Respiratory system.pdf

Transcript

FUNCTIONS OF RESPIRATORY SYSTEM
Provides an extensive area for gas exchange between air & circulating blood
Moving air to & from the exchange surfaces of the lungs
Protects respiratory surfaces from dehydration, temperature changes & other
environmental variations
Defend respiratory system & other tissues from invasion by pathogenic micro- organisms
Produce sounds involved in speaking, singing or non-verbal communication
Assists in regulation of blood volume, blood pressure & the control of body fluid pH
ORGANIZATION OF RESPIRATORY SYSTEM
Upper respiratory system
Nose
Nasal cavity
Paranasal sinuses
Pharynx
Filters, warms & humidifies air
Lower respiratory system
Larynx
Trachea
Bronchi
Lungs
RESPIRATORY TRACT
Consists of airways that carry air to & from exchange surfaces of lungs.
Conducting portion: Extends from entrance to nasal cavity to smallest bronchioles of lungs
Respiratory portion : Includes respiratory bronchioles & air sacs (alveoli)
By the time air reaches lung alveoli, most foreign particles
& pathogens have been removed due to filtering,
warming & humidification of air- due to properties
of respiratory epithelium
RESPIRATORY EPITHELIUM

Consists of pseudostratified, ciliated,
columnar epithelium with goblet cells.
Lines entire respiratory tract except for
finest conducting portions & alveoli
Goblet cells & mucus glands beneath
epithelium produce a sticky mucus that
bathes exposed surfaces.
In nasal cavity, cilia sweep any debris trapped
in mucus or micro-organisms toward pharynx
where it will be swallowed & exposed to
enzymes & acids of stomach
UPPER RESPIRATORY SYSTEM
NOSE & NASAL CAVITY
Nose is primary passageway for air entering respiratory system.
Air enters paired external nares that open into nasal cavity.
Vestibule: portion of nasal cavity contained within flexible tissues of external nose
Vestibule contains coarse hair that trap foreign particles
Nasal septum : divides cavity into right & left halves
 Bony portion of nasal septum is formed by perpendicular plate of ethmoid & vomer.
Anterior portion of septum is formed by hyaline cartilage.
Bones of the nasal cavity
Maxillary, nasal, frontal, ethmoid & sphenoid bones
form lateral & superior walls of nasal cavity.
NASAL CAVITY… Lateral wall
Projecting from lateral wall are:
Superior, middle & inferior conchae
Air flows between adjacent conchae
through superior, middle or inferior
meatuses (narrow grooves)
Incoming air bounces off conchal
surfaces creating turbulence which
causes small air borne particles to
come into contact with mucus that
lines cavity
In addition to promoting filtration,
turbulence allows extra time for
humidifying & warming incoming air.
NASAL CAVITY… Floor
Formed by hard palate (maxillary & palatine
bones)
Soft palate extends posterior to hard palate
marking boundary line between superior
nasopharynx & rest of pharynx
Nasal cavity opens into nasopharynx at
internal nares.

THE PHARYNX

Nose, mouth, throat connect each other by a common
passageway called pharynx.
Pharynx is shared by digestive & respiratory systems.
Extends between internal nares & entrance to larynx &
oesophagus.
Has three regions: nasopharynx, oropharynx,
laryngopharynx
NASOPHARYNX

Superior part of pharynx
Connected to posterior portion of
nasal cavity via internal nares
Separated from oral cavity by soft palate
Lined by respiratory epithelium.
Pharyngeal (adenoid) tonsil is located
on posterior wall
Lateral walls contain openings of auditory tubes
OROPHARYNX
Extends between soft palate & base of tongue at level of hyoid bone
Posterior portion of oral cavity & posterior & inferior portions of nasopharynx communicates
directly with oropharynx
At boundary between naso & oropharynx epithelium changes from respiratory epithelium to
stratified squamous epithelium
Soft palate supports uvula & two pairs of pharyngeal arches
Anterior palatoglossal arch
Posterior palatoglossal arch
Palatine tonsil lies in between
LARYNGOPHARYNX
Includes that portion of pharynx lying between hyoid bone & entrance to esophagus
Most inferior portion of pharynx
Lined by stratified squamous epithelium.
THE LARYNX

Inspired air leaves pharynx by passing
through a narrow opening – glottis
Larynx surrounds & protects glottis
Larynx begins at C4 & ends at C7
vertebral levels
Larynx essentially is a cylinder whose
cartilaginous walls are stabilized by
ligaments & muscle
CARTILAGES OF LARYNX
Thyroid
Cricoid
Epiglottis

THYROID CARTILAGE
Largest laryngeal cartilage
Forms most of anterior & lateral walls of larynx
Commonly called Adams Apple (laryngeal prominence)
Inferior surface articulates with cricoid.
Superior surface has ligamentous attachments to epiglottis & other smaller laryngeal
cartilages.
CRICOID CARTILAGE
Ring shaped.
Posterior portion greatly expanded providing support in absence of thyroid cartilage.
Cricoid & thyroid cartilages protect glottis & entrance to trachea & their broad surfaces provide
sites for laryngeal muscles & ligaments
Superior surface of cricoid articulates with arytenoid cartilages.
EPIGLOTTIS
Leaf shaped.
Projects above glottis
Has attachments to thyroid cartilage & hyoid bone
During swallowing, larynx is elevated, epiglottis fold back over glottis, preventing entry of
liquid or solid food into respiratory passageways
PAIRED
Arytenoid
Corniculate
Cuneiform
 Arytenoid cartilages (ladle shaped) : articulate with superior border of enlarged portion of cricoid
cartilage
Corniculate cartilages (horn shaped): articulate with arytenoid cartilages. Corniculate & arytenoid
cartilages are involved in opening & closing the glottis & production of sound
Cuneiform cartilages (wedge shaped): Lies within aryepiglottic fold that extends between lateral
aspects of each arytenoid cartilage & epiglottis
LARYNGEAL LIGAMENTS
Intrinsic ligaments bind all 9
cartilages together to form larynx
Extrinsic ligaments attach thyroid
cartilage to hyoid bone & cricoid
cartilage to trachea
Ventricular & vocal ligaments
extends between thyroid cartilage &
arytenoids.
Ventricular & vocal ligaments
covered by folds of laryngeal
epithelium that project into glottis
Ventricular ligaments lie within
superior pair of folds – ventricular
folds (inelastic & help prevent
foreign objects from entering glottis
& provide protection for more
delicate vocal folds
THE TRACHEA
Trachea is a tough, flexible tube with diameter of 2.5cm & length of 11cm
Begins anterior to C6 vertebra in a ligamentous attachment to cricoid cartilage
Ends in mediastinum at level of T5 vertebra
Branches to form right & left primary bronchi
Lining of trachea consists of respiratory epithelium overlying a layer of looser connective
tissue (lamina propria)
Trachea contains tracheal cartilages
Each tracheal cartilage is bound to neighboring cartilages by elastic annular ligaments
Tracheal cartilages stiffen tracheal walls & protect airway
Also prevent its collapse or overexpansion as pressures change in respiratory system

Each tracheal cartilage is C shaped.
Closed portion of C protects anterior & lateral surfaces of trachea.
Open portion of C faces posteriorly toward oesophagus
Because cartilages do not continue around trachea, posterior tracheal wall can easily distort
during swallowing permitting passage of large masses of food
Trachealis: An inelastic ligament & band of smooth muscle connecting ends of each tracheal
cartilage
PRIMARY BRONCHI
Right & left primary bronchi
Carina marks line of separation between 2 bronchi
Has cartilaginous C shaped supporting rings
Right primary bronchus – larger diameter than left
& descends towards lung in steeper angle
Hilum of lung : Access for entry of pulmonary
vessels, nerves, bronchi
THE PLEURA
Pleura is a serious membrane lined by mesothelium.
Two pleural sacs – one on either side of mediastinum
Pleural sac invaginated from medial side by lung so it has outer layer (parietal pleura) & inner
layer (visceral pleura)
Two layers continuous with each other around hilum of lung & enclose between them a
potential space (pleural cavity)

PULMONARY PLEURA
Covers surfaces & fissures of lung except at hilum & along attachment of pulmonary
ligament where it is continuous with parietal pleura
Firmly adherent to lung & cannot be removed from it

PARIETAL PLEURA
Lines pulmonary cavities & thus adheres to thoracic wall, mediastinum & diaphragm. Has 4 parts
THORACIC CAVITY
Cavity of thorax contains right & left pleural cavities completely invaginated & occupied by
lungs.
Right & left pleural cavities separated by thick median partition called mediastinum.
Heart lies in mediastinum.
PULMONARY LIGAMENT
DEFINTION: Parietal pleura surrounding root of lung extending downward beyond root as a fold.
Function: Provides space into which pulmonary veins can expand during increased venous
return; lung root also descends into it with descent of diaphragm

PULMONARY VENTILATION
REFERS TO PHYSICAL MOVEMENT OF AIR INTO & OUT OF BRONCHIAL TREE
RESPIRATORY MUSCLES
Contraction of diaphragm – increases volume of thoracic cavity – draws air into lungs.
Inspiration: elevate ribs External & internal intercostal SCM; pectoralis minor; scalenes Serratus
anterior
Expiration: depress ribs transversus thoracis Abdominal obliques Rectus abdominis
 THE LUNGS

Lungs: pair of respiratory organs situated in thoracic cavity
Each lung invaginates corresponding pleural cavity.
Right & left lungs separated by mediastinum.
Right & left lungs situated in right & left pleural cavities.
Each lung is a blunt cone with apex pointing superiorly.
Base of lung rests on diaphragm
FISSURES & LOBES OF LUNG … RIGHT LUNG

3 lobes – viz.: superior, inferior, middle lobes
Superior lobe separated from middle lobe by horizontal fissure.
Middle lobe is separated from inferior lobe by oblique fissure.
Horizontal fissure runs at level of 4th costal cartilage; meets
oblique fissure in midaxillary line
FISSURES & LOBES OF LUNG … LEFT LUNG

2 lobes viz.: superior & inferior
Separated by oblique fissure.
Tongue shaped projection of left lung below cardiac notch is called LINGULA; corresponds to
middle lobe of right lung.
DIFFERENCES BETWEEN RIGHT & LEFT LUNGS
RIGHT LUNG
Has 2 fissures, 3 lobes
Anterior border straight
Larger, heavier (700g)
Shorter, broader
LEFT LUNG
1. 1 fissure, 2 lobes
2. Anterior border interrupted by cardiac notch
3. Smaller, lighter (600g)
4. Longer, narrower
STRUCTURES RELATED TO MEDIASTINAL SURFACE OF RIGHT LUNG

Right atrium & auricle
A small part of right
ventricle
Superior vena cava
Lower part of right
brachiocephalic vein
Azygos vein
Oesophagus
Inferior vena cava
Trachea
Right vagus nerve
Right phrenic nerve
STRUCTURES RELATED TO MEDIASTINAL
SURFACE OF LEFT LUNG
Left ventricle, auricle, infundibulum & adjoining part of right ventricle
Pulmonary trunk
Arch of aorta
Descending thoracic aorta
Left subclavian artery
Thoracic duct
Oesophagus
Left brachiocephalic vein
Left vagus nerve
Left phrenic nerve
Left recurrent
laryngeal nerve
DIFFERENCES BETWEEN RIGHT & LEFT BRONCHI

RIGHT BRONCHUS LEFT BRONCHUS
Shorter Longer
Wider
Narrower
Runs more vertically.
Wider angle

TERTIARY BRONCHI

WHAT IS A BRONCHOPULMONARY SEGMENT?
Largest subdivision of a lobe
Separated from adjacent segments by septa
Supplied by segmental bronchus & tertiary branch of pulmonary artery
Drained by intersegmental parts of pulmonary veins
Surgically resectable
BRONCHOPULMONARY SEGMENTS

Each lobe of lungs can be divided into smaller units – bronchopulmonary segment; Have names that
correspond to tertiary bronchi.

BRONCHIOLES
ALEVOLAR DUCTS & ALVEOLI
Respiratory bronchioles connected to alveoli along regions called alveola ducts.
Passageways end at alveolar sacs.
Each lung has 150 million alveoli – gives lung spongy appearance.

ALEVOLUS & RESPIRATORY MEMBRANE
Type 1 cells: squamous epithelial cells
Type II cells: septal or surfactant cells.
Type II cells secrete surfactant which coats inner surface of each alveolus which reduces
surface tension in fluid coating alveolar surface without surfactant alveoli would collapse
ARTERIAL SUPPLY OF LUNGS

Bronchial arteries arise from systemic circulation & supply lung & its associated tissues with
nutrients.
Left bronchial artery arises from descending thoracic aorta; right bronchial artery arises from 3rd
posterior intercostal artery.
VENOUS DRAINAGE OF LUNGS
Bronchial veins drain lung tissues
Right bronchial vein drains into azygos vein; left bronchial vein drains into accessory
hemiazygos vein or left superior intercostal vein

SUPERFICIAL LYMPHATICS OF LUNG

SUPERFICIAL (SUBPLEURAL) LYMPHATIC PLEXUS (drains lung tissue & visceral pleura
BRONCHOPULMONARY (HILAR) LYMPH NODES