How To Get Rid Of Trapped Air In Lungs

Your lungs lie on each side of your heart inside your chest cavity. The right lung is divided into three lobes (sections), and the left lung is divided into two lobes. Your left lung is slightly smaller than your right lung, since your heart takes up some space on the left side. When you breathe in, air enters your airways and travels down into the alveoli (air sacs) in your lungs. This is where gas exchange takes place.

The circulatory system, which is made up of the heart and blood vessels, supports the respiratory system by bringing blood to and from the lungs. The circulatory system helps to deliver nutrients and oxygen from the lungs to tissues and organs throughout the body and removes carbon dioxide and waste products. Other body systems that work with the respiratory system include the nervous system, lymphatic system , and immune system.

Airways

The airways are pipes that carry oxygen-rich air to the alveoli in your lungs. They also carry the waste gas carbon dioxide out of your lungs. The airways include these parts of your body:

Mouth
Nose and linked air passages called the nasal cavity and sinus
Larynx (voice box)
Trachea (windpipe)
Tubes called bronchial tubes , or bronchi, and their branches
Small tubes called bronchioles that branch off of the bronchial tubes

Breathing air into your lungs. When you breathe in, air enters your nose and/or mouth, and passes into your windpipe, also called the trachea. The windpipe divides into two bronchial tubes, or bronchi, then branches into smaller bronchioles. The bronchioles end in tiny air sacs, called alveoli. Here the oxygen you inhale passes into the bloodstream, and carbon dioxide from your body passes out of the bloodstream into the air in your lungs. The carbon dioxide is expelled from your body when you exhale. Medical Animation Copyright © 2020 Nucleus Medical Media Inc. All rights reserved.

Air comes into your body

Air first enters your body through your nose or mouth, which moistens and warms the air since cold, dry air can irritate your lungs. The air then travels past your voice box and down your windpipe. Rings of tough tissue, called cartilage, acts as a support to keep the bronchial tubes open.

Inside your lungs, the bronchial tubes branch into thousands of thinner tubes called bronchioles. The bronchioles end in clusters of tiny air sacs called alveoli.

Air fills your lung's air sacs

Your lungs have about 150 million alveoli. Normally, your alveoli are elastic, meaning that their size and shape can change easily. Alveoli are able to easily expand and contract, because their insides are coated with a substance called surfactant. Surfactant reduces the work it takes to breathe by helping the lungs inflate more easily when you breathe in and preventing the lungs from collapsing when you breath out.

Each of these alveoli is made up of a mesh of tiny blood vessels called capillaries. The capillaries connect to a network of arteries and veins that move blood through your body.

Blood low in oxygen flows through the lungs

The pulmonary artery and its branches deliver blood to the capillaries that surround the alveoli. This blood is rich in carbon dioxide and low in oxygen.

Oxygen flows into your blood

Carbon dioxide moves from the blood into the air inside the alveoli. At the same time, oxygen moves from the air into the blood in the capillaries.

How does my body protect the airways from food or bacteria?

The body's muscles and nervous system help control your breathing.

The muscles used for breathing

The lungs are like sponges; they cannot expand (get bigger) on their own. Muscles in your chest and abdomen contract (tighten) to create a slight vacuum around your lungs. This causes air to flow in. When you exhale, the muscles relax and the lungs deflate on their own, much like an elastic balloon will deflate if left open to the air.

The breathing muscles include the:

Diaphragm, which is a dome-shaped muscle below your lungs. It separates the chest cavity from the abdominal cavity. The diaphragm is the main muscle used for breathing.
The muscles between your ribs, called intercostal muscles, play a role in breathing during physical activity.
Abdominal muscles help you breathe out when you are breathing fast, such as during physical activity.
Muscles of the face, mouth, and pharynx. The pharynx is the part of the throat right behind the mouth. These muscles control the lips, tongue, soft palate, and other structures to help with breathing. Problems with these muscles can narrow the airway, make it more difficult to breathe, and contribute to sleep apnea.
Muscles in the neck and collarbone area help you breathe in.

**Cross-section of lungs to show the diaphragm.** The main image shows the location of the lungs, pleura, and diaphragm.

Damage to the nerves in the upper spinal cord can interfere with the movement of your diaphragm and other muscles in your chest, neck, and abdomen. This can happen due to a spinal cord injury, a stroke, or a degenerative disease such as muscular dystrophy. The damage can cause respiratory failure . Ventilator support or oxygen therapy may be necessary to maintain oxygen levels in the body and protect the organs from damage.

The nervous system

Your breathing usually does not require any thought, because it is controlled by the autonomic nervous system, also called the involuntary nervous system.

The parasympathetic system slows your breathing rate. It causes your bronchial tubes to narrow and the pulmonary blood vessels to widen.
The sympathetic system increases your breathing rate. It makes your bronchial tubes widen and the pulmonary blood vessels narrow.

Your breathing changes depending on how active you are and the condition of the air around you. For example, you need to breathe more often when you do physical activity. At times, you can control your breathing pattern, such as when you hold your breath or sing.

To help adjust your breathing to changing needs, your body has sensors that send signals to the breathing centers in the brain.

Sensors in the airways detect lung irritants. The sensors can trigger sneezing or coughing. In people who have asthma, the sensors may cause the muscles around the airways in the lungs to contract. This makes the airways smaller.
Sensors in the brain and near blood vessels detect carbon dioxide and oxygen levels in your blood.
Sensors in your joints and muscles detect the movement of your arms or legs. These sensors may play a role in increasing your breathing rate when you are physically active.

In central sleep apnea, the brain temporarily stops sending signals to the muscles needed to breathe. Learn more at our Sleep Apnea Health Topic.

Breathing involves two phases: breathing in and breathing out. If you have problems breathing, gas exchange may be impaired, which can be a serious health problem.

Breathing in

When you breathe in, or inhale, your diaphragm contracts and moves downward. This increases the space in your chest cavity, and your lungs expand into it. The muscles between your ribs also help enlarge the chest cavity. They contract to pull your rib cage both upward and outward when you inhale.

As your lungs expand, air is sucked in through your nose or mouth. The air travels down your windpipe and into your lungs. After passing through your bronchial tubes, the air travels to the alveoli, or air sacs.

Gas exchange

Gas exchange in your lungs.When you breathe in, air enters your nose or mouth, and passes into your windpipe, also called the trachea. At the bottom, the windpipe divides into two bronchial tubes, then branches into smaller bronchioles. The brochioles end in tiny air sacs, called alveoli. In the alveoli, the oxygen you inhaled passes into the bloodstream, and carbon dioxide from your body passes out of the bloodstream. The carbon dioxide is expelled from your body when you exhale. Medical Animation Copyright © 2020 Nucleus Medical Media Inc. All rights reserved.

Through the thin walls of the alveoli, oxygen from the air passes into your blood in the surrounding capillaries. At the same time, carbon dioxide moves from your blood into the air sacs. The oxygen in your blood is carried inside your red blood cells by a protein called hemoglobin .

The oxygen-rich blood from your lungs is carried to the left side of the heart through the pulmonary veins. The heart pumps the blood to the rest of the body, where oxygen in the red blood cells moves from blood vessels into your cells.

Your cells use oxygen to make energy so your body can work. During this process, your cells also make a waste gas called carbon dioxide. Carbon dioxide needs to be breathed out or it can damage your cells.

Carbon dioxide moves from the cells into the bloodstream, where it travels to the right side of your heart. The blood rich in carbon dioxide is then pumped from the heart through the pulmonary artery to the lungs, where it is breathed out.

For more information on blood flow, visit our How the Heart Works Health Topic.

Breathing out

When you breathe out, or exhale, your diaphragm and rib muscles relax, reducing the space in the chest cavity. As the chest cavity gets smaller, your lungs deflate, similar to releasing of air from a balloon. At the same time, carbon dioxide-rich air flows out of your lungs through the windpipe and then out of your nose or mouth.

Breathing out requires no effort from your body unless you have a lung disease or are doing physical activity. When you are physically active, your abdominal muscles contract and push your diaphragm against your lungs even more than usual. This rapidly pushes air out of your lungs.

Conditions that affect the respiratory system

Damage, infection, or inflammation in the lungs or airways or both, can lead to the following conditions.

Acute Respiratory Distress Syndrome
Asbestos-related lung diseases
Asthma
Atelectasis
Bronchitis
COPD
Hypersensitivity pneumonitis
Idiopathic pulmonary fibrosis
Pleural Disorders
Pneumonia
Primary ciliary dyskinesia
Sarcoidosis
Sleep Apnea

Exposure to cigarette smoke, air pollutants, or other substances can damage the airways, causing disease of the airways or making a disease more severe.