Anatomy and Physiology - Respiratory System PDF

Summary

This document provides an overview of the respiratory system, including its anatomy, physiology, and the processes of inhalation, exhalation, and gas exchange. Copyright ©2021 John Wiley & Sons, Inc. It details the structures of the upper and lower respiratory tracts, focusing on the functions of each part.

Full Transcript

Anatomy and Physiology
Respiratory System

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Copyright ©2021 John Wiley & Sons, Inc.
Introduction
The purpose of this presentation is to:
1. Describe the anatomy of the respiratory system
2. Explain the physiology of the respiratory system
3. Describe the events that cause inhalation, exhalation,
and gas exchange
4. Explain how oxygen and carbon dioxide are
transported in the blood

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Breathing and Respiration
Respiration is the exchange of gases between the
atmosphere, blood, and cells
The combination of 3 processes is required for
respiration to occur
o Ventilation (breathing)
o External (pulmonary) respiration
o Internal (tissue) respiration
The cardiovascular system assists the respiratory system
by transporting gases

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Breathing and Respiration

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Components of the Respiratory System
Structurally, the components of the respiratory system
are divided into 2 parts:
1. Upper respiratory system
2. Lower respiratory system
Functionally, the components of the respiratory system
are divided into 2 zones:
1. Conducting zone
2. Respiratory zone

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Structures of the Respiratory System (1 of 2)

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Structures of the Respiratory System (2 of 2)
The upper respiratory system consists of the nose,
pharynx, and associated structures
The lower respiratory system consists of the larynx,
trachea, bronchi, and lungs

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Upper Respiratory Tract:
Nasal Cavity, Sinuses, & Pharynx

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Overview: Nose, Nasal Cavity, Pharynx,
Larynx, and Trachea

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Overview: Nose, Nasal Cavity, Pharynx,
Larynx, and Trachea
Function of nose & nasal cavity
Produce mucus
Immune functions and circulated by cilia
Filter, warm, and moisten air
Rich capillaries facilitate
Speech resonance
Smell

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Nasal Conchae and Meatuses

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Pharynx
The pharynx functions as a passageway for air and food,
provides a resonating chamber for speech sounds, and
houses the tonsils—which participate in immunological
reactions against foreign invaders

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Pharynx
Pharyngeal tonsils (adenoids) located on posterior wall

Skeletal muscles are important from a structural
standpoint

Over relaxation of muscles and swelling of the adenoids
are issues with sleep apnea

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Pharynx
Skeletal muscles are important from a structural
standpoint
Issue with sleep apnea

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Upper Respiratory Tract Inflammations
Rhinitis
Inflammation of nasal mucosa
Can also spread to tear ducts and paranasal sinuses, causing
blockage of sinus passageways, resulting in sinusitis (inflamed
sinuses)

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Lower Respiratory Tract:
Larynx, Trachea, Bronchi, & Lungs

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Lower Respiratory Tract
Consists of two zones:
Conducting zone: open airways that transport gas to and from
external respiration sites
Cleanses, warms, and humidifies air

Respiratory zone: site of gas exchange (AKA External Respiration)
Consists of microscopic structures such as respiratory bronchioles,
alveolar ducts, and alveoli

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Larynx
The larynx (voice box) is a open passageway that connects
the pharynx and trachea

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Larynx
The larynx contains vocal folds, which produce sound
when they vibrate

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Larynx Important Structures
Thyroid cartilage:
Large, shield-shaped cartilage
that is the laryngeal prominence
(Adam’s apple)
Cricoid cartilage:
Ring-shaped piece of cartilage
Glottis
Lumen of Larynx
Epiglottis
Piece of elastic cartilage to
close glottis of larynx during
swallowing

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Structures of Voice Production

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Larynx Inflammation
Laryngitis: inflammation of the vocal folds that causes
the vocal folds to swell, interfering with vibrations

Causes hoarseness up to speaking limited to a whisper

Laryngitis is most often caused by viral infections but
may also be due to overuse of the voice, very dry air,
bacterial infections, tumors on the vocal folds, or
inhalation of irritating chemicals

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Trachea
The trachea extends from the larynx to the two
primary bronchi

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Trachea
Consists of C-shaped cartilage with a
smooth muscle connect posteriorly
At the bottom of the trachea exist the
carina; when stimulated by a foreign
object it triggers violent coughing

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Bronchi
At the superior border of the 5th thoracic vertebra, the
trachea branches into a right main bronchus that enters
the right lung and a left main bronchus that enters the left
lung

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Bronchi
Right main bronchus wider, shorter, more vertical than left

The main bronchi first divide into the Lobar (secondary)
bronchi and then into smaller and smaller branches

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Bronchi (2 of 3)
Upon entering the lungs, the
main bronchi further divide to
form smaller and smaller
diameter branches
The terminal bronchioles are
the end of the conducting
zone

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Bronchi (3 of 3)

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Lungs
The lungs are paired organs in the thoracic cavity

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Lungs
The lungs are enclosed and protected
by the pleural membrane

Pleural cavity contains fluid that
provides lubrication and surface tension
that assists in expansion and recoil of
lungs

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Lungs
Root: site of vascular and
bronchial attachment to
mediastinum
Costal surface: anterior,
lateral, and posterior
surfaces
Apex: superior tip, deep to
clavicle
Base: inferior surface that
rests on diaphragm
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Lobes and Fissures of the Lungs

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Lobes and Fissures of the Lungs
The 3 lobes of the right lung
are divided into 10 segments
The 2 lobes of the left side are
divided into 8 to 10 segments

An infection or cancer in 1
segment does not mean the
other segment is necessarily
affected

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Alveoli
When the conducting zone
ends at the terminal
bronchioles, the respiratory
zone begins
The respiratory zone
terminates at the alveoli, the
“air sacs” found within the
lungs

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Alveoli in a Lobule of a Lung
Alveoli are sac-like structures

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Pneumocyte cells (1 of 2)
There are 2 kinds of pneumocyte cells, Type I and Type II
Type I are thin simple
squamous cells for gas
exchange
Type II secrete surfactant
to allow for easier inflation
of the lungs
Macrophages patrol to
remove debris and fight
microbes

The alveoli are surrounded
by a rich capillary bed
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Pneumocyte cells (2 of 2)

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Blood Supply to the Lungs
Low-pressure, high-volume system
Blood enters the lungs via the pulmonary arteries
(pulmonary circulation) and the bronchial arteries
(systemic circulation)
Blood exits the lungs via the pulmonary veins and the
bronchial veins
Ventilation-perfusion coupling
o Vasoconstriction in response to hypoxia diverts blood
from poorly ventilated areas to well ventilated areas

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Upper Respiratory Disorders/Disease
Cilia Dysfunction
Smoking inhibits and ultimately destroys cilia
Without ciliary activity, coughing is only way to prevent mucus from accumulating in
lungs

Pleurisy
Inflammation of pleurae that often results from pneumonia
Inflamed pleurae become rough, resulting in friction and stabbing pain with each
breath
Pleurae may produce excessive amounts of fluid, which may exert pressure on lungs,
hindering breathing
Pleural effusion: fluid accumulation in pleural cavity

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Respiratory Physiology

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Pulmonary Ventilation
In pulmonary ventilation, air flows between the
atmosphere and the alveoli of the lungs because of
alternating pressure differences created by contraction
and relaxation of respiratory muscles
Inhalation (Inspiration AKA Breathing in)
Exhalation (Expiration AKA Breathing out)

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Boyle’s Law
Pressure changes that drive
inhalation and exhalation are
governed, in part, by Boyle’s Law
The volume of a gas varies
inversely with its pressure
AKA Lungs get smaller, air
pressure builds, which pushes
air out & vice versa
Lungs expand, air pressure
drops, which sucks air in

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Muscles of Inhalation and Exhalation:
DIAPHRAGM is PRIME MOVER of INHALATION

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Position of the Diaphragm During
Inhalation and Exhalation

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Pressure Changes in Pulmonary
Ventilation (2 of 2)

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Pressure Changes in Pulmonary Ventilation

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Pressures in Pulmonary Ventilation
Atmospheric pressure (Patm)
Pressure exerted by air surrounding the body
760 mm Hg at sea level = 1 atmosphere

Respiratory pressures described relative to Patm
Negative respiratory pressure: less than Patm
Positive respiratory pressure: greater than Patm
Zero respiratory pressure: equal to Patm

Intrapulmonary pressure (Ppul)
Pressure in alveoli
Also called intra-alveolar pressure
Fluctuates with breathing

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Pressures in Pulmonary Ventilation
Intrapleural pressure (Pip)
Pressure in pleural cavity
Always a negative pressure (