Pathology

Question 1

Second name of neonatal respiratory distress syndrome

Answer 1

Hyaline membrane disease

Question 2

Neonatal respiratory distress syndrome

Answer 2

Respiratory distress
Refractory to oxygen therapy in newborn
Due to hyaline membranes formation in alveoli because of immaturity of lungs with surfactant deficiency

Question 3

First symptoms of neonatal respiratory distress syndrome

Answer 3

Resuscitation at birth 
within 30 minutes :
dyspnea 
tachypnea 
expiratory grunts
 cyanosis 
crepitations in the lungs
 ground glass opacity over the lungs on x-rays
Apneic spells

Question 4

Neonatal respiratory distress syndrome incidence

Answer 4

60% incidence when born before 28 weeks

30% incidents one born between week 28 and 34

Less than 5% chance is one born After week 34

Question 5

Risk factors of Neonatal respiratory distress syndrome

Answer 5

Prematurity (born before week 36)

Maternal diabetes

Planned c section

Male gender

Question 6

Neonatal respiratory distress syndrome pathogenesis

Answer 6

Prematurity 
Low surfactants 
High surface tension in alveoli
Atelectasis
 Uneven Perfusion and hypoventilation 
Hypoxemia and CO2 retention
Acidosis 
vicious cycle because acidosis decreases surfactant release

Pulmonary Hypoperfusion 
endothelial and epithelial cell damage 
exudation  of plasma into alveoli 
Fibrosis necrosis and Hyaline membrane 
increased gradient rate 
hypoxemia and co2 retention 
vicious cycle

Question 7

Type of cell that produce surfactant

Answer 7

Type 2 pneumocyte

Question 8

Surfactant regulation

Answer 8

Corticosteroid induce production

Insulin repress production

Question 9

MacroMorphology of neonate respiratory distress syndrome

Answer 9

Lungs look airless, solid, reddish purple,sink in water

Question 10

Microscopic morphology of respiratory distress syndrome

Answer 10

Atelectatic Aleve alveoli alveoli
necrotic debris in alveolar duct in terminal bronchiole
Eosinophilic hyaline membrane ( in respiratory bronchiole, alveoli , alveolar ducts

Question 11

What are hyaline membranes

Answer 11

Fibrin with necrotic type 2 pneumocytes , RBC, rare neutrophils , macrophages

Question 12

Prevention of neonatal respiratory distress syndrome

Answer 12

Delay labor
antenatal steroids to mother
surfactants to very young fetuses

Question 13

Neonatal respiratory distress syndrome treatment

Answer 13

Oxygen

exogenous surfactants

Question 14

Neonatal respiratory distress syndrome complications

Answer 14

Retrolental fibroplasia 
broncopulmonary dysplasia due to oxygen toxicity
patent ductus arteriosus 
intraventricular hemorrhage 
necrotizing enterocolitis

Question 15

Why are male neonate more prone to respiratory distress syndrome

Answer 15

Estrogen influence lung developments

Lower rates of alveolar sodium transport channels than in female => fluid accumulation and less gas exchange

Female develop surfactant earlier

Question 16

Why do diabetic mothers have higher chances of having a neonate with respiratory distress syndrome

Answer 16

Higher chances of pre-terms baby

Inadequate use of glycogen for surfactant Synthesis

Question 17

Coryza

Answer 17

Infectious rhinitis - common cold

Question 18

Coryza cause

Answer 18

Virus ( adeno, rhino, RSV, echo)

Question 19

Most common virus in coryza

Answer 19

Rhino virus

Question 20

Coryza characteristics

Answer 20

Acute inflammation
Catarrhal
Mucus hyper secretion
Loss of epithelial cells

Bacterial secondary inflammation

Question 21

Atopic rhinitis (hay fever / allergic rhinitis) causes

Answer 21

Sensitization to house dust mites proteins plants pollen fungi animal allergens
IGE mediated

Question 22

Atopic rhinitis pathogenesis

Answer 22

Mast cells release histamine: 
 Mucosal edema 
nasal obstruction 
redness 
watery rinorhea
 goblet cells hyperplasia 
thickened basement membrane 
inflammatory exudate with many eosinophils

Question 23

Chronic rhinitis

Answer 23

Sequel to recurrent acute/allergic rhinitis
Superimposed bacterial infection
Mixed inflammatory exudate
Can extend into sinuses

Question 24

Nasal polyps cause

Answer 24

Chronic inflammation or type 1 hypersensitivity or asthma

Question 25

Nasal polyps morphology

Answer 25

Soft
rounds or elongated masses
pale gray brown
0.5 to 2 cm

Question 26

Nasal polyps site

Answer 26

Middle turbinate

Question 27

Nasal polyp histology

Answer 27

Surface epithelium with meta plasia

Allergic type have lot of eosinophils

Question 28

Nasal polyp complications

Answer 28

Loss of smell

Frequent infections

Question 29

Acute sinusitis

Answer 29

Acute inflammation of sinuses

Question 30

Cause of acute sinusitis

Answer 30

Acute /chronic rhinitis with edema and sinus Ostia blockage

Question 31

Bacteria in secondary infection in acute sinusitis

Answer 31

Staph aureus
H influenza
Pneumococcus
Strep pyogenes

Question 32

Acute sinusitis complications

Answer 32

Empyema

Question 33

Chronic sinusitis

Answer 33

Failure to resolve acute sinusitis

Question 34

Origin of severe form of chronic sinusitis

Answer 34

Fungal origin

Question 35

Necrotizing nasal lesions

Answer 35

Acute fungal infection

Question 36

Necrotizing nasal lesions Morphology

Answer 36

Granulomatosis - Polyangitis (wegeners granulomatosis)
giant cell granulomas of lungs
Polyarteritis
renal damage
Extranodal T cell then lymphoma in elderly

Question 37

Pharyngitis and tonsillitis

Answer 37

Non-specific inflammation of needs a pharynx

Question 38

Common causes of pharyngitis and tonsillitis

Answer 38

Mostly viral

sometimes bacterial

Question 39

Characteristics of pharyngitis and tonsillitis

Answer 39

Red
Oedematous mucosa
Enlarged tonsils and lymph node

Question 40

Of what bacteria is pharyngitis and translate is an important sequelae

Answer 40

B haemolytic strep( pyogenes)

Question 41

Benign tumors of nose Sinuses nasopharynx larynx

Answer 41

Hemangiomas
squamous papillomas
juvenile angiofibroma

Question 42

Juvenile angiofibroma

Answer 42

Benign tumor of nasopharynx in childhood almost exclusive to male

Vascular and epistaxis

Question 43

Malignant tumor of nose nasopharynx pharynx sinuses

Answer 43

Squamous cell carcinoma 
Adenocarcinoma (common in wood workers)
lymphoma 
sarcomas 
Olfactory neuroblastoma
Nasopharyngeal carcinoma

Question 44

Naso pharyngeal carcinoma incidence

Answer 44

Twice in males

Peak at 10-20 and 6th decade

Question 45

Causes of nasal pharyngeal carcinoma

Answer 45

Hereditary
Age
EBV
diet

Question 46

Acute epiglotitis causes

Answer 46

RSV
H influenza B
streptococcus

Question 47

A cute epiglottis presentation

Answer 47

Respiratory obstruction by edema

dyspnea worse in supine position

Question 48

Managements of acute epiglottitis

Answer 48

Emergency so may require tracheostomy

Question 49

Acute Laryngotracheo bronchitis

Answer 49

Gradual onset of cough
stridor
croupy cough

Question 50

Benign tumors of larynx and trachea

Answer 50

Squamous papilloma (Single in adults and multiple in children)
polypoid mass on true vocal cord

Question 51

Causes of benign tumors of larynx in trachea

Answer 51

Hpv6 /11

Question 52

Presentation of benign tumors of larynx and trachea

Answer 52

Hoarse voice

Bleeding

Question 53

Laryngeal fibroma

Answer 53

Vocal cords polyp

Covered by epithelium with a core of myxomatous connective or dense fibrocollagenous tissue

Question 54

Causes of laryngeal fibroma

Answer 54

Common in singers smokers and in Myxedema

Question 55

Malignant tumors of larynx and trachea

Answer 55

Squamous cell carcinoma of larynx ( commonest neoplasm of larynx)

Question 56

Origin of squamous cell carcinoma of larynx

Answer 56

Squamous epithelium a vocal cords

Question 57

cause of squamous cell carcinoma larynx

Answer 57

Smoking 
excess alcohol 
previous irradiation 
zinc and vitamin a deficiency 
asbestos 
 HPV infection

Question 58

Squamous cell carcinoma of larynx incidence

Answer 58

Higher in male Chronic smokers

Question 59

Morphology of squamous cell carcinoma of larynx

Answer 59

Severe dysplasia
carcinoma in situ
metastasis to cervical notes
Blood borne metastasis to lungs liver bones
keratinizing and non-keratinizing squamous carcinoma & spindle cell

Question 60

Factors affecting local defense in respiratory tract

Answer 60

Suppression of cough reflex like in coma or anesthesia

Ciliary defects

Mucus disorders

acquired or congenital hypogammaglobulinemia ( low IgA)
Immunosuppression

depressed alveolar macrophage function

pulmonary edema with fluid accumulation in alveoli

Question 61

Specific infections of LRT

Answer 61

Bronchitis
Bronchiolitis
Pneumonia
Lung abscess

Question 62

Acute bronchitis

Answer 62

Acute inflammation of bronchi

Question 63

Acute bronchitis causes

Answer 63

Viruses - RSV
Pollutants
SO2
Smoke

Question 64

Acute bronchitis presentation

Answer 64

Cough
Dyspnoea
Tachypnoea 
Sputum production  
May have laryngotracheobronchitis and lungs issues

Question 65

What disease superimposed with chronic obstructive airway disease

Answer 65

Acute bronchitis

Question 66

Bronchiolitis

Answer 66

Inflammation of bronchioles

Question 67

Cause of bronchiolitis

Answer 67

Viral disease in children (RSV)

Question 68

Bronchiolitis presentation

Answer 68

Dyspnoea
Tachypnoea
Resolve in few days
Rarely bronchopneumonia

Question 69

Pneumonia

Answer 69

Inflammation affecting lungs parenchyma

Exudate formation leading to consolidation of lung tissue

Question 70

Clinical classification of pneumonia

Answer 70

community acquired acute pneumonia

Health care associated pneumonia

Hospital acquired pneumonia

Aspiration pneumonia

Chronic pneumonia

Necrotizing pneumonia and lung abscess

Pneumonia in immunecompromised Host

Question 71

Anatomic classification of pneumonia

Answer 71

Bronchopneumonia : patchy consolidation of lungs 3-4cm , common at autopsy

Lobar pneumonia : acute bacterial infection by droplets acquired by community , diffuse consolidation of one or more lobes or segments by fibrinosuppurative exudate , accompanied by pleural reaction with fibrin deposition

Question 72

Causes of lobar pneumonia

Answer 72

90-95% : strep pneumonia type 1,3,7,2

Klebsiella pneumoniae

Staph aureus

H influenza

Pseudomonas

Proteus

Question 73

Causes of bronchopneumonia

Answer 73

Staph
Strep
Pneumococci
H influenza
Pseudomonas

Question 74

Pneumonia pathogenesis

Answer 74

Impaired defense mechanism by virulent organisms
Lobar pneumonia -> extensive exudate -> organism spread rapidly through pores of kohn too other alveoli

Bronchopneumonia involve bronchiole and spread to adjacent alveoli

Question 75

Lobar pneumonia morphological stages

Answer 75

Congestion (lung heavy , red, Vascular engorgement intra-Alveolar fluid With few neutrophils and many bacteria

Red hepatization (the lung firm red, airless , liver like consistency, many RBC and neutrophils, breaks when firm gentle pressure instead of regaining shape )

Grey hepatization ( lung firm, gray brown, dry surface, progressive disintegration of RBC, fibrinosuppurative exudate )

Resolution ( consolidated exudate progressively digested by enzymes, resorted by macrophages or coughed up, inflammation resolution)

Question 76

Pneumonia complications

Answer 76

Local:
Lung abscess 
 solid fibrotic lung
Pleural effusion 
Empyema thoracis 

Systemic:
Bacteraemic dissemination 
Meningitis 
Pericarditis 
kidney or splenic abscess 
septicemia

Question 77

Symptoms of pneumonia

Answer 77

Fever (5days, and drops 2 days after antibiotics)
 cough 
sputum production 
chest pain due to pleural reaction 
dullness
 bronchial breathing

Question 78

X-ray findings of pneumonia

Answer 78

Opaque Well delineated lobe in lobar pneumonia

Focal opacities in bronchopneumonia

Question 79

Community acquired viral pneumonia

Answer 79

Acute febrile respiratory disease with Patchy inflammatory changes in Lungs
confined to the alveolar septa and pulmonary interstitium

Question 80

Causes of Community acquired viral pneumonia

Answer 80

Viruses
 influenza 
RSV 
Varicella  
adenovirus
 rubeola 
CMV
SARS 
Coxiella burnetti
 chlamydia 
mycoplasma

Question 81

Community acquired viral pneumonia morphology

Answer 81

Lung subcrepitant, patchy, unilateral or bilateral
no reaction at pleura
Septa widens by edema mononuclear cells and very few neutrophils
Alveoli mostly free of exudates
Few cases with exudate and hyaline membrane

Question 82

Community acquired viral pneumonia symptoms

Answer 82

Severe cold
 cough
 fever 
headache 
muscle aches
 leg pains

Question 83

Pneumonia in the immunocompromised

Answer 83

Due to opportunistic infections In debilitating disease, therapy for organ transplants , tumors , irradiation

Question 84

Pneumonia in the immunocompromised presentation

Answer 84

Fever
short breath
cough

Question 85

Immunocompromised pneumonia x rays

Answer 85

Lung infiltrates 
focal infiltrate ( with CMV, P Carinii, aspergillus, cryptococcus, tb, rubeola, drug run, malignancy )

Diffuse infiltrate ( gram neg bacilli, stap aureus, aspergillus, candida, cryptococcus, Nucor, p caring, legionella, malignancy )

Question 86

Aspiration pneumonia

Answer 86

Inflammation and consolidation of the lung went fluids or foods is aspirated into lung

Question 87

Risk factors of lung aspiration

Answer 87

Sedition 
alcohol abuse 
operations
Coma
stupor 
laryngeal carcinoma 
severe debilitation

Question 88

What part of the lung will be affected if you aspirate something when laying on the back

Answer 88

Lower lobe

Question 89

What part of the lung will be affected if you aspirate something when laying on the side

Answer 89

Upper lobe

Question 90

Endogenous Lipid pneumonia

Answer 90

Airway obstruction by distal collection of foamy macrophages and giant cells

Question 91

Exogenous lipid pneumonia

Answer 91

Aspiration of lipid rich material like paraffin oil in nasal drops, palm oil when given to children to Treats Toxicity, Vacuoles of lipids from foreign body giant cells in lung

Question 92

Lung abscess

Answer 92

Local suppurative process in the lung with necrosis of lung tissue

Question 93

Predisposition to lung abscess

Answer 93

Oral pharyngeal surgery or disease 
sinobronchial infection 
dental sepsis 
bronchiectasis 
complications of pneumonia

Question 94

Causes of lung abscess

Answer 94

Potentially any organism usually Aero and anaerobic strep, staph aureus, gram neg organism

60% of cases => fusobacterium, peptococcus

Question 95

Introduction of organisms to form lung abscess

Answer 95

Aspiration of infected material from mouth and pharynx
Primary bacterial or fungal infection of lung
Septic embolism
Neoplasia
Direct penetrating injuries
cryptogenic

Question 96

Lung abscess morphology

Answer 96

Size goes from micro to macro

Any parts of the lung can be affected

Question 97

What side of the long is more affected by lung abscess

Answer 97

Right side because more aspiration

Question 98

Lung abscess x ray

Answer 98

Air fluid level

Question 99

In what case of lung abscess can you get gangrene of the lung

Answer 99

Super imposed saprophytic infection ( large fetid green black area)

Question 100

Lung abscess clinical presentation

Answer 100

Fever

cough with copious sputum (foul smelling and bloody or purulent)

Question 101

Lung abscess complications

Answer 101

Metastatic abscesses in the brain ,kidney ,spleen , and finally pleura (risk of empyema)
malignancy in 15% of cases

Question 102

2 groups of obstructive airway disease

Answer 102

Localised (mechanical factors like tumors, foreign body)

Diffuse (COPD)

Question 103

Chronic obstructive pulmonary disease

Answer 103

Group of disease which presents with
dyspnea
increased resistance to air flow
reduce expiratory capacity

Diffuse reversible or irreversible abnormalities in bronchi or bronchioles

Respiratory improvements
chronic airflow limitation
Reduce vital capacity , FEV1/FVC ratio under 0.7

Question 104

Types of COPD

Answer 104

Chronic bronchitis 
emphysema 
bronchiectasis 
bronchial asthma 
bronchiolitis

Question 105

Chronic bronchitis

Answer 105

Defined clinically with persistent productive cough each day for at least three months of the year over 2 consecutive years

Question 106

In which population do you see the most chronic bronchitis

Answer 106

Smokers

Inhabitants of urban smug laden cities (so2, no2, dusts….)

Question 107

Types of chronic bronchitis

Answer 107

Simple chronic bronchitis ( Early disease, cough, little sputum, no physiologic obstruction)

chronic asthmatic bronchitis ( Bronchospasm and intermittent wheezing)

chronic emphysematous bronchitis ( emphysema added)

Question 108

Incidence of chronic bronchitis

Answer 108

Both sexes affected

most common in in the middle age

Question 109

Risk factors of chronic bronchitis

Answer 109

Smoking (about 90% of patients )
air pollutants (about 20 to 40% of patients )
artificial fibers 
coolant 
occupational fumes like welding

Question 110

Chronic bronchitis pathogenesis

Answer 110

Tissue damage by irritants
inflammation
large airways have hypersecretion due to enlarged mucus glands
Small airways like bronchi and bronchioles have goblet cell hyperplasia
Secondary infection of mucus
more damage and hypersecretion
airway obstruction

Question 111

How does cigarette smoking predisposes to infection

Answer 111

Interfere with ciliary action
damage airway epithelium
Inhibit ability of bronchial and alveolar leukocytes to clear bacteria

Question 112

Chronic bronchitis macro appearance

Answer 112

Hyperemia 
swelling of mucous membranes 
mucus cast in bronchi and bronchiole 
mucus secretions in bronchi and bronchioles 
Frank pus collection in bronchi

Question 113

Histology of chronic bronchitis

Answer 113

Mucus glands enlargement
Mucus hypersecretion
increased diameter of acini of glands
increased proportion of mucus to serous cell
Goblets cell hyperplasia In bronchi and bronchioles
Bronchial narrowing and obstruction
Squamous metaplasia with dysplasia in bronchial epithelium

Question 114

Reid index

Answer 114

Ratio Of the thickness of mucus glands layer to the thickness of bronchial wall

Question 115

Normal reid index

Answer 115

0.36 to 0.41

Question 116

Reid index in Chronic bronchitis

Answer 116

0.44 to 0.79

Increases in proportion to severity and duration of disease

Question 117

Bronchial mirroring and obstruction due to in chronic bronchitis :

Answer 117

Mucus secretion and plugging increased 
goblet cell hyperplasia 
Inflammation with exudate 
accumulation of pigmented alveolar macrophages in clusters 
fibrosis of the wall of the bronchioles 
obliteration of bronchioles

Question 118

Blue bloater

Answer 118

Classic patience with long-standing chronic bronchitis and obstructive features
Long history of chronic of recurrence airway insufficiency and recurrent chest infections

Question 119

Blue bloater incidence

Answer 119

Male between 40 to 45-year-old

Question 120

Symptoms of blue bloater

Answer 120

Progressive dyspnoea

cyanosis

Question 121

Blue bloater x ray

Answer 121

Increased lung markings

large heart outline

Question 122

Blue bloater pathogenesis

Answer 122

Failure of oxygenation in alveoli
Central Cyanosis with low alveolar oxygen pressure and increased alveolar co2

Ventilation perfusion imbalance
pulmonary hypertension with right heart changes
right heart failure which is a cause of death

recurrent infections
respiratory impairments
coma
death

Question 123

Emphysema

Answer 123

Permanent abnormal enlargement of any part of the respiratory acinus ,destruction of the elastin in the wall, no obvious fibrosis

Question 124

Where is emphysema common

Answer 124

Advanced countries

Question 125

Population more at risk of emphysema

Answer 125

Female African-American

Question 126

Most important risk factor of emphysema

Answer 126

Heavy cigarette smoking and urban dwelling

Question 127

Four types of emphysema

Answer 127

Centriacinar ( 95%)

Panacinar

Distal acinar

Irregular

Question 128

Centriacinar (centrilobular)

Answer 128

Respiratory bronchioles at center of lobules affected
Distal acinus and alveoli spared
Inflammation in terminal and respiratory bronchioles
Affects more upper part of lungs

Males heavy smoker and coal miners most affected

Question 129

Panacinar emphysema

Answer 129

Entire acinus from respiratory bronchiole to alveolar sacs uniformly

Commoner in lower zones, anterior margins

70-80% idiopathic
Associated with alpha1 anti trypsin deficiency

Question 130

Paraseptal

Answer 130

Affect distal acinus
Most striking Adjacent to pleura , along lobular connective tissue septa and margins of lobules
Adjacent to areas of fibrosis, scarring, atelectasis
More severe in upper half of lungs
May be responsible for pneumothorax

Question 131

Irregular emphysema

Answer 131

Acinus irregularly involved 
Invariably associated with scarring 
Wall adjacent to scar is destroyed 
Asymptomatic
Post inflammatory 
Post tuberculosis 
Pneumoconiosis

Question 132

Pathogenesis of emphysema

Answer 132

Inflammation done by inflammatory mediators, oxidant antioxidants (mice studies on NRF2 gene inactivation ) protease anti protease(a1 deficiency homozygotes develop emphysema especially in smokers )

Question 133

Emphysema morphology

Answer 133

Voluminous lungs 
Cardiac shadow covered 
Higher lung weight
Large blebs or bullae 
Dilated alveoli
Abnormally large alveoli 
Large pore of kohn 
Floating alveolar sept

Question 134

Clinical feature of emphysema

Answer 134

Classic => Pink puffer (patient is thin, tachypneoa, pink skim, prolonged expiration)

70-75yo male with no chronic bronchitis but pure emphysema

Early onset of dyspnoea - steadily progressive

Weight loss

Barrel Chest (trapping of air in lungs due to destruction of alveoli )

Hyperventilation

Late stage => reduced PAO2 , pulmonary hypertension, cor pulmonale, death

Question 135

Causes of death in emphysema

Answer 135

Corpulmonale
Pneumothorax with lung collapse
Respiratory acidosis ->coma-> death

Question 136

Other forms of emphysema

Answer 136

Compensatory emphysema
Obstructive overinflation
Bullous emphysema
Interstitial emphysema

Question 137

Compensatory emphysema

Answer 137

Loss of lung substance leading to dilatation with no alveoli destruction (pneumomectomy)

Question 138

Obstructive over inflation

Answer 138

Lung expand due to trapped air

Obstruction by tumor or FB

Collateral air passages - pore of kohn, bronchioalveolar canals of lambert supply air to distant parts. Can compress normal part of lung => emergency

Question 139

Bullous emphysema

Answer 139

Large bleb or bullae distended with air ( usually near subpleural, apex, tb scars )
If rupture -> pneumothorax

Question 140

Interstitial emphysema

Answer 140

Air into connective tissue strong of lung, mediastinum, or subcutaneous tissue
Air enter by alveolar tear from emphysema, congenital dx, chest wound, fractures , whooping cough, bronchitis,

Crackling sensation under hands

Question 141

Bronchiectasis

Answer 141

Chronic necrotizing infections of bronchi and bronchioles

Abnormal permanent dilatation of airways

Question 142

Bronchiectasis presentation

Answer 142

Recurrent chest infections
Fever
Productive Cough of Foul smelling purulent sputum (sometimes bloody)

Question 143

Bronchiectasis etiology

Answer 143

Bronchial obstruction
Necrotizing pneumonia
Congenital or hereditary conditions
Idiopathic

Question 144

Type of bronchial obstruction leading to bronchiectasis

Answer 144

Focal : foreign body, tumor, lymphadenopathy, mucus impact ion,

Diffuse : obstructive airway disease, bronchial asthma, chronic bronchitis

Question 145

Type of Necrotizing pneumonia leading to bronchiectasis

Answer 145

Tb
Staph
Mixed infections
Post whooping cough , measles, influenza

Question 146

Types of congenital or hereditarily conditions leading to bronchiectasis

Answer 146

( defect in development of bronchi)
Cystic fibrosis
Immunodeficiency
Kartagener s syndrome : immobile cilia syndrome

Question 147

Bronchiectasis pathogenesis

Answer 147

Obstruction
atelectasis
bronchial wall inflammation and secretion
reversible dilatation of bronchi

Persistence of obstruction / secondary infection
Inflammation
Destruction of wall
Permanent dilatation

Extensive bronchiolar damage
Endobrinchial obliteration
Atelectasis distal to obliterated area

Extensive bronchial damage
Bronchiectasis

Question 148

Cystic fibrosis

Answer 148

Squamous metaplasia
Impaired mucociliary action
Infection and necrosis of walls
Bronchiectasis

Question 149

Kartageners syndrome

Answer 149

Ciliary motility defect due to structural abnormalities

Poor bacterial clearance -> infection in sinus and bronchi

Bronchiectasis
Sinusitis and situs inversus ( poor cell motility in embryogenesis)

Question 150

MacroMorphology of bronchiectasis

Answer 150

Lower lobes bilaterally
Unilateral in FB or tumors
Almost vertical air ways
Severe in distal bronchi and bronchioles => dilated 4x normal
Dilatation can be cylindroid, fusiform or saccukar
Gross examination -> dilated bronchi seen through pleural surface as cysts

Question 151

Micro morphology of bronchiectasis

Answer 151

Acute or chronic inflammation 
Ulceration of mucosa 
Squamous metaplasia of epithelium
Abscess due to necrosis 
Fibrosis in peribronchial and peribronchiolar tissue

Question 152

Clinical presentation of bronchiectasis

Answer 152

Persistent cough
Foul smelling sputum sometimes bloody
F3ver
Dyspnoea 
Cyanosis

Question 153

Bronchiectasis complications

Answer 153

Cor pulmonale
Lung abscess
Metastatic micro abscesses in brain kidney

Question 154

Bronchial asthma

Answer 154

Chronic relapsing inflammatory disease of conducting airways
Hyperreactive airways
Inflammation of bronchial walls
Increased mucus secretion

Question 155

Bronchial asthma presentation

Answer 155

Wheezing ( due to acute reversible increase in resistance to airflow in small airways so more respiratory effort)
Dyspnoea
Chest tightness
Cough triggered by bronchospasm

Question 156

Classification of bronchial asthma

Answer 156

Atopic asthma => extrinsic, allergic, IgE mediated, allergen sensitization

Non atopic asthma => intrinsic, no evidence of allergen sensitization

Question 157

Stimuli of bronchial asthma

Answer 157

Respiratory infection 
Cold air
Exercise
Exposure to irritants ( smoke, fumes, smog) 
Stress , emotional state’s
DRugs like opiates, aspirin 
Food allergens

Question 158

Features of atopic asthma

Answer 158

Most common type 
Classic igE Mediated hypersensitivity rxn 
Begins in childhood
Triggers domestic environmental 
Positive FHA OF ASTHMS

Question 159

Features of non atooc asthma

Answer 159

No evidence of allergen sensitization
Less FH positive for asthma
Common triggers => respiratory infection and environmental pollutants

Question 160

Classification asthma

Answer 160

Seasonal

Exercise induced

Drug induced

Occupational

Asthmatic bronchitis in smokers

Question 161

Drug induced asthma (aspirin)

Answer 161

Not common
Recurrent rhinitis and nasal polyps
React excessively to nsaids
Inhibition of Cox so less prostaglandin E2 and more leukotrienes b4-e4

Question 162

Occipqtional asthma

Answer 162

Triggered by fumes (epoxy resins, plastics) gases (toluene), organic and chemical dusts ( wood cotton platinum) other chemicals ( formaldehyde, penicillin)

Question 163

Pathogenesis of asthma

Answer 163

Exaggerated TH2 and IGE respond to environment antigen

Sensitization ( 1st exposure allergen, th2 release IL4 &5, IL4 stimulates B cells which stimulates plasma cells for IgE which bind mast cells, IL5 recruits eosinophils for activation )
Reexposure - immediate or late ( immediate => allergenbinds IgE on mast cells , mast cell release granules, cytokines release too )

Question 164

Immediate asthma phase response

Answer 164

Bronchoconstriction

Increased mucus production

Vasodilation

Increased vascular permeability

White cells recruitment

Question 165

Late phase of asthma response

Answer 165

4-8h later 
Mediated by white cells 
Release cytokines , leucotrienes, PAF, eosinophils cationic protein, 
Epithelial damage 
Airway constriction

Question 166

Action of leucotrienes

Answer 166

Prolonged bronchoconstriction

Increase vascular permeability

Question 167

Acetylcholine action

Answer 167

Bronchoconstriction

Question 168

Histamine action

Answer 168

Bronchoconstriction

Question 169

Prostaglandin D2 action

Answer 169

Bronchoconstriction

Vasodilation

Question 170

PAF action

Answer 170

Platelet aggregation

Release histamine and serotonin

Question 171

MacroMorphology of asthma

Answer 171

Over distended Lung
Small areas atelectasis
Occlusion of bronchioles by thick mucus plugs

Question 172

Micro morphology of asthma

Answer 172

Thick tenacious layer of mucus to form plugs

Curschmann spiral
Numerous eosinophils
Collections of crystalloids with eosinophils membrane protein (Charcot leyden crystals )

Lot of goblet cells in epithelium
Basement membrane more thick

Edema and inflammation infiltrate in bronchial wall

Increased size of submucosal glands

Hypertrophy of bronchial wall
Emphysematous changes and bronchitis

Question 173

Clinical features of asthma

Answer 173

Attack last several hours

Coughing

When severe -> impaired respiratory function -> cyanosis -> death

Question 174

Cause of airway obstruction in asthma

Answer 174

Bronchial contraction
Bronchial mucosal increased thickness
Mucus and exudate retention in lumen

Question 175

Asthma diagnosis

Answer 175

History
Examination-> resp difficulty, decreased air entry , wheezing

Test
Increased eosinophils in blood
Increased eosinophils, curschmann, spiral, Charcot Leyden crystals in sputum

Question 176

Diagnosis of type of asthma

Answer 176

Increased IgE serum

Positive skin allergen test , RAST TEST

Question 177

Diffuse interstitial lung disease

Answer 177

Group of lung disease with chronic diffuse involvement of the connective tissue of the lungs Especially the most peripheral and delicate interstitium in alveolar walls

Question 178

Interstitium in diffuse interstitial lung diseases

Answer 178

Basement membrane of endothelial and epithelial cells

Collagen

Elastic fibers

Proteoglycans

Fibroblasts

Mast cells

Histiocytes

Monocytes

Question 179

Do we know most causes of diffuse interstitial lung diseases

Answer 179

No mostly idiopathic

Question 180

Lung diseases with restrictive effect but non obstructive

Answer 180

Diffuse interstitial lung disease

Question 181

Changes in the lung due to diffuse interstitial lung disea3e

Answer 181

Thick wall =< less o2 diffusion across wall

Decreased lung volume

Decreased lung compliance

Question 182

Diffuse interstitial lung disease presentation

Answer 182

Dyspnoea
Tachypnoea
Cyanosis
No wheezing

Question 183

Diffuse interstitial lung diseases x ray

Answer 183

Diffuse infiltration lay small granules , irregular lines, ground glass shadows

Question 184

Complications of diffuse interstitial lung disease

Answer 184

Pulmonary hypertension
Right heart failure With cor pulmonale
Honey comb lung due to scarring and destruction

Question 185

Classification of diffuse interstitial lung disease based on….

Answer 185

Known etiology

Not known etiology

Question 186

Diffuse interstitial disease with known etiology

Answer 186

Pneumoconiosis 
Ionizing radiation
Following ARDS
Drug busulfan
Bleomycin
Beryllosis 
Hypersensitivity pneumonitis

Question 187

Diffuse interstitial disease with unknown etiology

Answer 187

Collagen vascular disease
Goodpastures syndrome 
Idiopathic pulmonary fibrosis 
Idiopathic hemosiderosis 
Sarcoidosis 
Wegeners granulomatosis

Question 188

Pneumoconiosis

Answer 188

Non neoplasticism lung reaction to inhalation of mineral dusts, organic dusts, chemical fumes, vapor

Question 189

Types of pneumoconiosis based on mineral dusts involved

Answer 189

Coal - Anthracosis
Asbestos - abestosis 
Silica- silicosis
Beryllium- beryllosis 
Iron oxide - siderosis 
Barium sulphate - baritosis 
Tin oxide - stannosis

Question 190

Types of pneumoconiosis based on organic dusts involved

Answer 190

Moldy hay: farmers lung
Bagase: bagassosis
Bird droppings: bird breeders lung

Question 191

Types of pneumoconiosis based on fumes and vapors involved o

Answer 191

No2
So2.
Benzene
Insecticide

Question 192

Type of reaction to dust and fumes

Answer 192

Inert ( simple, coal worker pneumoconiosis
Fibrosis ( progressive fibrosis , asbestosis, silicosis)
Allergy ( extrinsic allergy alveolitis
Neoplasm (=mesothelioma, bronchogenic

Question 193

Pneumoconiosis pathogenesis

Answer 193

Dust retained in lung
Small dust (1-5mm) can get into alveoli
Large dust trapped early
Dust particles phagocytosed by alveolar macrophages and go to hilar lymph nodes

Question 194

Particularity with asbestos fibers

Answer 194

Even tho long (8mm) , very thin so can get into alveoli

Question 195

Coal workers pneumoconiosis

Answer 195

Inhalation of coal dust leading to
Asymptomatic anthracosis
Simple CWP => macular or nodular CWP
Complicated CWP=> progressive massive fibrosis

Question 196

Macular CWP

Answer 196

Local aggregate of dust laden macrophages in and around
Bronchioles, arterioles, veins, lymphatic, hilar lymph nodes

No significant scarring

Mild emphysema due to smoking

Question 197

Nodular CWP

Answer 197

Small nodules with more extensive macular lesions
No fibrosis
No functional difficulty

Question 198

Complicated CWP

Answer 198

Extensive fibrosis 
Large fibrotic nodules
Compromised lung function 
Possible central liquefaction in nodules 
Mid and upper zones of lungs
10% of simple CWP lead to complications 
Pulmonary dysfunction 
Pulmonary hypertension 
Cor pulmonale

Question 199

Silicosis

Answer 199

Inhalation of crystalline silicon dioxide
Slowly progressive nodular fibrosing pneumoconiosis

Particles phagocytized by macrophages in alveoli but not destroyed
Release of fibrogenic mediators(TNF, cytokines, IL-1, fibronectin, lipid mediators, free radicals )

Toxic injury due to SiOH denature membrane proteins and damage lipid membranes

Question 200

Commonest occupational disease

Answer 200

Silicosis

Question 201

Morphology of silicosis

Answer 201

At first => tiny dispersed nodules in upper zone

Nodules becomes hard fibrous scars , few cells, some with central cavitation

Eggshell calcification of lymph nodes

Progressive massive fibrosis occurs

Question 202

Histology of silicosis

Answer 202

Nodular lesions with layers of collagen with dense collagenous capsule

Silica particles seen under polarized light

Question 203

Can silicosis reactivate Tb

Answer 203

Yes

Question 204

Association between silicosis and cancer

Answer 204

Increased risk of cancer by 2

Question 205

Disease caused by asbestos

Answer 205

Crystalline Hydrated silicates that form fibers which can cause

• localized fibrous plaques
• pleural effusions
• parenchyma interstitial fibrosis (asbestosis )
• bronchogenic carcinoma
• mesothelioma
• laryngeal and extra pulmonary cancer

Question 206

Type of asbestos

Answer 206

Serpentine - curly and flexible (chrysolite)

Amphibole - straight stiff brittle fibers ( crocidolite, amosite, tremsolite)

Question 207

Most case of asbestosis due to what type of asbestos

Answer 207

Amphiboles

Question 208

Asbestosis pathogenesis

Answer 208

React with lung macrophages and epithelial cells 
Release of fibrogenic mediators 
Diffuse interstitial lung disease
No nodules 
Starts in lower lobes and extend

Question 209

Asbestos morphology

Answer 209

Diffuse pulmonary interstitial fibrosis
Asbestos bodies - golden brown beaded rods with asbestos fibers coated with iron and proteinaceous material

Ferruginous bodies - inorganic particles coated with iron

Pleural plaques of dense collagen with calcium - most common manifestation

Pleural effusion - not common

Diffuse pleural fibrosis - rare

Bronchogenic carcinoma -5x

Mesothelioma - 1000x

Question 210

Sarcoidosis

Answer 210

Systemic disease
Idiopathic
Non caseating
Naked granulomas
Bilateral hilar lymphadenopathy + lung involvement -90% cases
Eyes lesions ( iridocyclitis, corneal opacities, glaucoma, blindness)
Skin, salivary glands, spleen, liver

Question 211

Incidence of sarcoidosis

Answer 211

Male more than females

Blacks mostly

Question 212

Sarcoidosis pathogenesis

Answer 212

Unknown antigen poorly degradable
 type 4 reaction 
Granuloma formation 
High CD4 + lymphocytes in lung 
High soluble IL2 receptors in serum and lung

Question 213

Sarcoidosis morphology

Answer 213

Non caseating granulomas
Laminated concretions of calcium and shaumann bodies
Stellate inclusion bodies in giant cells cytoplasm => asteroid bodies

Activated alveolar macrophages , class II HLA expression , APC activity 
Oligoclonal T cell proliferation in lung

Question 214

Sarcoidosis presentation

Answer 214

Dyspnoea 
Cough 
Chest pain
Haemoptysis
Fatigue 
Weight loss
Fever
Anorexia 
Night sweats

Question 215

Effective treatment of sarcoidosis

Answer 215

Steroids

Question 216

Pulmonary vascular diseases

Answer 216

Pulmonary congestion and edema 
Adult respiratory distress syndrome 
Pulmonary embolism 
Pulmonary Hemorrhage 
Pulmonary Infarction 
Pulmonary hypertension 
Cor pulmonale

Question 217

Adult respiratory distress syndrome (diffuse alveolar damage)

Answer 217

Rapid onset of severe life threatening respiratory insuffiency, cyanosis , severe arterial hypoxemia
Refractory to O2 therapy
Associated with severe pulmonary edema

Question 218

X ray of adult respiratory distress syndrome

Answer 218

Diffuse alveolar infiltrate

Hyaline membrane in alveoli

Question 219

Pulmonary embolism hemorrhage infarction epidemiology

Answer 219

200,000 death per year in US
High incidence in autopsy
Common in Ghana

Question 220

Etiology of pulmonary embolism hemorrhage infarction

Answer 220

Pulmonary arterial occlusion (generally thromboembolism, mostly coming from legs deep veins)

Large vessel thrombosis rare

Pulmonary hypertension
Pulmonary atherosclerosis
Congestive cardiac failure

Question 221

Risk factor of pulmonary embolism hemorrhage infarction

Answer 221

Cardiac disease
Cancer
Immobilization over Long time
Hypercoagulable states
Indwelling central venous lines 
Post op 
Pregnancy 
Post party’s

Question 222

PAthogenesis of pulmonary embolism hemorrhage infarction

Answer 222

Fragmented thrombi of DVT

Carried through veins
Channels into right atrium
Gets into pulmonary arterial vascular use
Causes :
Respiratory compromise - non perfused segment

Hemodynamics compromise - increased pulmonary resistance due to obstruction

Question 223

Severity of pulmonary embolism hemorrhage infarction depends on

Answer 223

Extent of arterial obstruction
Size of occluded vessel
Number of emboli
Status of CVS

Question 224

Morphology of pulmonary embolism hemorrhage infarction

Answer 224

If large embolus => sudden death by blocking blood flow to lung and causing acute cor pulmonale

Small emboli => infarction if circulation inadequate , common in lower lobes, wedge shaped ( blocked artery tap apex, base at periphery with pleura with fibrinosuppurative exudate ) , red brown raised area, heals by fibrosis
=> if circulation adequate , pulmonary hemorrhage , no infarct

Tiny microembolism (shower emboli) => asymptomatic, over time may cause reduced cross sectional area, high vascular resistance , pulmonary hypertension

Question 225

Pulmonary hypertension

Answer 225

Normal pulmonary pressure is 1/8 systemic blood pressure

Pulmonary hypertension is 1/4 systemic blood pressure

Question 226

Pulmonary hypertension causes

Answer 226

Cardio pulmonary disease with increased blood flow and/or pressure

Increased pulmonary vascular resistance
Left heart resistance to blood flow
Secondary pulmonary hypertension
Idiopathic
Chronic obstructive airway disease (emphysema)
Chronic interstitial Lung disease
Congenital or acquired heart disease (Mitral stenosis, increased left atrial pressure, pulmonary venous congestion, increased pulmonary artery pressure )
Recurrent shower embolism
Vasospam (bush tea, anti obesity appetite suppressor)

Question 227

Pulmonary hypertension morphology

Answer 227

Vascular lesions
Atheromatous plaques in pul artery
Medial hypertrophy and intimate fibrosis with pinpoint channels in small arteries and arterioles

Question 228

How is it determined if surgery of lung is required in pul HT

Answer 228

Biopsy

Question 229

Wegener granulomas

Answer 229

Systemic vasculitis affecting upper respiratory tract, lung, kidneys, liver, and skin

Question 230

Wegener granuloma morphology

Answer 230

Necrotizing granuloma of nose
Giant cell granuloma of lungs
Polyarteritis
Renal damage

Question 231

Wegeners granuloma histology

Answer 231

Vasculitis affecting small arteries
Necrosis
Fibrinoid deposition in the wall
Thrombosis of vessel
Granuloma with central necrosis (caseated like)
Cellular infiltrate with macrophages eosinophils neutrophils
Kidney have segmental glomerulonephritis

Question 232

More common type of primary tumors of the lungs

Answer 232

Malignant type more common than benign

Question 233

Are all secondary tumors of lungs malignant..

Answer 233

Yes

Question 234

Most commo type of lung tumor

Answer 234

Secondary

Question 235

Types of malignant primary tumor of lungs

Answer 235

Bronchogenic (90-95%)

Neuroendocrine (carcinoid)

Mensenchymal tumors

Lymphomas

Question 236

Major diagnosed cancer worldwide and most common cause of cancer mortality

Answer 236

Bronchogenic carcinoma

Question 237

Population more affected by bronchogenic carcinoma

Answer 237

Male more than female
Smokers
Age 40-70 peak at 50-60

Question 238

Bronchogenic carcinoma etiology

Answer 238

Tobacco smoking (80% of the cancer patients )
Rise with amount of smoking , especially tobacco smoking
Passive smoking
Smokeless tobacco (women more susceptible to carcinogen in tobacco )
Genetic susceptibility cytp450

Industrial hazard (asbestos, coal, nickel, hematite, arsenic, chronium, uranium, mustard gas, vinyl chloride)

Air pollutant (increase risk in susceptible people, chronic irritation, inflammation and repair ,

Genetics - cyt P450 polymorphism

Question 239

Amount of carcinogens in smoke

Answer 239

1200 known

Question 240

Impact of smoking on bronchial mucosa

Answer 240

Squamous metaplasia to dysplasia to squamous ca

Question 241

Type of bronchiogenic carcinoma

Answer 241

Adenocarcinoma -40%, females

Squamous cell ca 20% male smokers
Small cell ca 14%

Large cell ca 3%

Other 25%

Question 242

Common mixed cancer seen in bronchogenic carcinoma

Answer 242

Small cel ca with squamous cell ca

Squamous cell with adenocarcinoma

Question 243

Bronchogenic cell ca morphology of ADC

Answer 243

In peripheral lung ADC
Central hilar region. SCC

Atypical adenomatous hyperplasia ADC if in Situ becomes invasive

ADC can grow like acinar, lepidic, papillary, solid

Question 244

Bronchogenic cell ca morphology of SCC

Answer 244

Sq metaplasia leads to dysplasia leads to ca in situ leads to invasive SCC
Patterns:
Fungating mass in lumen
Infiltrative in peribronchial tissue and mediastinum
Cauliflower intraoarenchymal mass

Greg white color
Firm to hard
Focal hemorrhages 
Necrosis 
May have cavity

Question 245

Bronchogenic carcinoma presentation

Answer 245

Cough 
Weight loss
Chest pain 
Dyspnoea
S

Question 246

Bronchogenic carcinoma lab test

Answer 246

Sputum cytology tumor cells
Pleural effusion cytology
FNA fine needle aspiration cytology

Question 247

Bronchogenic ca complication s

Answer 247

Emphysema - tumor partial obstruction;

Lobar colllapse

Pneumonia

Lung absces

Severe suppurative

Ulcerative bronchitis

Lipid pneumonia from obstruction
Cellular lipid accumulation

SVC syndrome - venous congestion that can lead to circulatory collapse

Malignant pericarditis , pleurisy, effusions , cardiac tamponadd

Bronchiectasis

Hornets syndrome ( sympathetic ganglia involved leading to enoohtalmos, ptosis, miosis, anhidrosis)

Pancoasts tumor ( apical tumor invading cervical neural plexus , pain in ulnar nerve causing horners syndrome )

Rib destruction

Diaphgram paralysis

Dysphasia

Hoarseness

Hypertrophic pulmonary osteodystrophy

Question 248

Main site of spread of lung carcinoma

Answer 248

Lymph metastasis to trachea, bronchial m mediastinal lymph node

Blood borne metastasis to adrenal mostly and then liver and finally brain and bone

Question 249

Metastatic lung tumors morphology

Answer 249

Discrete nodules over lungs mostly on periphery

Peribronchial and peribascular infiltrate in connective tissue septa

Subpleural lymph outlined in lymphangitis carcinomatosa

Diffuse in apparent intro lymphatic dissemination

Question 250

Metastatic lung tumor treatment

Answer 250

Surgical excision

Radiation

Chemotherapy

Question 251

Metastatic lung tumor prognosis

Answer 251

Poor

E5YS - 5%/