26.4:

Larynx

JoVE Core
Anatomy and Physiology
Zum Anzeigen dieser Inhalte ist ein JoVE-Abonnement erforderlich.  Melden Sie sich an oder starten Sie Ihre kostenlose Testversion.
JoVE Core Anatomy and Physiology
Larynx

82 Views

01:21 min

September 12, 2024

The human larynx, often referred to as the voice box, is an intricate organ located in the neck. It serves as a pathway for air to enter the lungs during respiration and is an essential component of voice production.

Anatomy of the Larynx

The larynx consists of various components, including cartilage, muscles, and vocal cords. Its structure includes three large unpaired cartilages—the thyroid, cricoid, and epiglottis—and three smaller paired cartilages—the arytenoids, corniculates, and cuneiforms. These cartilages are bound together by ligaments and membranes.

The vocal cords (also known as vocal folds) are two bands of muscle and connective tissue found within the larynx. They vibrate to produce sound and are controlled by branches of the vagus nerve called the recurrent laryngeal nerves and superior laryngeal nerves. The larynx also contains glands that produce mucus, which moistens and protects its lining. Adjacent to the larynx are several important structures, including the hyoid bone, which supports the larynx, and the trachea, into which the larynx opens. Several muscles, such as the sternothyroid and thyrohyoid muscles, help move and stabilize the larynx. Blood supply to the larynx is primarily provided by the superior and inferior laryngeal arteries, and nerve supply comes from the superior and recurrent laryngeal nerves, both branches of the vagus nerve.

Role in Respiration

During respiration, air flows through the larynx into the trachea and then to the lungs. The vocal cords open wide by abducting during inhalation to maximize airflow. During exhalation, they can either remain open for normal breathing or close to allow pressure build-up for actions like coughing or lifting heavy objects.

Respiratory measurements such as tidal volume (the amount of air inhaled or exhaled during normal breathing), inspiratory reserve volume (the maximum amount of air one can inhale after a normal inhalation), and expiratory reserve volume (the maximum amount of air one can exhale after a normal exhalation) are primarily measures of lung function but can be affected by the patency (openness) of the larynx.

Sound and Voice Production

The larynx plays a crucial role in voice production. During phonation, air from the lungs passes through the larynx, causing the vocal cords to vibrate. This vibration creates sound waves, which are then modified by the resonant properties of the vocal tract, including the tongue, palate, and lips, to produce distinct speech sounds. The pitch and tone of the voice can be altered by changing the tension and length of the vocal cords, which are controlled by the cricothyroid and thyroarytenoid muscles. The volume of the voice is determined by the force of the airflow from the lungs and the tension on the vocal cords.

Clinical Importance

Common clinical conditions associated with the larynx include laryngitis (inflammation of the larynx), vocal cord paralysis, and laryngeal cancer. Symptoms can include hoarseness, difficulty swallowing or breathing, and a persistent cough. Treatment options vary depending on the condition and can range from voice therapy and medication to surgery.

In conclusion, the human larynx is an incredibly complex structure that plays a critical role in both respiration and voice production. Its intricate anatomy and function make it a fascinating area of study within the field of medicine.