Bronchiectasis

Last updated: January 16, 2026

Bronchiectasis

CONA CM

CONA CM

Anemia: Clinical
Microcytic anemia: Pathology review
Intrinsic hemolytic normocytic anemia: Pathology review
Extrinsic hemolytic normocytic anemia: Pathology review
Non-hemolytic normocytic anemia: Pathology review
Macrocytic anemia: Pathology review
Myeloproliferative disorders: Pathology review
Myeloproliferative neoplasms: Clinical
Leukemias: Pathology review
Leukemia: Clinical
Lymphoma: Clinical
Plasma cell disorders: Pathology review
Plasma cell disorders: Clinical
Platelet disorders: Pathology review
Thrombocytopenia: Clinical
Bleeding disorders: Clinical
Thrombosis syndromes (hypercoagulability): Pathology review
Thrombophilia: Clinical
Peripheral vascular disease: Clinical
Venous thromboembolism: Clinical
Deep vein thrombosis and pulmonary embolism: Pathology review
Thrombolytics
Antiplatelet medications
Anticoagulants: Warfarin
Anticoagulants: Heparin
Anticoagulants: Direct factor inhibitors
Blood products and transfusion: Clinical
Vaccinations: Clinical
Pneumonia: Clinical
Abscesses
Infective endocarditis: Clinical
Skin and soft tissue infections: Clinical
Septic arthritis
Osteomyelitis
Fever of unknown origin: Clinical
Diarrhea: Clinical
Gastroenteritis
Clostridium difficile (Pseudomembranous colitis)
Urinary tract infections: Clinical
Sexually transmitted infections: Clinical
Meningitis, encephalitis and brain abscesses: Clinical
Clostridium tetani (Tetanus)
Clostridium botulinum (Botulism)
Salmonellosis
Shigella
Vibrio cholerae (Cholera)
Brucella
Mycobacterium tuberculosis (Tuberculosis)
Antituberculosis medications
Mycobacterium leprae
Treponema pallidum (Syphilis)
Leptospira
Upper respiratory tract infection
Pediatric upper airway conditions: Clinical
Pediatric lower airway conditions: Clinical
HIV (AIDS)
Herpes simplex virus
Varicella zoster virus
Herpesvirus medications
Epstein-Barr virus (Infectious mononucleosis)
Cytomegalovirus
Coccidioidomycosis and paracoccidioidomycosis
Aspergillus fumigatus
Mucormycosis
Plasmodium species (Malaria)
Antimalarials
Leishmania
Trypanosoma cruzi (Chagas disease)
Toxoplasma gondii (Toxoplasmosis)
Ascaris lumbricoides
Ancylostoma duodenale and Necator americanus
Strongyloides stercoralis
Enterobius vermicularis (Pinworm)
Anthelmintic medications
Bites and stings: Clinical
Cytomegalovirus infection after transplant (NORD)
Mechanisms of antibiotic resistance
Streptococcus pyogenes (Group A Strep)
Miscellaneous antifungal medications
Candida
Staphylococcus aureus
Pediatric infectious rashes: Clinical
ECG basics
ECG normal sinus rhythm
ECG rate and rhythm
ECG axis
ECG intervals
ECG QRS transition
ECG cardiac hypertrophy and enlargement
ECG cardiac infarction and ischemia
Atrial flutter
Atrial fibrillation
Premature atrial contraction
Atrioventricular nodal reentrant tachycardia (AVNRT)
Wolff-Parkinson-White syndrome
Ventricular tachycardia
Brugada syndrome
Premature ventricular contraction
Long QT syndrome and Torsade de pointes
Ventricular fibrillation
Atrioventricular block
Bundle branch block
Heart blocks: Pathology review
Pulseless electrical activity
Supraventricular arrhythmias: Pathology review
Ventricular arrhythmias: Pathology review
Heart failure
Heart failure: Pathology review
Heart failure: Clinical
Dilated cardiomyopathy
Restrictive cardiomyopathy
Hypertrophic cardiomyopathy
Cardiomyopathies: Clinical
Endocarditis
Myocarditis
Rheumatic heart disease
Tricuspid valve disease
Pulmonary valve disease
Mitral valve disease
Aortic valve disease
Valvular heart disease: Clinical
Pericarditis and pericardial effusion
Cardiac tamponade
Dressler syndrome
Pericardial disease: Clinical
Myocardial infarction
Coronary artery disease: Clinical
Renal artery stenosis
Hypertension: Clinical
Aortic aneurysms and dissections: Clinical
Pulmonary hypertension
Peripheral artery disease
Chronic venous insufficiency
Leg ulcers: Clinical
Congenital heart defects: Clinical
Lymphedema
Syncope: Clinical
Tuberculosis: Pathology review
Asthma: Clinical
Diffuse parenchymal lung disease: Clinical
Bronchiectasis
Obstructive lung diseases: Pathology review
Restrictive lung diseases: Pathology review
Lung cancer: Clinical
Pleural effusion: Clinical
Anatomy clinical correlates: Pleura and lungs
Pleural effusion, pneumothorax, hemothorax and atelectasis: Pathology review
Sleep apnea
Respiratory distress syndrome: Pathology review
Acute respiratory distress syndrome: Clinical
Chronic obstructive pulmonary disease (COPD): Clinical
Pneumothorax: Clinical
Acute kidney injury: Clinical
Chronic kidney disease: Clinical
Nephritic and nephrotic syndromes: Clinical
Hypernatremia: Clinical
Hyponatremia: Clinical
Hyperkalemia: Clinical
Hypokalemia: Clinical
Parathyroid conditions and calcium imbalance: Clinical
Metabolic and respiratory alkalosis: Clinical
Metabolic and respiratory acidosis: Clinical
Kidney stones: Clinical
Esophageal disorders: Clinical
Esophageal surgical conditions: Clinical
Esophagitis: Clinical
Gastroesophageal reflux disease (GERD): Clinical
Peptic ulcers and stomach cancer: Clinical
Malabsorption syndromes: Pathology review
Inflammatory bowel disease: Clinical
Irritable bowel syndrome
Viral hepatitis: Clinical
Jaundice: Clinical
Cirrhosis: Clinical
Pancreatitis: Clinical
Alcohol-associated liver disease
Systemic lupus erythematosus (SLE): Clinical
Antiphospholipid syndrome
Rheumatoid arthritis: Clinical
Joint pain: Clinical
Scleroderma: Pathology review
Sjogren syndrome: Clinical
Seronegative arthritis: Clinical
Vasculitis: Clinical
Inflammatory myopathies: Clinical
Sarcoidosis
Gout and pseudogout: Pathology review
Antigout medications
Fibromyalgia
Hypopituitarism: Clinical
Thyroid nodules and thyroid cancer: Clinical
Hypothyroidism and thyroiditis: Clinical
Hyperthyroidism: Clinical
Adrenal masses and tumors: Clinical
Adrenal insufficiency: Clinical
Congenital adrenal hyperplasia: Clinical
MEN syndromes: Clinical
Cushing syndrome: Clinical
Pituitary adenomas and pituitary hyperfunction: Clinical
Diabetes mellitus: Clinical
Hypercholesterolemia: Clinical
Osteoporosis
Hemochromatosis
Seizures: Clinical
Cerebral vascular disease: Pathology review
Stroke: Clinical
Headaches: Clinical
Dementia and delirium: Clinical
Alzheimer disease
Parkinson disease
Hypokinetic movement disorders: Clinical
Hyperkinetic movement disorders: Clinical
Trigeminal neuralgia
Bell palsy
Multiple sclerosis
Guillain-Barre syndrome
Muscle weakness: Clinical
Myasthenia gravis
Lambert-Eaton myasthenic syndrome
Shock: Clinical
Disorders of consciousness: Clinical
Subarachnoid hemorrhage

Transcript

Watch video only

With bronchiectasis, “bronchi” refers to bronchi and bronchioles, which are small airways in the lungs, while “-ectasis” means dilation. So, in bronchiectasis, chronic inflammation in the lungs damages the smooth muscle cells and elastic tissue that support these small airways, resulting in their permanent dilation.

When you take a breath, your diaphragm moves down, creating negative pressure within your chest. This gentle vacuum in the chest pulls air in through your nose or mouth down the trachea. From here, the air travels through the primary bronchi, into the secondary bronchi, then tertiary bronchi, and finally into the bronchioles, which lead directly to the alveoli, where the gas exchange occurs.

Now, the walls of our airways consist of smooth muscle cells and elastic tissue that help the airways open and return to their shape as we breathe. These walls are lined with epithelial cells, which have tiny brush-like projections called cilia, and goblet cells, which produce sticky mucus. The mucus traps dust, bacteria, and other unwanted particles, and the cilia move together in coordinated waves, pushing the mucus and trapped particles toward the throat so we can clear them out of the lungs. This system is called the mucociliary escalator. This way, we can either swallow or cough out foreign particles that end up in our airways.

Now, bronchiectasis can develop due to chronic respiratory infections or lung obstructions. These are closely related and tend to trigger each other, setting off a cycle that slowly damages the airways over time.

First, let’s look at how chronic, recurrent respiratory infections can lead to bronchiectasis. When a pathogen reaches the small airways in the lungs, epithelial cells respond by releasing pro-inflammatory cytokines, which signal neutrophils to join the action. As neutrophils fight the pathogen, they use powerful weapons, like elastase and reactive oxygen species. These substances are great at killing pathogens, but they also cause collateral damage, breaking down the surrounding structures, including epithelial cilia. As a result, epithelial cilia cannot propel the mucus and pathogens out of the lungs, causing mucus to accumulate, which creates a perfect environment for bacteria to thrive. With recurrent infections, chronic inflammation can destroy the surrounding smooth muscle cells and elastic tissue, resulting in permanent dilation of bronchi and bronchioles. Sometimes, airways can dilate up to four times their normal size.

This kind of damage is common in necrotizing pneumonia caused by Staphylococcus aureus, Klebsiella species, and Mycobacterium tuberculosis.

Another setting where bronchiectasis can develop includes immunodeficiencies, particularly the ones with low immunoglobulin levels. It might seem surprising, but when the immune system can’t effectively fight off pathogens, they keep coming back, causing repeated episodes of pneumonia. Over time, chronic inflammation destroys the small airways, eventually resulting in bronchiectasis.

Now, moving on to lung obstruction. In this case, the cilia of epithelial cells cannot move mucus and debris out of the lungs. This might happen when something is physically blocking the airway, such as tumors or foreign objects, like a peanut. It can also occur if the cilia themselves are not functioning properly, as in primary ciliary dyskinesia, or if the mucus is too thick to move, like in cystic fibrosis. In all cases, mucus accumulates and becomes a breeding ground for infection and chronic inflammation. Over time, chronic inflammation leads to bronchiectasis.

In both recurrent inflammation and lung obstruction, if the inflammation continues for too long, fibroblasts step in to repair the damage by depositing collagen. But, instead of healing, this results in fibrosis and scarring of the bronchial and bronchiolar walls. In more severe cases, the fibrosis can extend to the tissues surrounding the bronchioles, a process called peribronchiolar fibrosis.

Key Takeaways

Bronchiectasis is a chronic inflammation of the bronchi and the bronchioles, which damages the mucociliary escalator and the walls of the airways. This causes mucus to accumulate and get stuck in the airways, and form mucus plugs that can lead to serious infections, difficulty breathing, and a variety of other health problems. Common causes of bronchiectasis include long-term exposure to cigarette smoke, respiratory infections such as pneumonia, and cystic fibrosis.

Sources

  1. "Robbins & Kumar Basic Pathology. Available from: ClinicalKey Student, (11th Edition). Page 409-410. " Elsevier Limited (UK) (2022)
  2. "Robbins & Cotran Pathologic Basis of Disease. Available from: ClinicalKey Student, (10th Edition). Page 687. " Elsevier Health Sciences (US) (2020)
  3. "USMLE Step 1 Secrets in Color. Available from: ClinicalKey Student, (5th Edition). Page 281. " Elsevier Limited (UK) (2022)
  4. "Davidson's Principles and Practice of Medicine. Available from: ClinicalKey Student, (24th Edition). Page 509-510. " Elsevier Limited (UK) (2022)
  5. "Guyton and Hall Textbook of Medical Physiology. Available from: ClinicalKey Student, (14th Edition). Page 498-499. " Elsevier Health Sciences (US) (2020)
  6. "Bronchiectasis. Nature reviews. 4(1), 45. " Disease primers (2018)