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RESPIRATORY PRIMORDIUM

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RESPIRATORY PRIMORDIUM It is formed in the (4th ) week as median outgrowth at the caudal end of the Pharynx (Foregut). – PowerPoint PPT presentation

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Title: RESPIRATORY PRIMORDIUM


1
RESPIRATORY PRIMORDIUM
  • It is formed in the (4th ) week as median
    outgrowth
  • at the caudal end of the Pharynx (Foregut).

2
LARYNGOTRACHEAL GROOVE
  • The respiratory primordium is defined at (26-27)
    days as a Laryngotracheal groove caudal to the
    4th pair of Pharyngeal Pouches.

3
LARYNGOTRACHEAL DIVERTICULUM
  • By the end of the (4th week) the laryngotracheal
    groove has Evaginated to form the pouch like
    LaryngoTracheal Diverticulum.

4
LARYNGOTRACHEAL DIVERTICULUM
  • The Endoderm of the Foregut will form
  • The Epithelial lining and glands of the larynx,
    trachea, bronchi and lungs.
  • The surrounding Splanchnic mesoderm will form
  • The connective tissue, cartilage and smooth
    muscles of these structures.

5
LUNG BUD
  • It is the expanded distal end of the
    laryngotracheal diverticulum.
  • Initially, it is in open communication with the
    foregut.

6
TRACHEOESOPHAGEAL SEPTUM
  • Two longitudinal Tracheoesophageal folds (ridges)
    develop in the diverticulum.
  • They approach each other and fuse to form the
    tracheoesophageal septum.

7
TRACHEOESOPHAGEAL SEPTUM
  • The foregut will be divided into
  • Dorsal portion (Esophagus).
  • Ventral portion (trachea and lung bud).
  • The respiratory primordium keeps its
    communication with the pharynx through the
    Laryngeal Inlet.

8
LARYNX
  • CARTILAGES
  • Derived from proliferation of mesenchyme in the
    4th and 6th pharyngeal arches.
  • This mesenchyme is derived from Neural Crest
    cells.

9
CARTILAGES
  • The mesenchyme of the two arches transforms into
    Arytenoid, Thyroid and Cricoid cartilages.

10
CARTILAGES
  • This proliferation changes the appearance of the
    laryngeal orifice (primordial Glottis) from a
    narrow slit into a T -shaped laryngeal inlet.

11
EPIGLOTTIS
  • It is developed from the caudal part of the
    Hypobranchial Eminence.
  • It reaches its adult form during the first three
    years after birth.

12
EPITHELIAL LINING
  • It is derived from the Endoderm of the cranial
    part of the laryngotracheal tube.
  • Its rapid proliferation causes temporary
    occlusion of the laryngeal inlet.
  • Recanalization occurs during the 10th week.

13
EPITHELIAL LINING
  • The ventricles of the larynx form during this
    recanalization.
  • They are bounded by two folds of mucous membrane
  • Vocal Folds (Cords) and Vestibular Folds.

14
MUSCLES
  • They are derived from myoblasts in the 4th and
    6th pharyngeal arches.
  • They have nerve supply from the laryngeal
    branches of the Vagus nerves that supply these
    arches.

15
TRACHEA
  • The Endoderm of the laryngotracheal tube distal
    to the larynx gives rise to
  • Epithelial lining and Glands.
  • Splanchnic Mesoderm gives rise to
  • Connective tissue, Cartilages and Muscles.

16
BRONCHI
  • Bronchial Buds develop as two outpouchings of
    the lung bud.
  • They grow laterally into the pericardio
    peritoneal canals (primordia of the pleural
    cavities).

17
PRIMARY (MAIN) BRONCHI
  • It is the enlarged connection between the trachea
    and the bronchial buds.
  • Right Primary Bronchus
  • Larger and more vertical than the left(this
    embryonic picture is maintained till adult life).

18
SECONDARY (STEM) BRONCHI
  • They develop from subdivision of the Primary
    (main ) Bronchi.
  • They supply the lobes of the lung.
  • On the Right
  • They are Superior, and Inferior (subdivide into
    Middle and lower).
  • On the Left
  • They are Superior and Inferior.

19
TERTIARY (SEGMENTAL) BRONCHI
  • In the Right Lung (10) in number.
  • In the Left Lung
  • (8) or (9) in number.
  • BronchoPulmonary segment
  • It is the segmental bronchus with its surrounding
    mass of mesenchyme.

20
TERTIARY (SEGMENTAL) BRONCHI
  • At (24) weeks
  • (1)17 order of branches are formed.
  • After birth (7) orders of branches are formed.
  • (2) Respiratory Bronchioles have developed .

21
PLEURA
  • VISCERAL
  • Is derived from the Splanchnic mesoderm.
  • PARIETAL
  • Is derived from the Somatic mesoderm. It lines
    the thoracic body wall.

22
DEVELOPMENT OF THE LUNGS
  • It depends on
  • (1) Adequate thoracic space.
  • (2) Fetal breathing movements before birth. It
    stimulates lung development by creating pressure
    gradient between the lungs and the amniotic
    fluid.

23
MATURATION OF THE LUNGS
  • (3) Adequate volume of amniotic fluid.
  • Maturation of the lung passes through four
    periods.

24
(1)PSEUDO GLANDULAR PERIOD
  • (5-17) WEEKS
  • 1. Glandular appearance of the lung (as an
    exocrine gland).
  • 2. All major elements of the lung are formed.
  • 3. No Respiratory Bronchioles or Alveoli.

25
PSEUDO GLANDULAR PERIOD
  • 4. Respiration is Not possible.
  • 5. Fetuses born during this period are Unable to
    survive.

26
(2) CANALICULAR PERIOD
  • (16-25) WEEKS
  • 1. The lumina of Bronchi and Terminal Bronchioles
    are larger.
  • 2. Respiratory Bronchioles Each terminal
    bronchiole divides into two or more respiratory
    bronchioles.

27
CANALICULAR PERIOD
  • 3. Alveolar ducts The respiratory bronchioles
    divide into (3-6) tubular passages.
  • 4. Many Blood vessels are developing in the
    mesenchyme surrounding the bronchi and terminal
    bronchioles.

28
CANALICULAR PERIOD
  • 5. (Some) Terminal sacs appear at the ends of
    the respiratory bronchioles.
  • 6. Lung tissue is well vascularised.

29
CANALICULAR PERIOD
  • 7. Respiration is Possible toward the end of this
    period.
  • 8. Fetuses born May survive if given intensive
    care.
  • They often die because of immaturity of the
    respiratory and other systems.

30
(3) TERMINAL SAC PERIOD
  • (24 WEEKS- BIRTH)
  • 1. Many terminal sacs develop.
  • 2. Their epithelium becomes very thin.
  • 3. Capillaries begin to bulge into these
    developing alveoli.

31
TERMINAL SAC PERIOD
  • 4. This establishes intimate contact between the
    Epithelial and Endothelial cells.
  • 5. The Cuboidal Endodermal epithelium becomes
    thin Squamous (Type 1 Alveolar epithelial cells) .

32
TERMINAL SAC PERIOD
  • Type 1 Alveolar cells (Pneumocytes) permit
    adequate gas exchange Blood Air Barrier (for the
    survival of premature fetuses).

33
(6) PULMONARY SURFACTANT
  • Production
  • From Type (11) Alveolar cells, these are rounded
    secretory epithelial cells scattered among the
    squamous cells.
  • STRUCTURE
  • A complex mixture of phospholipids.

34
PULMONARY SURFACTANT
  • TIME of production
  • It begins by (20) weeks.
  • It increases during the last (2) weeks before
    birth.
  • FUNCTIONS
  • It forms a monomolecular coat over the internal
    walls of the terminal sacs.

35
PULMONARY SURFACTANT
  • (a) It lowers the surface tension at the air-
    alveolar interface by counteracting the tension
    forces.
  • (b) It facilitates the expansion of the terminal
    sacs.
  • Deficiency causes Respiratory Distress because
    of collapse of the primitive alveoli.

36
(4) ALVEOLAR PERIOD
  • Late Fetal period- Childhood
  • 1. Each respiratory bronchiole terminates in a
    cluster of thin walled terminal sacs (future
    alveolar ducts).
  • 2. The epithelial lining of the terminal sacs
    becomes Extremely Thin squamous.

37
ALVEOLAR PERIOD
  • 3. Loose connective tissue with large pulmonary
    lymphatic vessels separates the terminal sacs.
  • 4. The AlveolCapillary Membrane (Respiratory
    Membrane) is sufficiently thin to allow gas
    exchange.

38
AUTONOMOUS GAS EXCHANGE
  • It requires
  • (1) Adequate amount of Surfactant.
  • (2) The lung is changed from secretory to gas
    exchanging organ.
  • (3) Existence of parallel pulmonary and systemic
    circulations.

39
ALVEOLI
  • 1. A full term newborn has (50) million alveoli
    (1/6) of the adult number.
  • 2. On chest radiographs, the lungs of newborn
    infants are denser than adult lungs.
  • 3. 95 of alveoli develop after birth( first 8
    years after birth) .

40
ALVEOLI
  • 4. Immature alveoli have the potential for
    forming additional alveoli.
  • 5. The primordial alveoli become mature by
    increasing in size.

41
MATURATION OF THE LUNGS
  • 1. Cranial segments mature faster than caudal
    ones.
  • 2. Growth of the lungs after birth is primarily
    due to an increase in the Number of respiratory
    bronchioles and alveoli and not to an increase in
    the Size of the alveoli.

42
TRACHEOESOPHAGEAL FISTULA
  • Etiology
  • Incomplete division of the cranial part of the
    foregut into respiratory and esophageal parts.
  • Defective tracheoesophageal septum causes
    abnormal communication between the trachea and
    esophagus.

43
TRACHEOESOPHAGEAL FISTULA
  • It is the most common anomaly of the lower
    respiratory tract especially in Male infants.
  • It is usually associated with other congenital
    anomalies.

44
TRACHEOESOPHAGEAL FISTULA
  • Most common variety
  • Blind ending of the superior part of the
    esophagus (esophageal atresia) and joining of the
    inferior part to the trachea near its
    bifurcation.

45
TRACHEOESOPHAGEAL FISTULA
  • Manifestations
  • Cough and choke during swallowing because of
    accumulation of excessive saliva in the mouth and
    upper respiratory tract.
  • Gastric contents may reflux from the stomach
    through the fistula into the trachea and lungs.
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