11respiratory system (2) pathology
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Respiratory system
Normal Anatomy
Trachea divides into right and left mainstem bronchi.
Each main bronchus divides into lobar bronchi, then into segmental bronchi
Lobar bronchi are usually called secondary bronchi and segmental bronchi are called tertiary bronchi.
Bronchioles lack cartilage and submucosal glands
Right bronchus more vertical than left, thus aspirated material tends to enter right lung
Lung has double arterial supply - pulmonary and bronchial
Normal histology
Alveolar capillary basement membrane fuses with alveolar epithelium to form a single membrane for oxygen and carbon dioxide diffusion.
Acinus contains 3-5 terminal bronchioles, alveolar ducts and alveoli
Alveoli are lined by pseudostratified, columnar epithelium
Alveoli contain type I and II pneumocytes
Type I pneumocytes: 95%, flattened
Type II pneumocytes: 5%, produce surfactant, involved in repair if type I destroyed
Bronchial-bronchiolar epithelium contains goblet cells, neuroendocrine (Kultschitsky’s) cells, serous cells, basal cells, Clara cells and ciliated cells
CONGENITAL
Agenesis/Hypoplasia
Tracheal/bronchial anomalies, i.e., Tracheo-Esophageal (TE) fistula
Vascular anomalies
Congenital Emphysema
Foregut cysts
Pulmonary Artery Malformations (CPAM)
Sequestration (no connection to airways)
PULMONARY INFECTIONS
PULMONARY INFECTIONS
Pulmonary infections in the form of pneumonia are one of the leading causes of death all around the world.
This is due to – (1) the epithelial surfaces of the lung are constantly
exposed to liters of variously contaminated air – (2) nasopharyngeal flora are regularly aspirated
during sleep, even by healthy persons; and – (3) other common lung diseases render the lung
parenchyma vulnerable to virulent organisms.
PNEUMONIA
Definition– Broadly defined as any infection in the lung parenc
hyma.
It may present as acute, fulminant clinical disease or as chronic disease.
Pathogenesis : Inflammation caused by organisms.
PNEUMONIA
The histologic spectrum of pneumonia may vary from a
Fibrinopurulent alveolar exudate seen in
acute bacterial pneumonias.
Mononuclear interstitial infiltrates in viral
and other atypical pneumonias.
Granulomas and cavitation seen in many of
the chronic pneumonias.
PNEUMONIA
Classification – Anatomical
Acute bacterial pneumonias can present as one of two anatomic and radiographic patterns,
- Bronchopneumonia and - Lobar pneumonia.
– Aetiological or according to clinical setting Community-Acquired Acute Pneumonia
Community-Acquired Atypical Pneumonia
Nosocomial Pneumonia
Aspiration Pneumonia
Chronic Pneumonia
Necrotizing Pneumonia and Lung Abscess
Pneumonia in the Immunocompromised Host
PNEUMONIA
Community-Acquired Acute Pneumonias
– Community-acquired acute pneumonias are bacterial in origin.
– Onset is usually abrupt, with high fever, shaking chills, pleuritic chest pain, and a productive mucopurulent cough; occasional patients may have haemoptysis.
– S. pneumoniae (or pneumococcus) is the most common cause of community-acquired acute pneumonia.
PNEUMONIA
Pneumococcal pneumonia– Caused by Streptococcus pneumoniae
– Is responsible for more than 90% of lobar pneumonias.
– Can present as Lobar pneumonia Bronchopneumonia
PNEUMONIA
PNEUMONIA
Pneumococcal pneumonia
Lobar pneumonia
– In lobar pneumonia the contiguous airspaces of part or all of a lobe are homogeneously filled with an exudate that can be visualized on radiographs as a lobar or segmental consolidation.
Bronchopneumonia
– Implies a patchy distribution of inflammation that generally involves more than one lobe.
– This pattern results from an initial infection
of the bronchi and bronchioles with extension into the adjacent alveoli.
PNEUMONIA
Lobar pneumonia– Inflammation involves a lobe diffusely.
– 4 pathological stages identified in the progress of untreated infection.
1. Stage I- Acute congestion2. Stage II- Red hepatization3. Stage III- Gray hepatization 4. Stage IV- Resolution
PNEUMONIA
Acute congestionLasts for 1-2 daysAcute congestion and oedema
Macroscopy– Lung is heavy and firm– Dark red– Abundant frothy red fluid can be squeezed from it
PNEUMONIA
Acute congestion
Microscopy
– Alveolar spaces filled with inflammatory exudates and organisms
– Neutrophils are abundant
– Fibrin will be present
– Gram stained smear show large number of gram positive diplococci
PNEUMONIA
Red hepatization
Lasts for 2-4 days
Macroscopy
– Pleural surface have fibrinous tags of fibrin.
– Cut surface appear dry, firm red granules , feel like liver ( liver-like consistency).
– Affected lung tissue airless and sink in water.
PNEUMONIA
Red hepatization
Microscopy
– Capillary engorgement persists.
– Alveolar spaces are packed with neutrophils, red cells, and fibrin
– Organisms are almost disappeared, if present only few
RED HEPATIZATION
PNEUMONIA
Gray hepatization Lasts for 4-8 days
Macroscopy– Cut surface is dry, granules and gray.– Fibrinosuppurative exudate persist within the alveoli.
Microscopy
– Capillary engorgement resolved– Alveolar spaces are distended and filled with dense fibrin and with
dead and dying polymorphs.– Occasional degenerating red cells are seen.
PNEUMONIA
Resolution8th day onwards
Macroscopy– Fibrinous or fibrinopurulent pleuritis (pleural exudat
e) may resolve or undergo organization, leaving fibrous thickening or permanent adhesions.
– Lung parenchyma appear normal
ResolutionTransformation of exudates to mucoid masses richly infiltrated by macrophages and fibroblasts
PNEUMONIA
Resolution
Microscopy
– Capillaries will be normal
– Alveolar space will have macrophages. Exudates within the alveoli are enzymatically digested to produce granular, semifluid debris that is resorbed, ingested by macrophages, coughed up, or organized by fibroblasts growing into it.
PNEUMONIA
Bronchopneumonia
Commonly seen among infancy, old age , patients with debilitating diseases and patients with prolonged bed rest.
Organisms colonize the bronchiole and extend through the walls into surrounding alveoli.
PNEUMONIA
Bronchopneumonia Macroscopy
– Foci of inflammatory consolidation are distributed in patches throughout one or several lobes, most frequently bilateral and basal.
– Well-developed lesions up to 3 or 4 cm in diameter are slightly elevated and are gray-red to yellow .
– The lung substance immediately surrounding areas of consolidation is usually hyperemic and edematous.
– Confluence of these foci may occur in severe cases, producing the appearance of a lobar consolidation.
PNEUMONIA
Bronchopneumonia
Pleural involvement is less common than in lobar pneumonia.
Microscopy
– The reaction consists of focal suppurative exudate that fills the bronchi, bronchioles, and adjacent alveolar spaces.
– Ciliated epithelium is destroyed.
– Vascular congestion
Clinical Course
High grade fever, and productive cough. (Interleukin (IL) 1 and tumor necrosis factor (TNF), re
sults in fever. IL-8 and granulocyte CSF, stimulate the release of neutrophils and their attraction to the lung)
Pleuritic pain and pleural friction rub.
The whole lobe is radiopaque in lobar pneumonia, whereas there are focal opacities in bronchopneumonia.
PNEUMONIA
Sequalae and complications– Complete restitution of the lung is the rule for both forms.
– Complications may occur
– (1) Tissue destruction and necrosis may lead to
abscess formation;– (2) Suppurative material may accumulate in the
pleural cavity, producing an empyema;
– (3) Organization of the intra-alveolar exudate may
convert areas of the lung into solid fibrous tissue; – (4) Bacteremic dissemination may lead to
meningitis, arthritis, or infective endocarditis.
Community-acquired atypical pneumonias
The term atypical denotes the moderate amount of sputum, no physical findings of consolidation, only moderate elevation of white cell count, and lack of alveolar exudate.
Mycoplasma pneumoniae
Viruses: Influenza virus, the RSV, adenovirus, rhinoviruses, rubeola, and varicella
Chlamydia pneumoniae; and Coxiella burnetii
Morphology
All causal agents produce essentially similar morphologic patterns.
The lung involvement may be quite patchy or may involve laterally or unilaterally.
The affected areas are congested. The pleura is smooth, and pleuritis or pleural effusions are infrequent.
Morphology
Microscopically :
The alveolar septa are widened and edematous and usually have a mononuclear inflammatory infiltrate of lymphocytes, macrophages, and occasionally plasma cells.
Frequently “interstitial”, NOT alveolar
Severe Acute Respiratory Syndrome (SARS)
CORONA-VIRUS
SARS first appeared in November 2002 in the Guangdong Province of China
Like most other NON-bacterial pneumonias confirmed by PCR
Like most viral pneumonias, interstitium infiltrated, some giant cells often present.
S
A
R
S
HOSPITAL-ACQUIRED PNEUMONIA
Pulmonary infections acquired in the course of a hospital stay.
They are common in patients with– DEBILITATION– CATHETERS, VENTILATORS– Enterobacteriaceae, pseudomonas– staph (MRSA)– MRSA (MR=Methicillin Resistant)
Hospital-acquired infections are serious and often lifethreatening complications.
ASPIRATION PNEUMONIA
Occurs in markedly debilitated patients or UNCONSCIOUS PATIENTS.
These patients have abnormal gag and swallowing reflexes that predispose to aspiration.
The resultant pneumonia is partly chemical because of the extremely irritating effects of the gastric content/acid.
This type of pneumonia is often necrotizing.
In those who survive, Often lead to lung ABSCESSES
CHRONIC PNEUMONIA
USUALLY NOT persistences of the community or nosocomial bacterial infections.
Often SYNONYMOUS with the 4 classic systemic fungal or granulomatous pulmonary infections, i.e., TB, Histo-, Blasto-, Coccidio-
If you see pulmonary granulomas, think of a CHRONIC process, often years
CHRONIC Pneumonias
TBHISTO-PLASMOSISBLASTO-MYCOSIS
COCCIDIO-MYCOSIS
LUNG ABSCESS
The term “pulmonary abscess” describes a local suppurative process within the lung, characterized by necrosis of lung tissue.
Oropharyngeal surgical procedures, sinobronchial infections, dental sepsis, and bronchiectasis play important roles in their development
Etiology and Pathogenesis
ASPIRATION of infective material SEPTIC EMBOLIZATION NEOPLASIA, sec. infection is common From NEIGHBORING structures:
– ESOPHAGUS– SPINE– PLEURA– DIAPHRAGM
ANY pneumonia which is severe and destructive, and inadequate treatment
Morphology
Abscesses: a few millimeters to large cavities of 5 to 6 cm, single or multiple.
Pulmonary abscesses due to aspiration are more common on the right and are most often single.
Abscesses that develop in the course of pneumonia or bronchiectasis are usually multiple, basal, and diffusely scattered.
Septic emboli and pyemic abscesses are multiple and may affect any region of the lungs.
Morphology
The cardinal histologic change in all abscesses is suppurative destruction of the lung parenchyma within the central area of cavitation.
In chronic cases considerable fibroblastic proliferation produces a fibrous wall.
Pneumonia in the immunocompromised host
Haemophilus influenzae
Major cause of life-threatening acute LRT infections, otitis media, and meningitis in young children.
In adults- Most common cause of acute exacerbation of COPD in adults
Exists in two forms: encapsulated (5%) and unencapsulated (95%).
Cause of secondary bacterial pneumonia in children and healthy adults following viral respiratory illnesses
MRSA, of course, is usually NOT “community” acquired
Complications: lung abscess and empyema. I/V drug abusers are at high risk of developing st
aphylococcal pneumonia in association with endocarditis.
Staphylococcus aureus
Klebsiella pneumoniae
Afflicts debilitated and malnourished people, particularly chronic alcoholics.
ALCOHOLICS with pneumonia are often thought of as having Klebsiella until proven otherwise
Thick and gelatinous sputum is characteristic, because the organism produces an abundant viscid capsular polysaccharide, which the patient may have difficulty expectorating.
OBSTRUCTIVE vs. RESTRICTIVE AIRWAY DISEASE
OBSTRUCTIVE vs. RESTRICTIVE AIRWAY DISEASE
Obstructive airway disease: increase in resistance to airflow due to obstruction at any level; includes emphysema, chronic bronchitis, bronchiectasis, asthma; reduced maximal airflow rates (FEV1)
Restrictive airway disease: reduced expansion of lung parenchyma with decrease in total lung capacity; normal FEV1; due to chest wall disorders (polio, obesity, pleural disease, kyphoscoliosis), interstitial / infiltrative diseases
Common abstructive and restrictive diseases
Obstructive Asthma COPD (Chronic bronchitis+emphysema) Bronchiectasis Cystic fibrosis Bronchiolitis Restrictive—Parenchymal Sarcoidosis Idiopathic or drug induced pulmonary fibrosis Pneumoconiosis
Restrictive—Extraparenchymal Neuromuscular Diaphragmatic weakness/paralysis Myasthenia gravis Guillain-Barré syndrome Muscular dystrophies Cervical spine injury Chest wall Kyphoscoliosis Ankylosing spondylitis
Patterns of Abnormal Function
Overlap between chronic obstructive lung diseases
Site of disease
Bronchi-chronic bronchitis, bronchiectasis, asthma
Bronchioles-bronchiolitis
Acini-emphysema
Chronic obstructive pulmonary disease (COPD)
Also called chronic obstructive lung disease (COLD)
Two sub types: Chronic bronchitis and emphysema, coexist to variable degree in most patients
Characterized by gradual decrease in FEV1 over a period of time with a acute episode of acute exacerbation.
Risk factors: smoking, air pollution, respiratory infection, positive family history
Natural progression of COPD
40s: chronic productive cough, wheeze occasionally
50s: 1st acute chest illness 60s: Dyspnea on exertion, increasing cou
gh/sputum production, frequent exacerbation
Late stage: Hypoxemia with cyanosis, corpulmonale
Chronic bronchitis
Definition: defined clinically as persistent cough with sputum for at least 3 months for at least 2 consecutive years
Pathogenesis
Tobacco smoke (90%) and dust from grain, cotton, and silica.
Hypersecretion of mucus in the large airways, associated with hypertrophy of the submucosal glands in the trachea and bronchi.
Proteases released from neutrophils, and matrix metalloproteinases, stimulate mucus hypersecretion.
Pathogenesis
Secondary infection- producing acute exacerbations.
(Cigarette smoke interferes with ciliary action of the respiratory epithelium, it may cause direct damage to airway epithelium, and it inhibits the ability of bronchial and alveolar leukocytes to clear bacteria).
Morphology
Gross: hyperemia, swelling, and edema of the mucous membranes, frequently accompanied by excessive mucinous or mucopurulent secretions.
Microscopic: chronic inflammation of the airways and enlargement of the mucus-secreting glands of the trachea and bronchi, mucous gland hyperplasia.
Morphology
Reid index: ratio of thickness of mucus gland layer to thickness of wall between epithelium and cartilage ( normal is 0.4), increased in chronic bronchitis.
The bronchial epithelium may exhibit squamous metaplasia and dysplasia
Chronic bronchitis
Clinical Features
Persistent productive cough Dyspnea on exertion Hypercapnia, hypoxemia, and cyanosis (“blue bl
oaters”), polycythemia CXR: Increased bronchovascular marking Longstanding cases- leads to cor pulmonale with
cardiac failure. Death may also result from further impairment of
respiratory function due to superimposed acute infections
Emphysema
Definition: Abnormal permanent enlargement and destruction of air spaces distal to terminal bronchiole without obvious fibrosis
Differs from overinflation, which is not due to wall destruction (example: due to loss of opposite lung)
Acinar and airspace enlargement is usually due to tobacco related wall destruction.
Type of emphysema
Emphysema is classified according to its anatomic distribution within the lobule.
There are four major types: (1) centriacinar (> 95% of cases) (2) panacinar (3) paraseptal (distal), and (4) irregular. The first two cause clinically significant airflow o
bstruction.
Pattern of emphysema
Type of emphysema
Centriacinar emphysema: affects proximal (central) part of acini, sparing distal alveoli; worse in upper lobes, particularly apices
Seen in heavy smokers, coal worker pneumoconiosis
Clinically significant at age 40+ in smokers, although ventilatory deficits seen earlier
Type of emphysema
Panacinar emphysema: acini uniformly enlarged from respiratory bronchiole to terminal alveoli; usually lower lungs; associated with alpha-1-antitrypsin deficiency
Paraseptal (distal acinar) emphysema: distal acini affected, multiple continuous airspaces are affected; may be source of spontaneous pneumothorax
Irregular emphysema: minor clinically; invariably associated with scarring, irregular involvement of acini
Pathogenesis
Macrophages, CD8+ and CD4+ T lymphocytes, and neutrophils are increased in lung.
Activated inflammatory cells release a variety of mediators, including leukotriene B4, IL-8, TNF, that are capable of damaging lung structures or sustaining neutrophilic inflammation.
Protease-antiprotease imbalance, aided abetted by imbalance of oxidants and antioxidants
Pathogenesis
The protease-antiprotease imbalance hypothesis is based on the observation that patients with a genetic deficiency of the α1-antitrypsin have a markedly enhanced tendency to develop pulmonary emphysema.
α1-antitrypsin, normally present in serum, tissue fluids, and macrophages, is a major inhibitor of proteases.
α1-antitrypsin is encoded by codominantly expressed genes on the proteinase inhibitor (Pi) locus on chromosome 14.
Pathogenesis
The following sequence is postulated: 1. Neutrophils are normally sequestered in perip
heral capillaries, and a few gain access to the alveolar spaces.
2. Any stimulus that increases either the number neutrophils and macrophages in the lung or the release of their protease-containing granules increases proteolytic activity.
3. With low levels of serum α1-antitrypsin, elastic tissue destruction is unchecked and emphysema results.
Pathogenesis
In smokers, neutrophils and macrophages accumulate in alveoli.
Direct chemoattractant effects of nicotine as well as the effects of reactive oxygen species (ROS) contained in smoke.
These activate the transcription factor NF-κB, which switches on genes that encode TNF and chemokines, including IL-8. These, in turn, attract and activate neutrophils
Pathogenesis
Accumulated neutrophils are activated and release their granules, rich in a variety of cellular proteases (neutrophil elastase, proteinase 3, and cathepsin G), resulting in tissue damage.
In addition to elastase, matrix metalloproteinases derived from macrophages and neutrophils have a role in tissue destruction
Pathogenesis
Morphology
Gross: voluminous lungs, generally, the upper two thirds of the lungs.
Large apical blebs or bullae are more characteristic of irregular emphysema secondary to scarring and of distal acinar emphysema.
Centriacinar Panacinar
Bullae, or “peripheral blebs”Bullae, or “peripheral blebs”
Microscopic: abnormally large alveoli separated by thin septa with only focal centriacinar fibrosis.
The pores of Kohn are so large that septa appear to be floating or protrude blindly into alveolar spaces with a club-shaped end.
Destruction of alveolar walls With advanced disease, larger abnormal airspaces,
blebs or bullae, which often deform and compress the respiratory bronchioles and vasculature of the lung.
Morphology
The loss of alveolar walls with emphysema
Clinical Course
The clinical manifestations of emphysema do not appear until at least one third of the functioning pulmonary parenchyma is damaged.
Dyspnea Cough or wheezing is the chief complaint. Weight loss Barrel-shaped chest, dyspnea, sits forward in a h
unched-over position, and breathes through pursed lips.
Pink puffers
Complication
Cor pulmonale and eventually CCF, related to secondary pulmonary vascular hypertension.
Death is due to – respiratory acidosis and coma, right-sided heart failur
e, and massive collapse of the lungs secondary to pneumothorax.
Treatment: bronchodilators, steroids, bullectomy, and, in selected patients, lung volume reduction surgery and lung transplantation.
Substitution therapy with α1-AT is being evaluated.
Summary
Asthma
Definition: Asthma is a chronic but reversi
ble inflammatory disorder of the airways characterized by recurrent episodes of wheezing, breathlessness, chest tightness, and coughing.
Asthma
Asthma
The hallmarks of the disease are hyperresponsiveness of airway to a variety of stimuli, resulting in – episodic bronchoconstriction– inflammation of the bronchial walls and – increased mucus secretion
Asthma, type
Atopic Asthma Type I IgE-mediated hypersensitivity reaction . T
he disease usually begins in childhood and is triggered by environmental allergens (dust, pollens, animal dander and food).
A positive family history of asthma is common. Serum radioallergosorbent tests (called RAST) id
entify the presence of IgE specific for a panel of allergens.
Asthma, type
Non-Atopic Asthma : Non-immune, respiratory infections due to viruses (e.g., rhinovirus, parainfluenza virus) are common triggers.
IgE-normal, no positive family history It is thought that virus-induced inflammati
on of the respiratory mucosa lowers the threshold of the subepithelial vagal receptors to irritants.
Asthma, type
Drug-Induced Asthma Aspirin-sensitive asthma occurs in individuals w
ith recurrent rhinitis and nasal polyps. Occupational Asthma This form of asthma is stimulated by fumes, orga
nic and chemical dusts (wood, cotton, platinum), gases (toluene), and other chemicals (formaldehyde, penicillin products).
Pathogenesis (atopic asthma)
The major etiologic factors in atopic asthma are a genetic predisposition to type I IgE mediated hypersensitivity reaction
Initial sensitization affects T helper 2 cells, which release IL-4/5, which promote IgE release by B cells, that binds to mucosal mast cells and eosinophils.
Reexposure to allergen leads to mediator release from mucosal mast cells
IL-4-production of IgE, Il-5-activates locally recruited eosinophils, IL-13-mucus secretion
Pathogenesis
Acute/immediate phase response (minutes): release of preformed mediators-bronchoconstriction, edema, mucus secretion
Late phase reaction (hours): due to release of major basic protein from eosinophils, which causes epithelial damage and airway constriction.
Potent mediators: leukotrienes C4, D4, E4 (bronchoconstriction, increased vascular permeability, increased mucus secretion) and acetylcholine (cause airway smooth muscle constriction by directly stimulating muscarinic receptors)
Minor mediators: histamine, prostaglandin D2 (bronchoconstrictor)
Others: IL-1, TNF, and IL-6, chemokines (e.g., eotaxin), neuropeptides, nitric oxide, bradykinin, and endothelins.
Mediators
Morphology
Gross: overdistended lung, with small areas of atelectasis, occlusion of bronchi and bronchioles by thick, tenacious mucus plugs.
Micro: the mucus plugs contain whorls of shed epithelium, which give rise to the well-known spiral shaped mucus plugs called Curschmann spirals
Numerous eosinophils and Charcot-Leyden crystals (crystalloid mad up of galactin-10)
Morphology,microscopic
Overall thickening of airway wall Sub-basement membrane fibrosis (deposition of
type 1 and III collagen beneath the classic BM composed of type IV collagen and laminin)
An increase in size of the submucosal glands and mucous metaplasia of airway epithelial cells
Bronchial smooth muscle hyperplasia and hypertrophy
Microscopic
Eosinophils
Charcot-Leyden crystals
Clinical Course
Acute asthmatic attack lasts up to several hours.
Chest tightness, dyspnea, wheezing, and cough with or without sputum production
Cyanosis and even death. With appropriate therapy to relieve the att
acks, most individuals with asthma are able to maintain a productive life.
Summary
Begins in childhood, triggered by environmental allergens , often positive family history (atopic)
Skin test causes wheel and flare reaction Classic example of Type I IgE mediated hypersen
sitivity reaction Initial sensitization affects T helper 2 cells, which
release IL-4/5, which promote IgE release by B cells, mast cells and eosinophils
Summary
Reexposure to allergen-mediator release from mucosal mast cells
Acute response: bronchoconstriction, edema, mucus secretion, hypotension
Late phase reaction: epithelial damage and airway constriction
Putative mediators: leukotrienes C4, D4, E4 and acetylcholine; minor mediators: histamine, prostaglandin D2
Blood eosinophilia, sputum eosinophils
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