Obstructive Lung Diseases PDF

Summary

This document discusses obstructive lung diseases, including COPD, bronchitis, bronchiectasis, asthma, and emphysema. It covers definitions, pathogenetic mechanisms, clinical findings, and complications associated with each condition. The document is likely part of a course on respiratory diseases.

Full Transcript

Obstructive Lung Diseases
Prof Dr Sergülen
Dervişoğlu
 Learning objectives
By the end of this course, students should be able to
understand the terms of COPD
Learns definition of obstructive pulmonary disease and its
subtypes
Understands pathogenetic mechanisms and clinical
findings of COPD
Understands bronchitis and its pathological findings
Describes bronchiectasia subtypes both macroscopically
and microspcopically and list its’ complications
Explains the clinical, pathological findings and
immunopathogenesis of bronchial asthma.
Explains the definition of emphysema, its pathogenesis,
subtypes according to causes and morphological features.
Obstructive versus Restrictive Pulmonary
Disease
Obstructive (airway disease); an increase in
resistance to airflow owing to partial or complete
obstruction in any level
Emphysema
Chronic bronchitis (COPD)
bronchiectasis
asthma
Restrictive; reduced expansion of lung
parenchyma, with decreased lung capacity
Chest wall disorders (Normal lung) neuromuscular
disorders*polio, severe obesity, kyphoscoliosis
acute or chronic interstitial and infiltrative disease (
pneumoconiosis / interstitial fibrosis)
Disorders Associated with Airflow Obstruction: The Spectrum of Chronic Obstructive Pulmonary Disease

Major Pathologic
Clinical Term Anatomic Site Changes Etiology Signs/Symptoms
Chronic bronchitis Bronchus Mucous gland Tobacco smoke, air Cough, sputum
hyperplasia, pollutants production
hypersecretion

Bronchiectasis Bronchus Airway dilation and Persistent or severe Cough, purulent
scarring infections sputum, fever

Asthma Bronchus Smooth muscle Immunologic or Episodic wheezing,
hyperplasia, excess undefined causes cough, dyspnea
mucus, inflammation

Emphysema Acinus Airspace Tobacco smoke Dyspnea
enlargement; wall
destruction

Small airway Bronchiole Inflammatory Tobacco smoke, air Cough, dyspnea
disease,* scarring/obliteration pollutants,
bronchiolitis miscellaneous
 Clinical features of COPD
They are asymptomatic in early stages
(because of pulmonary reserve)
FEV1:FVC ratio is decreased
Total lung capacity and residual volume are
often increased as a result of trapping in the
distended air spaces
In the later phase COPD patients presents
with spectrum of symptoms which are
designated type A and type B
Clinical features of COPD
Type A (Pink puffer)
Chronic cough
Progressive dyspnea, wheezing
Hyperventilate
Sit hunched forward (to bring accessory
respiratory muscles into action)
Mouth open, nostrils dilated
Lungs are over inflated ( increase in
anteriopost. diameter of chest = barrel chest
Flattened diaphragm on X-ray
Oxygenation of blood is normal
(hyperventilation)
Clinical features
Type B (Blue bloater)
of COPD
They have marked obstructive bronchitis and can not
ventilate
Decreased oxygenenation of blood (cyanosis)
Arterial CO2 increased
Changes microvasculature of lung paranchyma ⃗ PH ⃗ RV
hypertrophy and failure ⃗ Corpulmonale
⃗ peripheral edema (blue bloater)
Chronic hypercapnia; the respiratory center becomes
insensitive to the increased CO2 stimulus and is driven
by hypoxemia
Administration of O2 in these patients can remove the
resp. Center drive and cause CO2 retention and death
“CO2 narcosis”
 Chronic Bronchitis
Pathogenesis: 5-10 times more common in heavy
cigarette smokers
Cigarette smoking acts as local irritant ⃗
hypertrophy of bronchial mucous glands ⃗
inreased in mucous cells ⃗ hypersecretion of
mucus ⃗ neutrophils (🡩)
Sulfur dioxide and oxidates of nitrogen are
other inhaled irritants
Hypersecretion of mucus increases the
susceptibility to bacterial infection (H.influenza,
pneumococcus, Strep.)
 Chronic bronchitis
Persistent productive cough for 2 years at least
3 consecutive months
Simple chr. Bronchitis**no airway obstruction
Mucoid sputum
Secondary infections----chr. Mucopurulent
bronchitis
Hyperresponsive airways***intermittent
asthma****chr. Asthmatic bronchitis
Small population/pulm. Funciton test---chr.
Obstructive bronchitis
Chronic Obstructive Bronchitis
Clinically persistent presence of increased
bronchial mucus secretion, chronic cough
productive of mucoid sputum
Microscopic changes:
hypertrophy bronchial wall mucous glands ass. w. Chronic inf
-and fibrous replacement of muscular walls of small bronchioles

Reid Index: the ratio of mucous gland
thickness / bronchial wall thicknes = 0.5 (is
increased)
Fibrotic bronchioles tend to collapse in
expiration (under the influence of the positive
intrathorasic pressure, resulting in ventilatory
obstruction in expiration)
Bronşit
 ▪ Normally
bronchial wall
gland thickness
is half of the
Epithelial-cartilag
e distance
▪ If this ratio ↗
objective finding
of chr. bronchitis

REID INDEX
bc < ad/2 = chr bronchitis
Chronic Bronchitis
 Respiratuar Bronşiyolit

✔

✔ Smokers
✔Macrophages with brown
pigment in Res. Bronchioles
✔ Goblet cell metaplasia
✔ Peribronchioler fibrosis
✔ Narrowing of the air ways
 Complications
Squamous
Kronik Bronşit
metaplasia
✔ Mucus gland
Hyperplasia
✔ cartilage and
smooth muscle cell
🞴
✔ fibrosis of
bronchial wall
✔ Bronchiectasis
 Bronchiectasis
is abnormal and irreversible dilatation of
bronchial tree prox to the terminal bronchioles
(in contrast to emphysema which involves the
bronchial tree distal to the terminal
bronchioles)
Etiol: Chronic infection
resulting paranchymal destruction
fibrosis
abnormal permanant dilatation of damaged bronchi

usually bilaterally, dilatations long, tubelike
enlargements (cylindroid), fusiform, saccular
 Permanent dilatation
Bronchi and bronchioles
Destruction of muscle and elastic tissue
Chronic necrotizing infection
Not a primary disease
Secondary to persisting infection and
obstruction
 Bronchiectasis
Causes:
Long standing bronchial obstruction
Bronchial tumors, stenosis
stagnation of mucus is followed by bronchopneumonia,
mucus impact
Atopic asthma and chronic bronchitis
Mucoviscidosis (fibrocystic D. Of pancreas)
(Mucus is abnormally thick)
Cystic fibrosis
Bronchopneumonia
Necrotizing type****---measles,whooping cough, influenza
immundeficiency
Kartagener Syndrome:
Cong. Defect in ciliary motions caused by autosomal recessive
disorder ⃗ bronchopneumonia ⃗ bronchiectasis
absence of frontal sinuses
in male; loss of sperm motility and infertility
dextracardia
Intralobar sequestration
 Bronşiyektazi

Saccular
cylindirical
 Mostly lower lobes
Bronşiyektazi and bilateral
Bronchiectasis
 Complications of bronchiectasis sonuç
ve komplikasyonları
Cor-pulmonale
Repeated inf.; Pyemia-sepsis
Pneumonia with abscess
Pyogenic pleuritis
Metastatic abcesses (brain )
‘clubbing of the fingers’
Secondary Amyloidosis
 Bronchial asthma
Acute narrowing of bronchioles
due to smooth muscle contraction
(Bronchospasm)
Obstr. of air flow-maximal
expiration-high picthed wheeze
Expiration is prolonged
 Astım
Heredity (exstrinsic asthma)
Emotional stress
Cold weather intrensic asthma
Excersize
Endocrine factors
30-60 minutes
 Immun pathway🞴 CD4+ TH2 cell control
IL-4 ve IL-5,IL13 release 🞴 Eosinophil fonc +
release of inflammatory mediators
(histamine, prostaglandin, leukotrien,
Bradykinin)
PAF, Mast cell triptase, TNF

Non-immun pathway ??
CD4+ TH2 cells
(autonomic system)🞴 vagal system stimulation

(α Adrenerjik🞴, β adrenerjik🞴) 🞴 Reflex
bronchospasm
(A) Acute phase first 30-60 mn
(B) late phase following 4-8 hr
Bronchial wall;
Smooth muscle cell
contraction
Eosinophil increase
Mucosal vasodilatation
Mucus hypersecretion
 Asthma
– Histology: nonspesific
– Inspissation of mucus leads to bronchiolar
obstruction and focal collaps of alveoli
– Mild inflammation, edema
– Episodic attacks of dyspnea and wheezing
– Tx;Bronchodilator (theophyline,
epinephrine,ß-adrenergics,corticosteoids
Sputum;scanty, thick, viscous, forming casts of
bronchioles(Curshmann’s spirales)
Charcot leyden crystals (formed from degraded
eosinophils)
 Status asthmaticus:
acute but long
duration crisis
Bronhcodilatators+
corticosteroid
Frequent and
extended attacks
hypercapnia,
asidosis , hypoxia
---- death
 Emphysema
Abnormal permanant enlargement of the
airspaces distal to the terminal bronchiole,
accomp. by destruction of their walls
Not overinflation ( compansatory)
Anatomic distribution:
Centriaciner /centrilobular(90%) central or prox.
parts of acini
Panacinar; acini uniformly enlarged,( α1-AT)
Paraseptal; distal acini
Irregular
Other types
Bullous emphysema
İntertitial emphysema
 Irreversible damage of terminal airways;
Irreversble dilatation of Terminal
respiratory unite

Autopsies 50% cases
Amfizem
Cause of Death in 5-6%
5-7. decades
Overinlation is NOT emphysema!

More severe in male patients
Pathogenesis: Emphysema
Imbalance protease(elastase)-antiprotease mechanism
Due to action of enzymes (proteases)
Source of proteases is leukocytes associated with pulmonary
infection
Normally, antiproteolytic substances such as antitrypsins in
plasma inactivate these enzymes, so protect tissue from
damage
Excess of proteolytic enzymes ( Neutrophilic infiltration)
Or too little antiproteolytic activity (Alfa 1 antitrypsin
deficiency)
Cigarette smoking- chr. irritation-Neutrophil increasing
α1-AT deficiency*** genetic problem
Large apical blebs or bullae, obscure the heart,
Slowing of forced expiration
Voluminous lungs
Neutrophils are principal source
of cellular elastase
Any stimulus that increases the
number of PML and Mac
Or relase of their elastase containing
granules
✓Imbalance at
Protease-antiprotease
✓ Imbalance at Oxidants-antioxidants
 Emphysema Pathogenesis: II
Protease-antiprotease mechanisms
Homozygote twins α1 antitrypsine def.
Smokers Macrophages and PML ↑,
elastase release ↑
Oxidants at cigarette smoke and PML derived free
radicals α1 antitrypsine ↓
✵Macrophage derived elastases not inhibited by α1
antitrypsine
 Amfizem Patogenez III
antielastase
Alpha1 antitrypsine Deficiency in
alpha 1
antitrypsine
smoking

Elastic
elastase damage emphysema
☸

✵Macrophage derived elastases not inhibited by α1 antitrypsin
 Amfizem patogenezi
✓Imbalance at Protease-antiprotease
✓ Imbalance at
Oxidant-antioxidant
 Pi locus on chromosome
Amfizem 14
Pi= Protease inhibitor
Normal --- polimorphic or contains MM
allel
When Pi is ZZ homozygous PiZZ (%0.012
USA) very low levels of protease
inhibitor in serum (α1 antitrypsine ↓)
These patients symptomatic emphysema
Amfizem
 Amfizem

Swollen lungs like
feathered pillow,
Increased air content
Pale and dry
Due to loss of elasticity
do not shrink when the
thorax cage is open
 Centrilobular (centriacinar)
Emphysema
Upper lobes ***apical segments
Dilatation of proximal
part of asinus
✔not all asini in one
lobulus
 Centriacinar Emphysema
Chronic smokers
With chr. bronchitis
Pneumoconioses
Upper lobes severe involvement
 Centriacinar emphysema
Smokers have accumulation of neutrophils and
macrophages in their alveoli
Smoking stimulates release of elastase from
neutrophils
Enhances elastase activity in macrophages
Not inhibited by alpha 1- antitrypsin
Proteolytically digest this antiprotease
Oxidantas in cigarette smoke and oxygen free
radicals by PML inhibit alpha 1 antitrypsin
 Panacinar emphysema
Total acinar dilatation
Lower lobes
α1 antitrypsine deficiency
Panacinar ve Centriacinar
amfizem
Distal (paraseptal) emhysemaamfizem
Distal dilatation of asini
Proximal normal
Upper lobes and subpleural areas
Fibrosis and atelectasia at surrounding lung
0.5-2 cm multipl cysts
Spontaneous pneumothorax at young
populations
Paraseptal emphysema
Distal (paraseptal) amfizem
 Irregular emphysema

Most common type in daily practice
Usually asymptomatic
Next to scar tissue
with fibrosis (old Tbc )
 Condition related to emphysema
Amfizem Tipleri
1-Obstructive overinflation
emphysema
2-Compansatory emphysema
3-Senile emphysema
4-Interstitial mediastinal emphysema
5- Bulleous emphysema
 Emphysema and chronic
bronchitis/bronchiolitis
Chronic Obstructive Lung Disease
(COPD)
🞴USA 10% patients
🞴 4. cause of major deaths
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