Anatomy/Respiratory System

The respiratory system is a topic of the event Anatomy.

Functions

 * Ventilation - the exchange of gases
 * Respiration - supply oxygen and remove carbon dioxide from blood as it circulates through the body (external respiration, not cellular respiration)
 * Regulating blood pH - the more carbon dioxide in the blood stream, the lower the pH of the blood.
 * Speech and other vocal sounds

Mechanics
The Respiratory system is controlled in mammals by the diaphragm muscle. When the diaphragm relaxes, the thoracic cavity decreases in size. However, when the muscle contracts, it pulls downward, adding size to the thoracic cavity. While this happens, the intercostal muscles pull upwards on the ribcage, adding more space to the thoracic cavity. When the diaphragm relaxes, it pushes upward on the lungs, along with the intercostal muscles pushing downward on the ribcage. These muscles decrease the volume while increasing their internal pressure. When the diaphragm contracts, the lungs gain volume and lose pressure, causing a partial vacuum. Having no choice at this point but to follow the laws of nature, air follows the pressure gradient and rushes into the lungs.

There are two main breathing patterns: quiet breathing and forced breathing.

In quiet breathing, muscles contract voluntarily to let air in the lungs (an active process), but muscles relax when you exhale (passive process).

In forced breathing, muscles contract voluntarily in both inspiration and expiration.



Parts of the Respiratory System
The upper respiratory system consists of the organs from the nostrils to the pharynx, in order of where the air passes. The lower respiratory system stretches from the top of the trachea to the diaphragm.


 * Air is taken in through the nose.
 * The nostrils are one of two places where air enters and exits respiratory system. It has hair to trap dirt, dust particles, and bacteria.
 * The nasal septum separates the nasal cavities.
 * Three bones of the nasal conchae provide more surface area inside the nose, as they are rolled up like conch shells.
 * The respiratory mucosa lines the nasal cavity and has tiny cilia that move dirty mucus toward the outside of the nostrils.
 * Lacrimal glands secrete tears that flow across the eye's surface and drain through the openings in the lacrimal puncta (more commonly known as the corner of the eye) into nasolacrimal ducts and nasal cavities. This is why your nose runs when you cry.
 * Sinuses are air spaces in the skull that lighten the weight of the head. They open into nasal cavities to receive air and are lined with mucous membranes.
 * Air passes through the pharynx on its way to the lungs.
 * The nasopharynx is the top part of your throat where your nasal cavities drain.
 * The hard palate is what you feel at the roof of your mouth. It is a bony plate that separates the mouth (oral cavity) from the nose (nasal cavities).
 * The soft part on the roof of your mouth, nearer the back of the throat, is the soft palate.
 * Beyond the soft palate itself is the nasopharynx. The soft palate moves backward when you swallow so that the nasopharynx is blocked, ensuring you don't literally inhale your food. (When you laugh while eating, the soft palate begins to move back but is thrust forward suddenly, sending the contents of your mouth to your nasal cavities to fly out of your nose.)
 * The oropharynx (more commonly known as "the back of the throat"), is near the middle of your throat.
 * It extends from the uvula to the level of the hyoid bone.
 * It is also the location of the epiglottis, a cartilage structure that guides materials passing through to either the trachea or esophagus, depending on what the material is. It covers the glottis and blocks food from getting into the larynx when swallowing.
 * The laryngopharynx is the lower part of your throat adjacent to the larynx.
 * The larynx, more commonly known as the voice box, is a triangular structure.
 * At the apex of the triangle is the thyroid cartilage, better known as the Adam's apple.
 * At the top of the larynx is the glottis, which is the opening through which air passes.
 * The vocal chords are inside the glottis. They gather mucous membranes that cover ligaments. Pushing more air over the vocal chords makes the sound (singing, speaking, etc.) louder, while tightening the vocal chords narrows the glottis, making a higher-pitched sound.
 * The trachea (more commonly known as the windpipe) is a tube that runs from the larynx to just above the lungs.
 * It divides into two large branches behind the sternum called primary bronchi that enter each lung.
 * Both the trachea and the bronchi are made of smooth muscle and cartilage, allowing airways to contract and expand.
 * The lungs are large paired organs within the chest cavity on either side of the heart. They are protected by the rub cage.
 * The lungs sit atop the diaphragm, a powerful muscle fixed to the lower ribs, sternum, and lumbar vertebrae.
 * The heart sits in a depression between the lungs called a cardiac notch.
 * The lungs are separated into lobes (three for the right lung, two for the left), then segments, then lobules.
 * The pleural sac encloses the lungs and is made up of two membranes, the parietal pleura, which is attached to the thoracic wall, and the visceral pleura, which is attached to the lung's surface. The pleural cavity is between them and contains a lubricating fluid called intrapleural fluid.
 * Because of the adhesive force of the fluid interface between the parietal and visceral pleurae, the lungs expand and contract as the chest rises and falls.
 * Intrapleural fluid surrounds the lungs, moistening and lubricating the pleural membranes. It has a pressure lower than atmospheric pressure, as there is little air in the fluid, so the lungs stay inflated.
 * After the primary bronchus enters the lung on each side, it splits into secondary and tertiary branches called bronchi.
 * Tertiary bronchi divide into smaller branches called bronchioles. At the end of the smallest bronchioles are raspberry-like structures called alveolar sacs, and each sac contains alveoli. The alveoli's walls are composed of a simple squamous epithelium designed to facilitate rapid diffusion and elastic tissue. Each alveolus is wrapped with capillaries.
 * The interface of simple squamous epithelium of the alveolus and pulmonary capillary is called the respiratory membrane, and it is here where gas exchange takes place. The respiratory membrane tends to have a large surface area, so evolution has favored convoluted bronchioles and alveoli.
 * The respiratory membrane is also where carbon dioxide is eliminated. It flows into the air in your lungs and you breathe it out.
 * The thoracic diaphragm is a dome-shaped sheet of muscle separating the base of the lungs from the liver and, on the left side of the body, the stomach from the spleen. It pushes up the lungs to control contraction and expansion during ventilation.
 * The motor phrenic nerves contract and relax the diaphragm.
 * The diaphragm can also exert pressure on the abdominal cavity, helping expel vomit, feces, and urine.

Measures of Pulmonary Ventilation
The normal breathing rate is 12-20 cycles per minute, which totals to 17000+ breaths per day.

Minute ventilation = tidal volume * respiratory rate

the total volume of gas entering the lungs per minute.

Alveolar ventilation = (tidal volume - dead space) * respiratory rate

the volume of gas per unit time that reaches the alveoli, the respiratory portions of the lungs where gas exchange occurs.

Dead space ventilation = dead space * respiratory rate

the volume of gas per unit time that does not reach these respiratory portions, but instead remains in the airways (trachea, bronchi, etc.).

Control of Breathing
Unlike digestion, pupil contraction, and the beating of your heart, breathing is controlled both unconsciously and consciously. Few other actions are like this, blinking being another example. When you are not thinking about your breathing, such as when you are at rest, you will unconsciously regulate your air intake. However, when performing activities such as exercise, talking, or swimming, you are consciously deciding when to breathe. When not being actively controlled, breathing is controlled by the brain stem. The brain stem will automatically regulate breathing as needed by the body. For instance, when you exercise, you need ATP for muscle contraction to occur. When you strength train, you enter the zone called anaerobic exercise. This triggers anaerobic metabolism, which causes a buildup of lactic acid in the body. This lowers blood pH, which can be fatal. The brain stem then increases the rate of breathing.

Gas Exchange and Transport
Gas exchange

1. Oxygen in air dissolves into fluid lining the alveolus and diffuses through alveolar wall and capillary wall.

2. Oxygen enters blood plasma inside capillary. Gas exchange occurs in the capillary beds.

3. Oxygen binds to oxyhemoglobin in red blood cells.

4. Carbon dioxide diffuses out of blood plasma and into air in alveolus.

5. Oxygenated blood leaves heart and circulates through capillaries to tissue.

6. Red blood cells arrive at tissue, rich in oxygen that binds to the hemoglobin in the tissue.

7. Oxygen leaves hemoglobin in red blood cells and diffuses across blood capillary walls and into tissue cells.

8. Carbon dioxide diffuses out of tissue into blood plasma, which carries red blood cells into lungs. Completely dissociated hemoglobin enters the lung in red blood cells ready to be oxygenated.

Transport of gases in the blood is essential to life. The gases are carried in the blood in one of two ways: in the blood plasma or combined with hemoglobin.

Diseases of the Respiratory System
Hypoxia Hypoxia is a condition where the whole body or a certain region of the body is deprived of oxygen. The oxygen content within the arterial blood is extremely low. Hypoxia is normally caused by flying above altitudes of 10,000 feet in unpressurized airplanes. Hypoxia is usually a slow-developing sickness, starting with symptoms such as headache, fatigue, and nausea. Severe symptoms include seizures, discoloration of skin, and death.

Oxygen Toxicity Oxygen Toxicity is a result from breathing molecular oxygen at high pressures such as from oxygen tanks in scuba diving. Oxygen toxicity can effect your central nervous system and pulmonary functions.

Chronic Obstructive Pulmonary Diseases (COPD) COPD's are very common lung diseases. There are 2 main forms of COPD- Chronic Bronchitis and Emphysema. Both are normally caused by smoking or air pollution. In chronic bronchitis, the bronchi become inflated, and goblet cells produce unusually high amounts of mucus. This is seen by mucus-spitting coughs as well as fatigue. Emphysema is a long term disease in which lung tissue and alveolar walls are destroyed, making the lungs have less surface area. As a result, emphysema can cause a shortness of breath because the lungs are not able to absorb as much oxygen.

Asthma Asthma is a disorder in which the airways are of the lung swell and narrow. This can lead to wheezing, shortness of breath and coughing. Asthma is usually caused by allergic reactions or irritants in the air.

Lung Cancer Cancer of the lungs

Acute Rhinitis Acute Rhinitis is a fancy word for the common cold. The common symptoms are a runny nose, wheezing, teary eyes, and impairment of smell. It is caused by bacterial/viral infections of the nose as well as inhaled irritants.

Laryngitis Laryngitis is basically inflammation of the vocal folds. This is usually caused by viruses.

Pneumonia Pneumonia is an infection of the lungs. Common symptoms include coughing, fever, and shaking chills. This can be treated by injections of fluids or antibiotics into your veins, as well as oxygen therapy.

Sleep apnea Sleep apnea is a sleeping disorder which is characterized by pauses in breathing (apneas) that occur unnaturally in sleep. This can be tested for by a polysomnography. Sleep apnea can be treated through surgery or breathing therapy, depending on the results of the test.

Tuberculosis Tuberculosis is a contagious bacterial infection of the lungs (but can spread to other organs). Tuberculosis is shown by weight loss, excessive sweating, and coughing up blood. It can be treated with drugs such as Isoniazid and Rifampin.