References

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