How Does Breathing Actually Work???

Institute of Human Anatomy

2 Apr 202121:44

Summary

TLDRThis video delves into the mechanics of human breathing, exploring the anatomy and muscles involved in both inhalation and exhalation. It explains how the diaphragm, intercostal muscles, and accessory muscles like the scalenes and sternocleidomastoid aid in expanding the thoracic cavity to draw in air. The brainstem's medulla oblongata controls involuntary breathing, while the cerebral cortex allows conscious control. The video also touches on how emotions, mediated by the hypothalamus, can influence breathing patterns, showcasing the complexity and adaptability of the respiratory system.

Takeaways

😀 The diaphragm is the main muscle responsible for changing the volume of the thoracic cavity during breathing, pulling downward to increase space for air intake.
😀 The lungs are divided into lobes (three on the right, two on the left), with a thin membrane called the pleura lining the lung and chest wall to reduce friction and assist with lung expansion.
😀 During inhalation, the thoracic cavity expands both vertically (diaphragm) and laterally (intercostal muscles), causing air to rush in due to lower pressure inside the lungs compared to atmospheric pressure.
😀 The diaphragm's contraction and relaxation are key to both inspiration and expiration, with its relaxation helping to decrease the thoracic volume during exhalation.
😀 The external intercostal muscles, which help elevate the ribs, play a critical role in the breathing process by increasing thoracic volume during inhalation.
😀 Additional muscles, such as the sternocleidomastoid, scalenes, and pec minor, are accessory muscles that assist in deeper or more forceful breathing during exercise or stress.
😀 The pleura membranes (parietal and visceral) are crucial for reducing friction during lung expansion and preventing the lungs from collapsing in the chest cavity.
😀 The process of breathing is driven by pressure changes: increasing thoracic volume decreases pressure, which causes air to flow into the lungs.
😀 Expiration during normal breathing requires minimal muscle involvement, relying mainly on the natural recoil of the diaphragm and external intercostals.
😀 The control of breathing is regulated by the respiratory center in the medulla oblongata of the brainstem, which sends signals to the diaphragm and intercostals for normal breathing, and other muscles for forced breathing.

Q & A

What is the primary purpose of breathing?
-The primary purpose of breathing is to exchange carbon dioxide and oxygen with the bloodstream, facilitating oxygen delivery to tissues and the removal of carbon dioxide from the body.
What are the two main methods by which the thoracic cavity volume is increased during inhalation?
-The thoracic cavity volume is increased in two ways: vertically, by the diaphragm contracting and pulling down, and horizontally, by the external intercostal muscles elevating the ribs.
What is the role of the pleural membranes in the respiratory system?
-The pleural membranes, consisting of the parietal pleura (lining the thoracic wall) and visceral pleura (covering the lungs), create a sealed environment with a small amount of fluid between them. This reduces friction during lung expansion and helps keep the lungs adherent to the thoracic wall.
How does the diaphragm contribute to breathing?
-The diaphragm plays a crucial role in breathing by contracting and pulling downward, which increases the vertical volume of the thoracic cavity, allowing air to flow into the lungs. During quiet breathing, it moves about 1 cm, but during deep breathing or exercise, it can move up to 10 cm.
What are the muscles involved in forced inhalation (deep breathing or exercise)?
-In addition to the diaphragm, the muscles involved in forced inhalation include the external intercostals, sternocleidomastoid, scalenes, and pectoralis minor. These muscles help expand the thoracic cavity further during deep breathing or exercise.
What happens to the pressure inside the thoracic cavity during inhalation, and why is this important for air intake?
-During inhalation, the volume of the thoracic cavity increases, which decreases the pressure inside. This lower pressure inside the cavity compared to the external atmospheric pressure causes air to rush into the lungs, facilitating oxygen intake.
How do abdominal muscles aid in exhalation?
-Abdominal muscles, such as the rectus abdominis and obliques, contract to help force air out of the lungs. These muscles apply pressure to the abdominal cavity, which helps push the diaphragm upward, reducing the thoracic cavity volume and expelling air.
What is the respiratory pump, and why is it important?
-The respiratory pump refers to the action of the diaphragm and abdominal muscles during breathing, which not only facilitates airflow into the lungs but also promotes blood flow back to the heart from the lower limbs by creating pressure changes in the abdominal cavity.
What is the role of the medulla oblongata in breathing?
-The medulla oblongata houses the dorsal respiratory group, which controls normal, quiet breathing by sending signals to the diaphragm and external intercostals. It also interacts with other brain centers to regulate forced breathing and response to exercise.
How does the brain control voluntary breathing, like taking a deep breath or holding one's breath?
-Voluntary control of breathing comes from the cerebral cortex, which can send signals to the medulla oblongata to regulate breathing consciously. This allows actions such as taking a deep breath, holding the breath, or adjusting breathing rate based on conscious intent.