Lung Structure
The chest cavity contains two lungs: one on the right side of the chest and one on the left side. Each lung is composed of different sections called lobes. The right lung has three lobes, the left only two. Each lobe is further divided into segments and lobules.
The space between the lungs that contains the heart, great vessels, and esophagus is called the mediastinum. A set of tubes, or airways, delivers oxygen to each section of the lung.
As you breathe, air enters your respiratory system through the openings of your nose (nares). It then passes through the nasopharynx (area of the throat behind the nose) and the oropharynx (area of the throat behind the mouth).
These structures make up the upper airways, which are lined with ciliated mucosa. This is a protective, moist tissue layer containing tiny hair-like projections (cilia) that help warm and humidify inhaled oxygen and assist in the removal of foreign particles and excess mucus.
Air continues through the larynx (voice-box)—a structure that connects the upper and lower airways—and then down through the trachea (windpipe), which connects the larynx to the bronchi. The bronchi are larger airways of the lungs that ultimately terminate into smaller airways called bronchioles. Together, the bronchi and bronchioles make up the bronchial tree.
The bronchioles end in alveolar ducts, which lead to alveolar sacs made up of millions of alveoli. The alveoli are the primary gas-exchanging structures in the lungs, where oxygen enters the blood and carbon dioxide is removed. All of these structures function together as your respiratory system.
The Purpose of the Lungs
The lungs are made up of spongy, elastic fibers that allow them to stretch and constrict when we breathe in and out, respectively. The purpose of the lungs is twofold: to deliver oxygen (O2) to the cells and tissues of the body and to remove carbon dioxide (CO2), the waste product of respiration, from the blood.
Oxygen, the body’s most important nutrient, helps your body turn the food that you eat into energy, and, similar to car exhaust, CO2 is removed from your body every time you exhale.
COPD Conditions
The two main forms of COPD are chronic bronchitis and emphysema. Those who have COPD can have either form or a combination of both.
Chronic Bronchitis
Chronic bronchitis is the inflammation of the bronchial tubes (bronchi), which carry air to and from the air sacs (alveoli) in the lungs. Due to the inflammation, a buildup of mucus develops in the tubes, making it harder for your lungs to move air through them. Symptoms of chronic bronchitis can include:
CoughingShortness of breathWheezingChest tightness
Emphysema
Healthy air sacs are elastic and stretchy, allowing each sac to inflate with air when you breathe in and deflate when you breathe out. With emphysema, the walls of the sacs are damaged, causing them to lose their shape.
This damage can lead to the air sacs not inflating and deflating properly, ultimately making it hard for the lungs to move oxygen in and carbon dioxide out of the body. Symptoms of emphysema can include:
CoughingWheezingChest tightnessShortness of breath
Inflamed Lungs
COPD is not the only inflammatory condition that can affect the lungs. Inflamed lungs can develop due to infection or damage to lung structures as well. Inherited disorders like cystic fibrosis can also cause inflammation of the lungs, as can autoimmune conditions. Inflammation of the lungs caused by mild infections like the flu or injuries such as a rib fracture or puncture wound can often resolve with time and treatment.
However, for those who develop inflammation of lung structures due to smoking, exposure to irritants, or inherited disorders like cystic fibrosis, inflammation can become a chronic issue, and irreversible damage to lung structures can occur. This damage can lead to health complications as the lungs cannot effectively move oxygen in and carbon dioxide out of the body.
Causes
Chronic exposure to cigarette smoking is the number one cause of COPD, but repeated exposure to secondhand smoke, air pollution, and occupational exposure (to coal, cotton, grain) are also important risk factors.
Chronic inflammation plays a major role in COPD pathophysiology. Smoking and other airway irritants cause neutrophils, T-lymphocytes, and other inflammatory cells to accumulate in the airways. Once activated, they trigger an inflammatory response in which an influx of molecules, known as inflammatory mediators, navigate to the site in an attempt to destroy and remove inhaled foreign debris.
Under normal circumstances, the inflammatory response is useful and leads to healing. In fact, without it, the body would never recover from injury. In COPD, repeated exposure to airway irritants starts an ongoing inflammatory response that never seems to shut itself off. Over time, this process causes structural and physiological lung changes that get progressively worse.
As inflammation continues, the airways constrict, becoming excessively narrow and swollen. This leads to excess mucus production and poorly functioning cilia—a combination that makes airway clearance especially difficult. When people with COPD can’t clear their secretions, they develop the hallmark symptoms of COPD, which include a chronic productive cough, wheezing, and dyspnea.
Finally, the build-up of mucus attracts a host of bacteria that thrive and multiply in the warm, moist environment of the airway and lungs.
Treatment
The main goal of COPD treatment, no matter which type of COPD, is to improve quality of life, slow the progression of the disease, control COPD symptoms, and prevent COPD from worsening.
No other factor carries more weight in slowing COPD progression than smoking cessation. Other treatment options include antibiotics (for those with evidence of bacterial infection), inhaled bronchodilators, corticosteroids, aerosol therapy, pulmonary rehabilitation, oxygen therapy (for hypoxic patients), flu shots, and sometimes surgical intervention, especially for those with end-stage COPD.
Prevention
As cigarette smoking is the leading cause of COPD, the best method for preventing COPD is to stop or never start smoking. In addition, avoiding exposure to lung irritants like secondhand smoke, air pollution, and environmental or occupational chemicals and dust can decrease your chances of developing COPD. Some ways to avoid irritant exposure include:
Staying indoors when an uptick in air pollution occursNot allowing smoking in your home and workplaceUsing physical and respiratory protective equipment such as masks, gloves, and goggles if exposed to occupational chemicals
A Word From Verywell
COPD is often preventable. Though it can be hard to quit smoking, it is achievable. Also, try your best to avoid lung irritants. If you learn you have COPD, talk thoroughly with your doctor about the many treatment options available that can manage symptoms and slow down the progression.
Stage 1: MildStage 2: ModerateStage 3: SevereStage 4: Very Severe