Lung

The lungs are the main organs of the respiratory system in many animals, including humans. In mammals and most other tetrapods, two lungs sit near the backbone on either side of the heart. Their job is to take oxygen from the air we breathe and put it into our blood. They also let out carbon dioxide from the blood back into the air. This helps our bodies get the air they need to stay alive.

Humans have two lungs, a right lung and a left lung. The right lung is bigger, while the left shares space with the heart. Together, they weigh about as much as a small bag of sugar. Inside the lungs, air travels through many tiny paths until it reaches very small air sacs called alveoli. This is where oxygen and carbon dioxide are exchanged. The lungs are protected by thin layers that let them move easily as we breathe.

Lungs can be affected by illnesses, such as pneumonia or lung cancer. Long-term problems can happen from smoking or being around harmful fumes. Even before we are born, lungs start forming inside us, getting ready to help us breathe when we take our first breath at birth.

Structure

The lungs are the main organs that help animals, including humans, breathe. In humans, the lungs sit in the chest on either side of the heart, inside the rib cage. They have a cone shape, with a rounded top and a wide, flat base.

The left lung has a notch to make space for the heart. Both lungs have a central area where blood vessels and airways enter. The lungs are covered by thin layers of tissue called pleurae that keep them moist and help them move easily while breathing.

Each lung is divided into sections called lobes. The right lung has three lobes, and the left lung has two. These lobes help the lungs expand and contract smoothly as we breathe. Inside the lungs, air travels through a network of airways that end in tiny air sacs called alveoli. It is in these alveoli where oxygen from the air enters the bloodstream, and carbon dioxide from the bloodstream is released to be breathed out.

Main article: Respiratory tract

Lobes and bronchopulmonary segments
Right lung	Left lung
Upper Apical Posterior Anterior Middle Lateral Medial Lower Superior Medial Anterior Lateral Posterior	Upper Apicoposterior Anterior Lingula Superior Inferior Lower Superior Anteriomedial Lateral Posterior

Development

Further information: Sonic hedgehog § Lung development

Lungs during development, showing the early branching of the primitive bronchial buds

Your lungs start forming before you are born. They begin as a tiny bud close to where food goes in your body. They grow into a special shape with many tubes and tiny air sacs.

After you are born, your lungs change a lot. At first, they are filled with fluid and cannot work yet. But very soon after you are born, you take your first breath. The fluid goes away, and your lungs begin to work. They get bigger and more complicated as you grow up.

Function

Main articles: Respiratory system, Breathing, and Gas exchange

The effect of the respiratory muscles in expanding the rib cage

The lungs are important organs that help animals, including humans, breathe. They take in oxygen from the air we breathe and put it into our blood. At the same time, they take carbon dioxide from our blood and release it into the air when we breathe out. This happens in tiny air sacs called alveoli.

The lungs cannot breathe on their own; they need help from muscles in our chest and abdomen. When we breathe in, muscles like the diaphragm and intercostal muscles work to expand the chest cavity, letting the lungs fill with air. When we breathe out, these muscles relax, and the lungs return to their normal size. The lungs also help protect our bodies by trapping dust and germs in mucus, which is moved up and out by tiny hair-like structures called cilia. They also help regulate blood pressure and play a role in speaking by providing the air needed for our voices.

Gene and protein expression

Further information: Bioinformatics § Gene and protein expression

Our bodies have about 20,000 genes that help make important parts called proteins. Most of these genes work in our lungs. A small group of genes works especially in the lungs.

Some important lung proteins help keep our airways open. These include proteins called SFTPA1, SFTPB, and SFTPC, as well as napsin. Other proteins help cells move things along, like the dynein protein DNAH5. There are also proteins such as SCGB1A1 that help make mucus in special cells called goblet cells.

Clinical significance

Main articles: Respiratory disease and Pulmonology

Lungs can have many health problems. Doctors who care for lungs are called pulmonologists. They study diseases that affect breathing. Some of these diseases make it hard to breathe. Lungs can become inflamed or infected when germs like bacteria or viruses make us sick. Sometimes, lungs can be injured by blows to the chest or by breathing in harmful substances. Some people are born with lung problems. Others develop lung issues later in life due to things like smoking or long-term exposure to dust and other pollutants. There are also diseases that make the lungs stiff or scarred, which can make breathing difficult.

Culinary uses

Some people eat animal lungs with other parts like the heart. This is called offal. In the United States, rules stop selling animal lungs as food for safety reasons.

Other animals

Birds

Main article: Bird anatomy § Respiratory system

Birds have small lungs linked to eight or nine air sacs that run through their bodies. When a bird breathes in, air travels through its trachea into these air sacs. The air then moves through the lungs and out through front air sacs when the bird breathes out. Bird lungs contain many tiny passages called parabronchi where blood flows to help swap gases efficiently.

Reptiles

Main article: Reptile anatomy § Respiratory system

Most reptiles have lungs with one bronchus that splits into many pockets, making the lungs look spongy. Some reptiles, like snakes, often have just one large lung. Crocodilians and monitor lizards have lungs similar to birds, with air moving in one direction and even having air sacs. Reptiles usually breathe by moving their ribs, while crocodiles also use a special muscle to help pull air into their lungs.

Amphibians

Further information: Frog § Respiration and circulation

Frogs and other amphibians have simple, balloon-like lungs. They breathe using a method called buccal pumping, where they push air into their lungs by pressing their throat against their skull. Amphibians can also take in gases through their skin when in water, which helps them get enough oxygen. Most salamanders do not have lungs and breathe through their skin.

Fish

Lungs are found in some fish groups like coelacanths, bichirs, and lungfish. Bichirs have simple lung sacs, while lungfish have more complex lungs with many chambers. In lungfish, the lungs sit in the upper part of the body, with a duct that curves around the esophagus.

Invertebrates

Further information: Respiratory system of gastropods

Some invertebrates have structures that act like lungs. Spiders and scorpions have book lungs for breathing air. The coconut crab uses special lungs to breathe on land. Land snails and slugs have developed simple lungs from their mantle cavity, with an opening called the pneumostome to take in air.

Evolutionary origins

The lungs of land animals and the gas bladders of fish began as simple sacs in early fish. These sacs were outpocketings of the oesophagus, letting fish gulp air when there was little oxygen in the water. In most ray-finned fish, these sacs became closed gas bladders. But in some fish like carp, trout, herring, catfish, and eels, the sac stays open to the oesophagus. In basic bony fish such as the gar, bichir, bowfin, and lobe-finned fish, these sacs developed into lungs. The lobe-finned fish are the ancestors of land animals, called tetrapods. So, the lungs of vertebrates are similar in origin to the gas bladders of fish, though not to their gills.