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The Thoracic Cavity

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Title: The Thoracic Cavity


1
The Thoracic Cavity
  • Boundaries of and Structures Within

Medical ppt
http//hastaneciyiz.blogspot.com
2
Cavities
  • Dorsal body cavity
  • Ventral body cavity
  • Abdominopelvic
  • Abdominal
  • Pelvic
  • Divided by Diaphragm
  • Thoracic
  • 2 Pleural
  • Mediastinum

www.newworldencyclopedia.org
3
Serous membrane Serosa
  • Simple squamous epithelium areolar connective
    tissue
  • 2 Layers
  • Outer layer PARIETAL serosa
  • Inner layer VISCERAL serosa
  • Between them Serous Cavity containing Serous
    Fluid
  • Serous fluid is blood filtrate secretions by 2
    layers of membrane
  • Allows movement of organs with reduced friction
  • Types of Serous Membranes
  • Pleural surrounds lungs
  • Pericardium surrounds heart, slightly modified
  • Peritoneal surrounds some abdominal organs

4
Pleural Cavities
  • Surround the lungs
  • Pleural fluid secreted by pleural membranes
  • Holds layers together
  • Reduces friction of organs
  • Compartmentalization

pg 136
5
Pleural Cavities
  • 2 Layers
  • Parietal pleura (outer)
  • inner surface of thoracic wall
  • superior surface of diaphragm
  • lateral surface of mediastinum
  • Visceral pleura (inner)
  • root of lungs marks transition
  • external surface of lungs

pg 137
6
Pleural Abnormalities
www.rcjournal.com
  • Pleural Effusion
  • Excess fluid in the pleural cavity
  • More than 20X
  • Usually less than 1 ml of fluid
  • Pneumothorax
  • Air located in pleural space

Pg 210
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7
Divisions of Mediastinum
  • Superior (to heart)
  • Contains thymus, cranial vena cava, trachea,
    esophagus
  • Inferior
  • Anterior (to heart)
  • Contains thymus
  • Posterior (to heart)
  • Contains aorta, esophagus,
  • trachea, bronchi, caudal
    vena cava
  • Middle
  • Contains heart

pg 153
8
Boundaries of Mediastinum
  • Lateral
  • parietal pleura of lungs
  • Anterior
  • ventral parietal pleura
  • Posterior
  • dorsal parietal pleura
  • Superior
  • dome of the neck
  • Inferior
  • diaphragmatic pleura

pg 136
9
Respiratory Tract
  • Upper Respiratory Tract
  • Superior to Larynx
  • Lower Respiratory Tract
  • Larynx
  • Trachea
  • Primary Bronchi
  • Secondary Bronchi
  • Rest of Bronchial Tree
  • Lungs

pg 944
10
Trachea windpipe
  • Starts at Larynx and travels through mediastinum
  • Located Anterior to Esophagus
  • Trachea terminates into 2 primary bronchi
    entering lungs
  • Walls contain 16-20 C shaped rings Hyaline
    Cartilage
  • Trachealis Muscle (smooth muscle and soft CT)
  • Layers (deep to superficial)
  • Mucosa Ciliated Psuedostratified Epithelium
  • Submucosa- contains seromucous glands
  • Adventitia made of connective tissue, contains
    cartilage rings

Pg 917
11
Bronchial Tree
  • Primary (main) Bronchi
  • Bifurcation of trachea
  • Basically the same structure
  • Cartilage plates replace rings
  • Posterior to pulmonary vessels
  • Right is wider, vertical, shorter
  • Secondary (lobar) Bronchi
  • Each primary bronchi divides
  • Same structure as primary bronchi
  • Right lung has 3, Left has 2
  • Tertiary (segmental) Bronchi
  • Up to 23 divisions

pg 145
12
Bronchial Tree (continued)
  • Bronchioles
  • further divisions, lt 1 mm diameter
  • Terminal Bronchioles
  • further divisions, 0.5 mm diameter
  • Respiratory Zone
  • Respiratory Bronchioles
  • Alveolar Ducts
  • Alveolar Sacs
  • Terminal bunches of Alveoli
  • Respiratory exchange chamber

13
Respiratory Zone (continued)
  • Lining the Walls of Alveoli
  • Respiratory Membrane
  • Type I cells simple squamous epithelial cells
  • Basal lamina and fine areolar CT
  • Covered with capillaries and elastic fibers
  • Gas exchange
  • Oxygen into blood
  • Carbon Dioxide into alveoli
  • Type II cells cuboidal epithelial cells
  • Secrete fluid containing surfactant

14
Throughout Bronchial Tree
  • Psuedostratified columnar changes to simple
    columnar to simple cuboidal
  • Cartilage rings replaced by cartilage plates once
    bronchi enter the lungs
  • Smooth muscle and Elastic fibers remain important
  • In Bronchioles
  • Ciliated mucosa disappears, replaced by
    macrophages in alveoli
  • Cartilage disappears
  • Smooth muscle forms bands around smallest bronchi
    and bronchioles (not found around alveoli)

15
LUNGS (continued)
  • Located in Pleural Compartments
  • Lateral to Mediastinum
  • Location
  • Apex posterior to clavicle
  • Base lays on Diaphragm
  • Costal Surface Ant, Lat, Post surfaces contact
    ribs
  • Left Lung 2 lobes
  • Upper
  • Lower
  • Oblique Fissure
  • Cardiac Notch
  • Right Lung 3 lobes
  • Upper
  • Middle
  • Lower
  • Oblique fissure
  • Horizontal fissure

pg 145
16
LUNGS
  • Hilus- medial indentation
  • Root of Lung structures enter each lung
  • 2 Pulmonary Veins carries O2-rich blood from
    each lung to heart
  • 1 Pulmonary Artery carries O2-poor blood to
    each lung
  • Primary Bronchus
  • Nerves
  • Lymph Vessels

pg 141
17
Specific Location of Lungs
  • Right Lung
  • 1 above Rib 1
  • Crosses Costal Cartilage 6
  • Midclavicular at Rib 6
  • Midaxillary at Rib 8
  • Vertebral Border at Rib 10
  • Inferior border 2 rib widths above diaphragm
  • Left Lung
  • 1 above Rib 1
  • Deep to Manubroclavicular joint
  • Midsternally to Rib 4
  • Jogs to left, continues to Rib 6
  • Midaxillary Rib 8
  • Vertebral Border at Rib 10

18
Lung Lobes
  • Lobes are anatomically functionally separate
  • Lung lobes divided into Lobules
  • Functionally separate
  • Separated by dense CT
  • Vary in size
  • Stroma lung tissue
  • CT
  • Many elastic fibers

pg 155
19
Esophagus
  • Esophagus
  • Pharynx to Stomach
  • Passes thru diaphragm at esophageal hiatus
  • Anterior to vertebrae, Posterior to trachea
  • Layers of Esophagus (deep to superficial)
  • Mucosa
  • Stratified squamous epithelium
  • Lamina propria (loose CT)
  • Muscularis mucosae
  • Submucosa
  • Loose connective tissue
  • Secretes mucus
  • Muscularis Externa
  • Circular/Longitudinal layers
  • Skeletal m, Mix, then Smooth m
  • Adventitia
  • Fibrous CT

pg 139
20
The Diaphragm
  • Skeletal Muscle
  • Dome-shaped (relaxed)
  • Flattens (contracts)
  • Divides thoracic abdominopelvic cavities
  • Attachments
  • O Inferior Internal rib cage, Lumbar vertebrae
    (by crura)
  • I Central tendon
  • Innervated by right left PHRENIC Nerves

pg 114
21
Action of the Diaphragm
  • Primary muscle of respiration (involuntary)
  • Contraction during inspiration
  • Increases volume of thoracic cavity
  • Decreases pressure of thoracic cavity
  • Air moves into lungs (high?low pressure)
  • Forced contraction (voluntary)
  • Used for defecation, urination, labor
  • Decreases volume of abdominal cavity
  • Increases pressure in abdominal cavity
  • Pushes on abdominal organs to move contents out

pg 114
22
Thoracic Cavity Capacity is Increased by
  • Contraction of diaphragm
  • Intercostal muscles elevate ribs
  • Rib elevation causes the sternum to move
    anteriorly

pg 113
23
Openings of Diaphragm
  • Posterior?Anterior
  • Aortic Hiatus
  • Aorta
  • Azygos vein
  • Thoracic duct
  • Esophageal Hiatus
  • Esophagus
  • Vagus nerve
  • Caval Opening
  • Inferior Vena Cava
  • Right Phrenic Nerves

pg 134
24
Vena Cava
  • Superior Vena Cava
  • in Superior mediastinum, right side
  • Receives blood from regions above diaphragm
  • Formed from Rt Lft Brachiocephalic Veins
    cranially
  • Azygos Vein empties into it just superior to
    heart
  • Empties into Right Atrium
  • Inferior Vena Cava
  • in Inferior mediastinum (right side), runs
    through abdomen
  • Returns blood to heart from regions below
    diaphragm
  • Formed from Rt Lft Common Iliac Veins
  • Empties into Right Atrium
  • Widest blood vessel in body

25
Veins of Thoracic Cavity
  • Vena Cavae
  • Azygos Vein
  • unpaired
  • right side of vertebral bodies (at level of T12)
  • runs superiorly
  • empties into Sup. Vena Cava
  • drains right posterior intercostal veins
  • Connects to hemiazygos and accessory hemiazygos
    that drain left side

pg 131
26
The Lymphatic Vessels
  • Function to collect excess tissue fluid
    collecting at arteriole end of capillary beds,
    and return leaked blood proteins to blood
    (maintain osmotic pressure needed to take up
    water into bloodstream)
  • Lymph is moved through vessels
  • Pulse of nearby arteries
  • Contraction of surrounding skeletal muscle
  • Regular movement of body (wiggling legs)
  • Muscle in Tunica Media
  • Lacteals-lymphatic capillaries w/unique function
  • In mucosa of small intestine, receive digested
    fat from intestine
  • Fatty lymph becomes milky Chyle
  • Chyle goes to bloodstream

27
Lymphatic SystemThe Players
  • Lymph- clear fluid from loose CT at capillaries
  • Contains small molecules of blood plasma, water,
    various ions, nutrient molecules, respiratory
    gases
  • Lymphatic capillaries (near blood capillaries) ?
  • Lymph collecting vessels (small, 3 tunicas,
    valves)?
  • Lymph nodes (sit along collecting vessels)-clean
    lymph of pathogens, they are NOT glands
  • Lymphatic trunks ?(convergence large collecting
    vessels)
  • Lymphatic ducts ? empty into veins of neck

28
Lymphatic Ducts
  • Thoracic Duct
  • Receives lymph from large trunks in abdomen and
    thorax
  • Receives lymph from ducts of thoracic lymph nodes
  • Along vertebral bodies
  • Contain valves to ensure 1-way flow of lymph to
    lymph nodes
  • Drains into left Brachiocephalic Vein (or
    subclavian or int. jugular veins)

pg 132, 150
29
Thymus Gland
  • Lymphatic Organ
  • 2-lobed w/lobules
  • Sits on heart and great vessels
  • Immature lymphocytes mature into T-lymphocytes
  • Secretes Thymic Hormones help T-lymphocytes gain
    immunocompetence
  • Decreases in size w/age
  • Functional tissue is replaced with fatty tissue

pg 183
30
Thymus Gland
  • Increases in size during childhood
  • Decreases in size during adulthood
  • Contains lobes and lobules
  • Capsule
  • Cortex
  • Medulla

Medical ppt
http//hastaneciyiz.blogspot.com
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