histology of the respiratory system department of histology, cytology and embryology khnmu
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Histology of the Respiratory System
Department of histology, cytology andembryology KhNMU
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The respiratory system includes the lungs , system of passages (airways) and structures of ventilating mechanism, that link the site of gas exchange with the external environment. It is customary to divide the respiratory system into 3 principle regions: 1.a conducting portion, consisting of the nasal cavity, nasopharynx, larynx, trachea, bronchi, bronchioles, and terminal bronchioles. 2. a respiratory portion, consisting of respiratory bronchioles, alveolar ducts, atria, alveolar sacs and alveoli.3.ventilating mechanism , which creates pressure differences that move air. It includes the diaphragm, rib cage, intercostal muscles, abdominal muscles and elastic connective tissue in the lungs.
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Development of the Respiratory System
Developmental Stages (Human)1.Embryonic phase (3-7 weeks)
Initial budding and branching of the lung buds from the primitive foregut.
Ends with the development of the presumptive broncho-pulmonary segements.
Presumptive - 1 : based on probability or presumption 2 : being an embryonic precursor with the potential for forming a particular structure or tissue in the normal course of development
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Further branching of the duct system (up to 21 further orders) generates the presumptive conducting portion of the respiratory system up to the level of the terminal bronchioles. They are embedded within a rapidly proliferating mesenchyme. The structure has a glandular appearance.
2.Pseudoglandular phase (7-16) weeks
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The onset of this phase is marked by extensive angiogenisis within the mesenchyme that surrounds a dense capillary network. The diameter of the airways increases with a consequent decrease in epithelial thickness to a more cuboidal structure. The terminal bronchioles branch to form several orders of respiratory bronchioles. The developing respiratory tree, giving rise to chondrocytes, fibroblasts and myoblasts.
3. Canalicular phase (16-24) weeks
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Branching and growth of the terminal sacs or primitive alveolar ducts. Functional type I & type-II pneumonocytes differentiate via several intermediate stages from pluripotent epithelial cells in the prospective alveoli. These cells then flatten, increasing the epithelial surface area by dilation of the saccules, giving rise to immature alveoli. Maturation of the alveoli continues by further enlargement of the terminal sacs, deposition of elastin foci and development of vascularised septae around these foci.
4.Terminal sac phase (24-36) weeks
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Maturation of the lung indicated by the appearance of fully mature alveoli begins at 36 weeks, though new alveoli will continue to form for approximately three years. A decrease in the relative proportion of parenchyma to total lung volume still contributes significantly to growth for 1 to 2 years after birth, thereafter all components grow proportionately until adulthood.
5.Alveolar phase (36 weeks - term/adult)
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There are changes in the epithelial lining of the respiratory tree as one proceeds from the nasal cavity to the alveoli of the lungs: Pseudostratified Columnar Ciliated=> Simple Columnar =>Simple Cuboidal => Simple Squamous Epithelium.
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Conducting Portion
System of ducts Conducts air to all parts of the lungs
Nose Nasopharynx Larynx Trachea Bronchi Bronchioles Preterminal bronchioles Terminal bronchioles Conditioning of the air
Warming, moistening and removal of particulate materials
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Trachea 20 C-shaped cartilaginous rings Paries membranaceus
Connective tissue that fills gap between the two posterior ends
Neighbouring ringsConnected by regular dense connective
tissueContinuous with perichondrium of
cartilaginous rings
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1. Mucosa
Pseudostratified columnar epithelium with cilia and goblet cells
2.Lamina propria,Elastic & Collagen fibers 3.Submucosa Mixed glands and lymph follicles
4. Fibrocartilagenous Layer Hyaline Cartilage & SMC
5.Adventitial layer
Trachea
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Low Magnification of a Cross Section Through the Trachea
1. Lumen2. Pseudostratified ciliated columnar
epithelium3. Submucosa4. Hyalin cartilage5. Perichondrium6. Adventitia7. Mixed glands8. Secretory duct
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Epithelium of the Trachea
1. Lumen 2. Cilia3. Columnar
epithelial cells4. Basal membrane5. Lamina propria6. Basal cell layer7. Goblet cell
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Respiratory epithelial cell types
1.Ciliated columnar cells2.Mucous goblet cells3.Brush cells4.Basal cells5.Small granule cells
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BronchiExtrapulmonary bronchi
Two primary bronchi
Histologically similar to the trachea Intrapulmonary bronchi
Secondary bronchi (Lobar) - 5Bronchopulmonary segmental
bronchi –Tertiary (Lobular)- 20
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Intrapulmonary BronchiMucosa
Pseudostratified columnar containing cilia and goblet cells
Lamina propria - elastica changes into longitudinally arranged elastic fibers
Smooth muscle Between mucosa and cartilage Mixed glands - between muscle layer and
cartilagous plates
Cartilage Irregular shaped cartilaginous plates
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Bronchi Three-dimensional Representation of an Intrapulmonary Bronchus
cartilage plate
lamina propria
pseudostratified columnar epithelium with cilia and goblet cells
smooth muscle
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BronchiolesBranches of bronchiPenetrate lung lobule at its apex
Preterminal bronchiole inside the lobule
Preterminal bronchioleBranches into terminal bronchiolesBranch further
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BronchiolesMucosa
Epithelium in the larger bronchiolesSimple columnar epithelium with cilia Tall, non-ciliated secretory cells – cells of Clara
In smaller bronchiolesTall cuboidal epithelium
Goblet cells have disapeared higher up in the bronchioles
Lamina propriaThin elastic layer
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Bronchioles
Muscle layerSame as that of the bronchi
Connective tissue
Attaches bronchioles to surrounding tissue
No glands or cartilage are present
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Terminal bronchioles – end point of Conducting portion
Respiratory bronchioles – beginning of Respiratory Portion
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Respiratory PortionConsists of smaller ducts and
sacsRespiration takes place
Respiratory bronchiolesAlveolar ductsAlveolar sacsAlveoli
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Respiratory Bronchioles
Respiratory bronchioles Branch from terminal
bronchioles Alveoli
Thin bulging sacs in walls
Gas exchange takes place
Schematic of the Respiratory Portion of a Lung Lobule
Smooth musclerespiratory bronchiole
alveolar ductsalveoli
interalveolar septum
sacculus alveolaris
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High Magnification of the Lung Demonstrating a Respiratory Bronchiole
1. High cuboidal epithelium
2. Alveolus3. Interalveolar
septum4. Lumen
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Alveolar Ducts, Alveolar Sacs and Alveoli
Alveolar ducts Long passages into which respiratory bronchioles
open Alveolar ducts open directly into small spaces
Alveoli Interalveolar septa
Separate neighboring alveoli Alveolar sacs
Air spaces surrounded by clusters of alveoli Elastic and reticular fibers
Arranged around the capillaries
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1. Alveolar sacs2. Alveoli3. Interalveolar septa
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Blood – Air BarrierSeparation Between Air and
Bloodstream Cytoplasm of epithelium lining the
alveoliBasal lamina of the epitheliumBasal lamina of the capillary
endotheliumCytoplasm of capillary endothelium
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Alveolar epithelium – PneumocytesSimple squamous alveolar epithelial cells – Type 1 cells -Thin cytoplasmLarge Secretory cells – Type 2 (secretory cells) - Secrete surfactant & Decrease surface tensionAlveolar macrophages - Type 3 (dust cells)
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Pulmonary surfactant is a surface-active lipoprotein complex (phospholipoprotein) formed by type II alveolar cells. It is 2-layer molecular film on the alveolar surface. The proteins and lipids that comprise the surfactant have both a hydrophilic region and a hydrophobic region. The main lipid component of surfactant, (DPPC)- dipalmitoylphosphatidylcholine.
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. Functions of surfactant1.Decrease surface tension2.To increase pulmonary compliance3.To prevent atelectasis (collapse of the lung) at the end of expiration.4.To facilitate recruitment of collapsed airways.
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Pulmonary Surfactant
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Pores and Lambert-sinuses Alveolar pores
Direct contact between 2 alveoli Infections can spread from one lobe
to another via this route Lambert sinuses
Short cannelConnects terminal bronchioles with
alveoli
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Acinus is a Structural and Functional Unit of the Lung
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Terminal Part of the Lungs