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Intrinsic muscles of the larynx

Changed by Craig Hacking, 21 Apr 2016
Back to revision history

Updates to Article Attributes

Body was changed:

The intrinsic muscles of the larynx can be considered in two groups: muscles that control the inlet of the larynx and the muscles that move the vocal ligaments.

Muscles of the inlet

· 

  • Aryepiglottic: This muscle lies within the aryepiglottic fold, runs from the side of the epiglottis and inserts onto the muscular process and posterior surface of the arytenoid cartilage on the same side.

    · 

  • Oblique arytenoid: This pair of muscles runs from the muscular process of one arytenoid cartilage to the opposite aryepiglottic muscle and corniculate cartilage, therefore creating an X shape superficial to the transverse arytenoid muscle.

    · 

  • Thyroepiglottic: Originates from the upper border of the lamina of the thyroid cartilage and inserts into the side of the epiglottis.

These muscles act to close the inlet of the larynx by drawing the epiglottis down so that its lower half makes contact with the arytenoids. This creates an effective protection from swallowed material. The inlet is opened by air pressure from the respiratory tract below.

Muscles of the vocal folds

· 

  • Cricothyroid: This triangular muscle runs from the anterolateral part of the cricoid cartilage, fans out and inserts onto the inferior margin and inferior horn of the thyroid cartilage.

    · 

  • Thyroarytenoid: Like the thyroepiglottic muscle, the thyroarytenoid orginates from the upper border of the lamina of the thyroid cartilage. However, this muscle runs to insert onto the anterolateral arytenoid surface.

    · 

  • Posterior cricoarytenoid: It arises from the posterior surface of the lamina of the cricoid cartilage and inserts onto the vocal process of the arytenoid cartilage.

    · 

  • Lateral cricoarytenoid: This muscle arises from the upper border of the cricoid arch and its fibers pass backwards and upwards to insert onto the vocal process of the arytenoid cartilage.

    · 

  • Transverse arytenoid: This consists of a mass of transverse fibers, which connects the posterior surfaces of the arytenoid cartilages together.

    · 

  • Vocalis: This muscles origin is at the lateral surface of the vocal process of the arytenoid cartilage. It inserts onto the ipsilateral vocal ligament.
Actions of the intrinsic muscles

These muscles act in opposite pairs in order to open and close, or lengthen and shorten the vocal folds:

· 

  • Adductors and abductors: The lateral cricoarytenoid muscles pull the muscular processes anteriorly which rotates the arytenoid cartilages so that the vocal processes swing medially. They are the principal adductors.  When they act with the transverse and oblique arytenoid muscles, which pull the arytenoid cartilages together, this brings about phonation. The only muscles that abduct the vocal folds are the posterior cricoarytenoid muscles. They pull the muscular processes posteriorly, which rotates the vocal processes laterally.

    · 

  • Tensors: The cricothyroid muscles pull the angle of the thyroid cartilage anteriorly and inferiorly toward the arch of the cricoid cartilage, which causes elongation and tightening of the vocal ligaments. This brings about a higher pitch of phonation.

    · 

  • Relaxers: The thyroarytenoid muscles pull the arytenoid cartilages anteriorly which reduces the vocal ligaments and therefore lowers the pitch of the voice.

    · 

  • Fine adjustments: The vocalis muscles bring about this by selectively tensing and relaxing the anterior and posterior parts of the vocal folds. This action only occurs when the vocal folds are in contact for phonation, and therefore contributes to changes in pitch during animated speech or singing.

Many of these muscles also help contribute to closing and protecting the laryngeal inlet. The muscles involved are the lateral cricoarytenoids, transverse and oblique arytenoids, and aryepiglottic muscles. Contraction of these muscles brings the aryepiglottic folds together and pulls the arytenoid cartilages toward the epiglottis.

Innervation

All but one intrinsic muscle of the larynx is supplied by the inferior laryngeal nerve, which is the terminal part of the recurrent laryngeal nerve, from the vagus nerve (CN X). The only exception is the cricothyroid muscle, which is supplied by the external laryngeal nerve, which is a branch of the vagus nerve (CN X).

Related Pathology
  • Recurrent laryngeal nerve palsy
  • Superior laryngeal nerve palsy
  • Spasmodic dysphonia
  • Essential Vocal Tremor
  • -<![endif]--><!--StartFragment-->The <strong>intrinsic muscles of the larynx</strong> can be considered in two groups: muscles that control the inlet of the <a href="/articles/larynx">larynx</a> and the muscles that move the vocal ligaments.</p><h5><strong>Muscles of the inlet</strong></h5><p><!--[if !supportLists]-->· <strong>Aryepiglottic</strong>: This muscle lies within the aryepiglottic fold, runs from the side of the <a href="/articles/epiglottis">epiglottis</a> and inserts onto the muscular process and posterior surface of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a> on the same side.</p><p><!--[if !supportLists]-->· <strong>Oblique arytenoid</strong>: This pair of muscles runs from the muscular process of one <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a> to the opposite aryepiglottic muscle and corniculate cartilage, therefore creating an X shape superficial to the transverse arytenoid muscle.</p><p><!--[if !supportLists]-->· <strong>Thyroepiglottic</strong>: Originates from the upper border of the lamina of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a> and inserts into the side of the <a href="/articles/epiglottis">epiglottis</a>.</p><p>These muscles act to close the inlet of the <a href="/articles/larynx">larynx</a> by drawing the <a href="/articles/epiglottis">epiglottis</a> down so that its lower half makes contact with the <a href="/articles/arytenoid-cartilage">arytenoids</a>. This creates an effective protection from swallowed material. The inlet is opened by air pressure from the respiratory tract below.</p><h5>Muscles of the vocal folds</h5><p><!--[if !supportLists]-->· <strong>Cricothyroid</strong>: This triangular muscle runs from the anterolateral part of the <a href="/articles/cricoid-cartilage">cricoid cartilage</a>, fans out and inserts onto the inferior margin and inferior horn of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a>.</p><p><!--[if !supportLists]-->· <strong>Thyroarytenoid</strong>: Like the thyroepiglottic muscle, the thyroarytenoid orginates from the upper border of the lamina of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a>. However, this muscle runs to insert onto the anterolateral <a href="/articles/arytenoid-cartilage">arytenoid</a> surface.</p><p><!--[if !supportLists]-->· <strong>Posterior cricoarytenoid</strong>: It arises from the posterior surface of the lamina of the <a href="/articles/cricoid-cartilage">cricoid cartilage</a> and inserts onto the vocal process of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a>.</p><p><!--[if !supportLists]-->· <strong>Lateral cricoarytenoid</strong>: This muscle arises from the upper border of the <a href="/articles/cricoid-cartilage">cricoid arch</a> and its fibers pass backwards and upwards to insert onto the vocal process of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a>.</p><p><!--[if !supportLists]-->· <strong>Transverse arytenoid</strong>: This consists of a mass of transverse fibers, which connects the posterior surfaces of the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> together.</p><p><!--[if !supportLists]-->· <strong>Vocalis</strong>: This muscles origin is at the lateral surface of the vocal process of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a>. It inserts onto the ipsilateral vocal ligament.</p><h5>Actions of the intrinsic muscles</h5><p>These muscles act in opposite pairs in order to open and close, or lengthen and shorten the vocal folds:</p><p><!--[if !supportLists]-->· <strong>Adductors and abductors</strong>: The lateral cricoarytenoid muscles pull the muscular processes anteriorly which rotates the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> so that the vocal processes swing medially. They are the principal adductors.  When they act with the transverse and oblique arytenoid muscles, which pull the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> together, this brings about phonation. The only muscles that abduct the vocal folds are the posterior cricoarytenoid muscles. They pull the muscular processes posteriorly, which rotates the vocal processes laterally.</p><p><!--[if !supportLists]-->· <strong>Tensors</strong>: The cricothyroid muscles pull the angle of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a> anteriorly and inferiorly toward the arch of the <a href="/articles/cricoid-cartilage">cricoid cartilage</a>, which causes elongation and tightening of the vocal ligaments. This brings about a higher pitch of phonation.</p><p><!--[if !supportLists]-->· <strong>Relaxers</strong>: The thyroarytenoid muscles pull the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> anteriorly which reduces the vocal ligaments and therefore lowers the pitch of the voice.</p><p><!--[if !supportLists]-->· <!--[endif]--><strong>Fine adjustments</strong>: The vocalis muscles bring about this by selectively tensing and relaxing the anterior and posterior parts of the vocal folds. This action only occurs when the vocal folds are in contact for phonation, and therefore contributes to changes in pitch during animated speech or singing.</p><p>Many of these muscles also help contribute to closing and protecting the laryngeal inlet. The muscles involved are the lateral cricoarytenoids, transverse and oblique arytenoids, and aryepiglottic muscles. Contraction of these muscles brings the aryepiglottic folds together and pulls the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> toward the <a href="/articles/epiglottis">epiglottis</a>.</p><h5>Innervation</h5><p>All but one intrinsic muscle of the <a href="/articles/larynx">larynx</a> is supplied by the <a href="/articles/recurrent-laryngeal-nerve">inferior laryngeal nerve</a>, which is the terminal part of the <a href="/articles/recurrent-laryngeal-nerve">recurrent laryngeal nerve</a>, from the <a href="/articles/vagus-nerve">vagus nerve</a> (CN X). The only exception is the cricothyroid muscle, which is supplied by the <a href="/articles/external-laryngeal-nerve">external laryngeal nerve</a>, which is a branch of the <a href="/articles/vagus-nerve">vagus nerve</a> (CN X).</p><h5>Related Pathology</h5><ul>
  • +<![endif]--><!--StartFragment-->The <strong>intrinsic muscles of the larynx</strong> can be considered in two groups: muscles that control the inlet of the <a href="/articles/larynx">larynx</a> and the muscles that move the vocal ligaments.</p><h5><strong>Muscles of the inlet</strong></h5><ul>
  • +<li>
  • +<strong>Aryepiglottic</strong>: This muscle lies within the aryepiglottic fold, runs from the side of the <a href="/articles/epiglottis">epiglottis</a> and inserts onto the muscular process and posterior surface of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a> on the same side.</li>
  • +<li>
  • +<strong>Oblique arytenoid</strong>: This pair of muscles runs from the muscular process of one <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a> to the opposite aryepiglottic muscle and corniculate cartilage, therefore creating an X shape superficial to the transverse arytenoid muscle.</li>
  • +<li>
  • +<strong>Thyroepiglottic</strong>: Originates from the upper border of the lamina of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a> and inserts into the side of the <a href="/articles/epiglottis">epiglottis</a>.</li>
  • +</ul><p>These muscles act to close the inlet of the <a href="/articles/larynx">larynx</a> by drawing the <a href="/articles/epiglottis">epiglottis</a> down so that its lower half makes contact with the <a href="/articles/arytenoid-cartilage">arytenoids</a>. This creates an effective protection from swallowed material. The inlet is opened by air pressure from the respiratory tract below.</p><h5>Muscles of the vocal folds</h5><ul>
  • +<li>
  • +<strong>Cricothyroid</strong>: This triangular muscle runs from the anterolateral part of the <a href="/articles/cricoid-cartilage">cricoid cartilage</a>, fans out and inserts onto the inferior margin and inferior horn of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a>.</li>
  • +<li>
  • +<strong>Thyroarytenoid</strong>: Like the thyroepiglottic muscle, the thyroarytenoid orginates from the upper border of the lamina of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a>. However, this muscle runs to insert onto the anterolateral <a href="/articles/arytenoid-cartilage">arytenoid</a> surface.</li>
  • +<li>
  • +<strong>Posterior cricoarytenoid</strong>: It arises from the posterior surface of the lamina of the <a href="/articles/cricoid-cartilage">cricoid cartilage</a> and inserts onto the vocal process of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a>.</li>
  • +<li>
  • +<strong>Lateral cricoarytenoid</strong>: This muscle arises from the upper border of the <a href="/articles/cricoid-cartilage">cricoid arch</a> and its fibers pass backwards and upwards to insert onto the vocal process of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a>.</li>
  • +<li>
  • +<strong>Transverse arytenoid</strong>: This consists of a mass of transverse fibers, which connects the posterior surfaces of the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> together.</li>
  • +<li>
  • +<strong>Vocalis</strong>: This muscles origin is at the lateral surface of the vocal process of the <a href="/articles/arytenoid-cartilage">arytenoid cartilage</a>. It inserts onto the ipsilateral vocal ligament.</li>
  • +</ul><h5>Actions of the intrinsic muscles</h5><p>These muscles act in opposite pairs in order to open and close, or lengthen and shorten the vocal folds:</p><ul>
  • +<li>
  • +<strong>Adductors and abductors</strong>: The lateral cricoarytenoid muscles pull the muscular processes anteriorly which rotates the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> so that the vocal processes swing medially. They are the principal adductors.  When they act with the transverse and oblique arytenoid muscles, which pull the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> together, this brings about phonation. The only muscles that abduct the vocal folds are the posterior cricoarytenoid muscles. They pull the muscular processes posteriorly, which rotates the vocal processes laterally.</li>
  • +<li>
  • +<strong>Tensors</strong>: The cricothyroid muscles pull the angle of the <a href="/articles/thyroid-cartilage">thyroid cartilage</a> anteriorly and inferiorly toward the arch of the <a href="/articles/cricoid-cartilage">cricoid cartilage</a>, which causes elongation and tightening of the vocal ligaments. This brings about a higher pitch of phonation.</li>
  • +<li>
  • +<strong>Relaxers</strong>: The thyroarytenoid muscles pull the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> anteriorly which reduces the vocal ligaments and therefore lowers the pitch of the voice.</li>
  • +<li>
  • +<strong>Fine adjustments</strong>: The vocalis muscles bring about this by selectively tensing and relaxing the anterior and posterior parts of the vocal folds. This action only occurs when the vocal folds are in contact for phonation, and therefore contributes to changes in pitch during animated speech or singing.</li>
  • +</ul><p>Many of these muscles also help contribute to closing and protecting the laryngeal inlet. The muscles involved are the lateral cricoarytenoids, transverse and oblique arytenoids, and aryepiglottic muscles. Contraction of these muscles brings the aryepiglottic folds together and pulls the <a href="/articles/arytenoid-cartilage">arytenoid cartilages</a> toward the <a href="/articles/epiglottis">epiglottis</a>.</p><h5>Innervation</h5><p>All but one intrinsic muscle of the <a href="/articles/larynx">larynx</a> is supplied by the <a href="/articles/recurrent-laryngeal-nerve">inferior laryngeal nerve</a>, which is the terminal part of the <a href="/articles/recurrent-laryngeal-nerve">recurrent laryngeal nerve</a>, from the <a href="/articles/vagus-nerve">vagus nerve</a> (CN X). The only exception is the cricothyroid muscle, which is supplied by the <a href="/articles/external-laryngeal-nerve">external laryngeal nerve</a>, which is a branch of the <a href="/articles/vagus-nerve">vagus nerve</a> (CN X).</p><h5>Related Pathology</h5><ul>

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