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Chapter 19 Respiratory System

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External Respiration is the exchange of gases between the lungs and the blood. ... Once oxygen is in the blood stream it binds with hemoglobin on a RBC and is take ... – PowerPoint PPT presentation

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Title: Chapter 19 Respiratory System


1
Chapter 19 Respiratory System
  • Air, Breathing and Other Important Things

2
Respiratory System
  • The function of the Respiratory system is gaseous
    exchange. It brings in O2 and rids the body of
    CO2.
  • The process of Respiration is made up of several
    events
  • Ventilation is the movement of gases into and out
    of the lungs.
  • External Respiration is the exchange of gases
    between the lungs and the blood.
  • Internal Respiration is the exchange of gases
    between the blood and the body cells.
  • Cellular Respiration takes place as the body
    utilizes oxygen and produces carbon dioxide.

3
Respiratory System
  • Organs of the Respiratory System
  • Nose this is the first and primary organ of air
    intake and output. The internal hairs exist to
    stop large particles from entering.
  • Nasal Cavity The nasal cavity is divided into
    left and right portions by the nasal septum,
    which has bony and cartilaginous portions. It is
    also home to the nasal conchae (superior, middle,
    and inferior). These bony structures serve to
    turbulate the air as it enters the nasal cavity.
    This cavity is richly invested with
    pseudostratified ciliated epithelium that is
    richly invested with goblet cells. Mucous
    secreted by this tissue further serves to trap
    foreign particles, but also warms the incoming
    air and moisturizes it.
  • Sinuses The sinuses are continuous with the
    nasal cavity, and are also lined with a mucous
    membrane. This mucous should drain into the
    nasal cavity and make its way to the stomach.
    The sinuses also reduce the weight of the skull.
  • Pharynx this portion of the tract is divided
    into three regions described below. Parts of it
    are shared with the Digestive Tract.
  • Nasopharynx
  • Oropharynx
  • Laryngopharynx

4
Respiratory System
  • Larynx The larynx houses the vocal cords
    (folds). The Epiglottis if found here. It is a
    flap of elastic cartilage that keeps the
    esophagus closed during breathing. The
    Epiglottis moves to cover the Trachea during
    swallowing of food or fluids. The Glottis is
    also found here it is an opening that allows for
    passage of air into the trachea.
  • Trachea The trachea is also known as the
    windpipe. It is a flexible tube of that has
    C-shaped hyaline cartilage along most of its
    length. This cartilage serves to keep the
    trachea patent, thus maintaining the airway.
  • Bronchial Tree This organ begins the branching
    that is responsible for ultimately getting oxygen
    down into the lung. The first branches are
    called the primary or mainstem bronchi.
    Filtration of air continues at this level and
    subsequent levels. Subsequent layers are
    numbered (secondary, tertiary, etc.). The
    smallest and terminal portion of this organ is
    called the Alveoli. This is the site of actual
    gaseous exchange and that exchange is
    accomplished via simple diffusion.
  • Lungs The lungs are divided into lobes. The
    right lung has 3 lobes and the left lung has 2
    lobes. The lobes are sub-divided into lobules.
    Each lung has a hilus. This is the region on the
    medial aspect of the lung where the bronchi and
    the blood vessels enter and exit.

5
Respiratory System
6
Respiratory System
  • Breathing Mechanisms
  • The 2 major events of breathing are Inspiration
    and Expiration.
  • Inspiration is an active process that requires
    the diaphragm to contract. The diaphragm is
    innervated by the Phrenic Nerves which arise from
    the Cervical Plexus. As the diaphragm contracts,
    it descends into the abdominal cavity, thereby
    decreasing the pressure in the thoracic cavity.
    This decrease in pressure in turns allows for the
    intake of air from the outside, where atmospheric
    pressure is usually higher.

7
Respiratory System
  • Expiration is a passive process caused by the
    relaxation of the diaphragm and the elastic
    recoil of the lungs. As the diaphragm relaxes
    and rises back into the thoracic cavity it causes
    an increase in the pressure in that cavity. This
    causes air to move out of the lungs.
  • Surfactant is a lipoprotein secreted by the lungs
    in response to surface tension of water within
    the lung. Surfactant keeps the lungs from
    collapsing due to the moist inner surfaces coming
    into contact with each other. Lung collapse is
    called Atelectasis. Surfactant is secreted by
    simple cuboidal epithelium (Type II cells in the
    lungs).

8
Respiratory System
  • Respiratory Volumes
  • The lungs will hold about 5800 ml of gas volume.
    This is often called Total Volume or Total Lung
    Capacity. This number can be divided into
    categories
  • Tidal Volume about 500 ml of gases moved into
    and then out of the lungs during normal
    breathing.
  • Inspiratory Reserve about 3000 ml of gas that
    can be forcibly inhaled over normal breathing.
  • Expiratory Reserve about 1100 ml of gas that
    can be forcibly exhaled after normal breathing.
  • Inspiratory Capacity about 3500 ml of air that
    can be inhaled after a normal exhalation.
  • Vital Capacity about 4600 ml of air that can be
    exhaled after taking a maximal inhalation.
  • Residual Volume about 1200 ml of gas that
    remains in the lungs at all times.

9
Respiratory System
  • Non-respiratory Air Movements
  • Most of these air movements are a result of a
    reflex, although they may also be initiated
    voluntarily. Many of them are used to the clear
    the respiratory passages.
  • Coughing this involves a rapid push of air from
    the lungs thru the partially closed glottis.
  • Sneezing this involves a rapid push of air from
    the lungs thru the nasal passages.
  • Laughing/Crying in these a person takes a
    breath and releases it in a series of short
    expirations.
  • Yawning this reflex is often thought to help
    maintain alertness.

10
Respiratory System
  • Control of breathing is goverened by the
    Respiratory Center in the brainstem. It controls
    both the rate and depth of breathing.
  • Hyperventilation is a situation where a person
    breathes too fast (greater than 20 ventilations
    per minute). This increases blood O2 and
    decreases CO2.

11
Respiratory System
  • Gas Exchange
  • The Alveoli are the all important site of gaseous
    exchange. Without these microscopic air sacs
    functioning properly death is usually very swift
    in coming. Each alveolus consists of a tiny
    space surrounded by a thin wall that separates it
    from adjacent alveoli. This wall is primarily
    made up of simple squamous epithelium (Type I
    cells).
  • Thus the Respiratory Membrane is made up of two
    layers of epithelium separated by a basement
    membrane.

12
Respiratory System
  • Movement of gases thru the respiratory membrane
    is accomplished via simple diffusion. Blood
    entering the capillary layer of the lungs in low
    in oxygen and rich in carbon dioxide. As blood
    passes thru the capillary layer it comes in very
    close proximity to the alveolus. This proximity
    allows for the rapid diffusion of carbon dioxide
    out of the blood stream into the alveolar space,
    and for the diffusion of oxygen out of the
    alveolar space into the blood stream.
  • Once oxygen is in the blood stream it binds with
    hemoglobin on a RBC and is take to the awaiting
    body cells for use. Once the carbon dioxide is
    in the alveolar space, it makes its way out of
    the body via the respiratory tract.

13
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14
Respiratory System
  • Oxygen transport is accomplished in hemoglobin
    because oxygen binds easily to the iron in the
    globular protein. About 98 of all oxygen is
    transported this way. The rest is dissolved in
    plasma.
  • Once oxygen is so bound to the hemoglobin
    molecule, the new combined substance is called
    Oxyhemoglobin. Each hemoglobin molecule can
    carry up to four oxygen molecules.
  • The bond between oxygen and hemoglobin is
    relatively unstable and break easily when oxygen
    enters an area where it is able to easily diffuse
    out of the blood stream.

15
Respiratory System
  • Carbon Dioxide Transport is accomplished in one
    of three forms
  • Dissolved in plasma. Only about 7 or so is
    transported in this form.
  • Bound to hemoglobin as Carbaminohemoglobin. CO2
    binds with the amine groups on the hemoglobin,
    thus CO2 and O2 do not compete for binding sites.
    About 15 to 25 of CO2 is transported in this
    way.
  • As a Bicarbonate ion. Bicarbonate ion
    dissociates in water to form carbonic acid. This
    is an important mechanism in the transport of
    this gas as it plays a role in the buffer system
    of the blood.

16
Respiratory System
  • Smoking of any kind is bad for your health.
    Cigarette smoking is particularly BAD as it is
    simultaneously addictive and destructive and
    corruptive.
  • The addictive properties of cigarettes (and some
    other forms of tobacco) are fairly well
    documented. Very few people dispute this other
    than those who make a living from the sale of
    tobacco products.
  • The destructive properties of smoking can be most
    clearly seen in the lungs where tissue is
    literally lost in the making of several types of
    C.O.P.D.s.
  • The corruptive properties lie in the formation of
    cancerous cells.
  • Please note this last item!!! The diseases and
    degenerative conditions seen in a smoker (i.e.
    metastatic lung cancer and emphysema) are RARELY
    ever seen in non-smokers. Most people will live
    their entire life and not be at any significant
    risk of these diseases. This statement is made
    not out of personal opinion or preference, but
    from what is broadly considered to be very basic
    and simple science.

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Respiratory System
18
Respiratory System
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