The Mammalian Respiratory System

The Mammalian Respiratory System

Function: To transport gases to and from the circulatory system

Respiration: all parts of the process that supplies O2 to the body cells and rids the body of CO2

-involves the diffusion of gases across a semi-permeable membrane

Breathing: the actual mechanism of gas exchange

Respiration

Breathing External Internal Cellular

Respiration Respiration Respiration

Inspiration Expiration

In humans, breathing involves 2 movements:

§  1) Inspiration (Inhalation): air moves in

§  2) Expiration (Exhalation): air moves out

External respiration – exchange of O2 and CO2 between air and blood

Internal Respiration – exchange of O2 and CO2 between blood and cells of the surrounding tissues

Cellular respiration – chemical reactions in the mitochondria that yield ATP

O2 + C6H12O6 → CO2 + ATP + H2O

The Path of an Air Molecule:

THE UPPER RESPIRATORY TRACT

•Nasal Cavity/ Nasal Passages

-located above the roof of the mouth

-air enters the nostrils, mouth/oral cavity and enters the nasal passages

Turbinates

-thin bones, hang suspended from nasal chambers

-increase surface area of chambers

-covered with a thin membrane that secretes mucus which moistens the air

Capillaries

-line the nasal passages

-warm incoming air, increase relative humidity

-this protects delicate lung tissues

Cilia

-nasal passages also lined with small hairs called cilia

-cilia trap dust and foreign particles, are swept into throat by the cilia where they are swallowed

•Pharynx

-tube at the back of the mouth and nasal cavities

-intersection of the esophagus (digestive system) and the trachea (respiratory system)- the pharynx contains passageways for both food and air

-connects the mouth and nasal cavity to the larynx and the trachea/esophagus

•Epiglottis

-protects the glottis (and ultimately the opening to the trachea)

--flap-like piece of cartilage

-when food is swallowed, the epiglottis presses down and covers the opening to the trachea- this prevents food from going down your trachea (choking)

•Glottis

-the opening of the trachea

-conducts air to the lungs

•Larynx

--located at the upper end of the trachea

-also known as the voice box

-contains two folded ligaments that stretch across the larynx, held in place by the cartilage on the larynx walls

-two ligaments are known as the vocal cords

-sound are produced when air is forced past the ligaments, they vibrate, and the pitch and volume of sound varies with the amount of tension on the vocal cords and the amount of air being forced by them

-when breathing: large gap b/w cords

-when speaking: small gap b/w cords- muscles around larynx contract

Long vocal cord→low sound, Short Vocal Cord→ high sound

Refer also to figure 8.13 page 257

•Trachea

- a long tube made up of cartilage that connects the nasal cavity/mouth/pharynx/larynx to the lungs

-usually about 10-12cm long

-often called the windpipe in mammals

-lined with epithelial cells that contain cilia, and that produce mucus

Mucus

-secreted by epithelial ciliated cells

-traps foreign particles

-beating/waving of cilia help to propel material back into the nose and throat where it is expelled by a cough or a sneeze

-cold= increased mucus=blowing of your nose

THE LOWER RESPIRATORY TRACT

•Bronchi (plural is bronchi, if you talk about only one it is called a bronchus)

-the bottom of the trachea branches into the left bronchus (for left lung) and the right bronchus (for right lung)

-surrounded by a layer of smooth muscle- smooth muscle contraction and relaxation causes changes in air flow

-lined with cilia/mucus to keep passageway clear and acts a filter

-branching increases surface area

•Bronchioles

-passageways that branch from the bronchi into the separate lobes of the lungs

-increase surface area

-smallest tubes

-lined with cilia and mucus membranes

-divide into smaller and smaller and smaller passageways that carry air into all portions of the lungs

•Alveoli (plural is alveoli, if you talk about only one it is called an alveolus), 300 million in one lung!

-grape like clusters of air sacs at the end of each bronchiole

-always kept moist, site of gas exchange, diffusion of gases occurs here

-wall of each cell is only one cell thick

-each alveolus is surrounded by a capillary bed, gas exchange occurs via diffusion across the alveolus cell wall into the surrounding capillaries

-oxygen from outside air → pulmonary venules →heart → pumped to body

-carbon dioxide from pulmonary arterioles→ breathe out

•Elastic Connective Tissues- fill spaces between individual structures to keep the entire arrangement in position (like anchors)

-alveoli are filled with a lubricating film that helps to keep them from collapsing

•Lungs

-located deep within the body, protected from water loss and damage by bone and muscles of the thorax/rib cage

-many folds and fine membranes, delicate, fragile

-air moves from the external environment to the respiratory surface deep inside the mammal

--each lung is divided into lobes

Right Lung: 3 lobes, Left Lung: 2 lobes

-each lobe is subdivided into lobules, each lobule has its own bronchiole

•Pleura (singular pleuron)

-thin double membrane that surrounds the lungs, still allows them to expand and contract during breathing

-each pleuron consists of two layers separated by a thin lubricating fluid

Pleurisy- condition in which the pleura may become inflamed

Cystic Fibrosis- a disease in which too much mucus is produced- the gas exchange surface is reduce and eventually all the alveoli become blocked

Lung Cancer- prevents normal cleaning process, cells are not repaired, leads to cancer