1 / 41

MICR 201 Microbiology for Health Related Sciences

Lecture 16: Microbial diseases of the respiratory system Edith Porter, M.D. MICR 201 Microbiology for Health Related Sciences. Lecture outline. Respiratory systems: structure and normal microbiota Upper respiratory tract infections

dimaia
Download Presentation

MICR 201 Microbiology for Health Related Sciences

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lecture 16: Microbial diseases of the respiratory system Edith Porter, M.D. MICR 201 Microbiology for Health Related Sciences

  2. Lecture outline • Respiratory systems: structure and normal microbiota • Upper respiratory tract infections • General: pharyngitis, tonsillitis, laryngitis, sinusitis, epiglottitis, otitis media • Bacterial diseases • Viral diseases • Lower respiratory tract infections • General: bronchitis, bronchioliis, pneumonia • Bacterial diseases • Viral diseases • Fungal diseases

  3. Structure of the upper respiratory system

  4. Structure of the lower respiratory system

  5. Normal microbiota of the respiratory system • Upper respiratory tract • Lower respiratory tract • Mucociliary escalator • Scarcely populated

  6. Upper respiratory tract infections • Laryngitis: S. pneumoniae, S. pyogenes, viruses • Tonsillitis: S. pyogenes, S. pneumoniae, viruses • Sinusitis: Bacteria, fungi • Epiglottitis: H. influenzae Sinusitis in right maxillary sinus in a CT scan (IlanaSeligman)

  7. Otitis media

  8. Otitismedia • More common in young children • Small auditory tube which connects middle ear and throat • 50% of all office visits to pediatrician • S. pneumoniae (35%) • H. influenzae (20-30%) • M. catarrhalis (10-15%) • S. pyogenes (8-10%) • S. aureus (1-2%) • Incidence of S. pneumoniae reduced by vaccineby 6 – 7%

  9. Streptococcal pharyngitis (Strep throat) • Streptococcus pyogenes • Group A streptococci • Resistant to phagocytosis • Streptokinaseslyse clots • Streptolysins are cytotoxic • Diagnosis • indirect agglutination • ELISA

  10. Scarlet fever • Streptococcus pyogenes • Pharyngitis + exanthem • Erythrogenic toxin produced by lysogenizedS. pyogenes • Tongue strawberry like

  11. Diphtheria • Corynebacteriumdiphtheriae • Gram-positive rod, pleomorphic • Diphtheria (Greek: leather) membrane forms in throat • fibrin, dead tissue, and bacteria • Diphtheria toxin produced by lysogenizedC. diphtheriae • Blocks protein biosynthesis • Infection is local but toxin may spread systemically • Kidney failure, heart failure • Prevented by DTaP and Td vaccine (Diphtheria toxoid)

  12. Corynebacteriumdiphteriae

  13. Diphtheria

  14. Common cold • Over 200 different viruses capable of causing common cold • Rhinoviruses (50%, over 100 serotypes) • A single virus attached to mucosa might be sufficient to cause a cold • Coronaviruses (15-20%) • Less frequent in older people • Possibly accumulated immunity • Duration ~1 week • With remedies ~ 7 days

  15. Lower respiratory tract infections • Bacteria, viruses, & fungi cause: • Bronchitis • Bronchiolitis • Pneumonia

  16. Pertussis(whooping cough)

  17. Bordetellapertussis

  18. Pertussispathogenesis • Bordetellapertussis • Gram-negative coccobacillus • Capsule • Numerous toxins and pathogenic factors • Tracheal cytotoxin • Selective damages ciliated respiratory cells • Local action • Pertussis toxin • Overstimulates cells leading to dysfunction • Locall + systemic action

  19. Pertussisclinical course • Stage 1: Catarrhal stage, like common cold • Stage 2: Paroxysmal stage: Violent coughing sieges • Stage 3: Convalescencestage http://www.vaccineinformation.org/photos/pert_wi001.jpg

  20. Complications and prevention of pertussis • Major complications most common among infants and young children • Include hypoxia, apnea, pneumonia, seizures, encephalopathy, and malnutrition • Young children can die from pertussis • Most deaths occur among unvaccinated children or children too young to be vaccinated • Prevented by DTaP vaccine (acellularPertussis cell fragments)

  21. Tuberculosis

  22. Causes of tuberculosis • Mycobacteria • Acid-fast rods • Lipid rich cell wall • M. tuberculosis • Primary cause • Transmitted from human to human • 20 h generation time: slow growth • M.bovis • <1% U.S. cases • not transmitted from human to human • Attenuated strain used in BCG vaccine • M. avium-intracellularecomplex • infects people with late stage HIV infection • Faster growing

  23. Tuberculosis symptoms • Bad cough over 3 weeks • Sputum production • Thick, viscous • Later on blood stained • Weight loss • Night sweat • Weakness or fatigue • Evening lower grade temperature or chills

  24. Development of disease depends on host resistance Airborne Infection 90 % 10 % Latent TB TB Disease No symptoms Not sick Cannot spread disease Chest X Ray and sputum are normal Symptoms Can spread infection Positive skin test Possible abnormal chest X ray Positive sputum smear or culture Dissemination AIDS increases susceptibility Untreated: Severe illness, Death Reactivation (secondary) TB

  25. Tuberculosis diagnosis • Diagnosis: Tuberculin skin test screening • + = current or previous infection • Followed by X-ray or CT, acid-fast staining of sputum, culturing bacteria, PCR

  26. Tuberculosis treatment and prophylaxis • Prolonged treatment with multiple drugs • 6 months at least • Combinantion • Pronounced side effects • Vaccines • BCG, live, avirulentM. bovis • Not widely used in U.S.

  27. Pneumomoccal Pneumonia • Streptococcus pneumoniae • Gram-positive encapsulated diplococci • Over 90 serotypes • Symptoms • High fever • Difficulty breathing • Chest pain • Diagnosis by culturing bacteria

  28. Mycoplasmalpneumonia • Mycoplasmapneumoniae • Pleomorphic • Bacteria without a cell wall • Require cholesterol for growth • “Fried egg” appearance on agar media • Also called primary atypical pneumonia and walking pneumonia • Common in children and young adults • Diagnosis by PCR or by IgM antibodies

  29. Q Fever • Coxiellaburnetii • Obligate intracellular bacterium • Flulike pneumonia • High fever • Headache • Muscle ache • Coughing • Long recovery • 2% may develop endocarditis • 60% of all infections asymptomatic • Reservoir: cattle • Infection via aerosol or ingestion of unpasteurized milk

  30. Viral pneumonia • Viral pneumonia as a complication of influenza, measles, chickenpox • Viral etiology suspected if no other cause determined • Respiratory Syncytial Virus (RSV) • Common in infants; 4500 deaths annually • Causes cell fusion (syncytium) in cell culture • Symptoms: coughing • Diagnosis by serologic test for viruses and antibodies

  31. Influenza • Chills, fever, headache, muscle aches (no intestinal symptoms) • 1% mortality due to secondary bacterial infections • Vaccine for high-risk individuals

  32. Influenza virus • Segmented RNA virus • 8 separate segments • Enveloped • Hemagglutinin(H) spikes used for attachment to host cells • Neuraminidase (N) spikes used to release virus from cell

  33. High mutation rate of influenza viruses • Antigenic drift • No proof reading of RNA polymerase • Mutations in genes encoding H or N spikes • May involve only 1 amino acid • Allows virus to avoid mucosal IgA antibodies • Antigenic shift • Changes in H and N spikes • Probably due to genetic recombination between different strains infecting the same cell • Causes pandemic • 1918/1919: over 20,000,000 deaths world wide

  34. How do we acquire viruses from pigs?

  35. Diagnosis of influenza • Direct antigen detection with nasal swabs • Cell culture and PCR

  36. Fungal respiatory tract infections • Histoplasmosis • Eastern US • Tb like symptoms but tuberculin negative • Can spread throughout the body • Coccidioidomycosis: • Southwestern US • Increased incidences after natural disasters, e.g. earthquakes • Pneumocystis • Associated with immunodificiency e.g. AIDS • Pneumonia with dry strong and prolonged cough

  37. Important to Remember • Respiratory systems: structure and normal microbiota • Upper respiratory tract infections • General: pharyngitis, tonsillitis, laryngitis, sinusitis, epiglottitis, otitis media • Bacterial diseases: strep throat, scarlet fever, dipheteria, • Viral diseases: Common cold • Lower respiratory tract infections • General: bronchitis, bronchiolitis, pneumonia • Bacterial diseases: pneumonia (lobar, atypical), tuberculosis • Viral diseases: influenza, RSV • Fungal diseases: histoplasmosis, coccidiomycosis, pneumocystis

  38. Check your understanding 1) Which of the following does NOT confirm a diagnosis of strep throat? A) Hemolytic reaction B) Bacitracin inhibition C) Symptoms D) Serological tests E) Gram stain 2) Which of the following pairs is mismatched? A) Epiglottitis– Haemophilus B) Q fever– Rickettsia C) Diphteria - Corynebacterium D) Whooping cough– Bordetella E) All are correct 3) The recurrence of influenza epidemics is due to A) Lack of antiviral drugs. B) The Guillain-Barré syndrome. C) Antigenic shift. D) Lack of naturally acquired active immunity. E) HA spikes.

More Related