Bacterial Pneumonia PDF

Summary

This document provides information on bacterial pneumonia, covering various aspects such as causes, types, and pathogenesis. It also discusses the diagnosis and treatment approaches to bacterial pneumonia. Details on different types of pneumonia and causative agents are provided.

Full Transcript

lower respiratory tract infection
(Bacterial pneumonia)
By
Dr. Amany M. Tawfeik
Medical Microbiology & Immunology department
Asthma:
Bronchial Asthma is an obstructive disease characterized by
bronchoconstriction, increased mucus production, hypertrophied
bronchial smooth muscle, and airway hyperactivity to stimuli such as
cold air and inhaled exogenous antigens.
A number of asthma patients also have atopic disease, such as eczema,
related to environmental allergen exposure (type I hypersensitivity).
Inhaled corticosteroids decrease mucus and proinflmmatory cytokines
in the lungs, and bronchodilators to relax bronchial smooth muscle, are
used for treatment. Mast cell stabilizers inhibit release of inflammatory
cytokines and histamine
Infectious agents may cause interstitial or
intra-alveolar pneumonias.
Bronchopneumonia involves alveoli and
bronchioles with a patchy distribution
throughout the lung, whereas lobar
pneumonia is infection of the alveoli in
an entire lobe of the lung = typical
pneumonias.
The microbes causing atypical
pneumonias induce primarily
bronchopneumonia with interstitial
infection throughout the lung
parenchyma
Typical pneumonias:
Rapid onset, more sever symptoms, productive cough and dense consolidation
in chest X- ray

Klebsiella pneumonia
Pseudomonas aeruginosa
Atypical pneumonias:
Slower onset, less sever symptoms, non productive cough and patchy
interstitial pattern in chest X- ray

Coxiella burnetti

Fungi.
II: Pneumonia according to source of infection:
A. Nosocomial (hospital acquired) pneumonia:
It occurs 48 hours or more after admission to hospital. It was not present at the
time of admission.
Common causes:
- Gram negative bacilli e.g E. coli, Klebsiella pneumonia, Pseudomonas aeruginosa,
Serratia marcescens, Acinetobacter spp. and Enterobacter spp.
- Gram positive cocci especially Staphylococcus aureus.

B. Community acquired pneumonia:
The patient has not recently (more than 14 days) in a hospital. The most common
cause is Streptococcus pneumonia
Bacterial causes of typical pneumonias:
1- Streptococcus pneumonia
2- Haemophilus influenza
3- Klebsiella pneumonia
Other bacterial causes of typical pneumonias:
4- Pseudomonas aeruginosa
5- Bacillus anthracis
6- Yersinia pestis
Klebsiella pneumonia:
Distinguishing Features:
Gram-negative rods with large polysaccharide capsule
Mucoid, lactose-fermenting colonies on MacConkey agar
Oxidase negative
Reservoir: human colon and upper respiratory tract
Transmission: endogenous
Pathogenesis : capsule (impedes phagocytosis); endotoxin (causes fever,
inflammation, and shock [septicemia])
Disease(s)
Pneumonia
– Community-acquired, most often older men; most commonly those with
chronic lung disease, alcoholism, or diabetes
(but this is not the most common cause of pneumonia in alcoholics; S.
pneumoniae is.)
– Endogenous; assumed to reach lungs by inhalation of respiratory droplets from
upper respiratory tract
– Frequent abscesses make it hard to treat; fatality rate high
– Sputum is generally thick and bloody (currant jelly) but not foul smelling as in
anaerobic aspiration pneumonia
Diagnosis: culture of sputum MacConkey`s agar; mucoid lactose fermenter
Treatment: third-generation cephalosporin
Pseudomonas aeruginosa
Distinguishing Features
Oxidase-positive, Gram-negative rods, aerobic; motile.
Pigments: pyocyanin (blue-green) exopigment on nutrient agar
and fluorescein
Grape-like odor
Non–lactose fermenting colonies on MacConkey
Biofilm
Reservoir: ubiquitous in water and soil
Transmission: water aerosols, raw vegetables, flowers
Diagnosis: Gram stain and culture
Treatment: antipseudomonal penicillin and an aminoglycoside (Susceptibilities
important and drug resistance very common; Intrinsic resistance plasmid-
mediated)
Pathogenesis
Endotoxin causes inflammation in tissues and gram-negative shock in septicemia
Pseudomonas exotoxin A ADP ribosylates eEF-2, inhibiting protein synthesis (like
diphtheria toxin)
Liver is primary target
Capsule/slime layer allows formation of pulmonary microcolonies; difficult to
remove by phagocytosis
Disease(s):
Neutropenic patients: pneumonia and septicemia (often superinfection,
i.e., infection while on antibiotics)
Chronic granulomatous disease: pneumonias, septicemias; [diabetic]
osteomyelitis (diabetic foot)
Otitis externa: swimmers, diabetics, those with pierced ears
Cystic fibrosis: early pulmonary colonization, recurrent pneumonia
Bacillus anthracis:
Distinguishing Features:
Large, boxcar-like, gram-positive, spore-forming rods
Capsule is polypeptide (poly-d-glutamate)
Potential bioterrorism agent
Reservoir: animals (zoonosis), skins, soils
Transmission: contact with infected animals or inhalation of spores (bioterrorism)
Pathogenesis:
Capsule polypeptide, antiphagocytic, immunogenic
Anthrax toxin includes 3 protein components:
– Protective antigen (B component)
– Lethal factor kills cells
– Edema factor is an adenylate cyclase
Diseases: Inhalation of spores, most commonly from contaminated animals or
animal products
Pulmonary (woolsorter’s disease): life-threatening pneumonia; cough,
fever, malaise, and ultimately facial edema, dyspnea, diaphoresis, cyanosis, and
shock with mediastinal hemorrhagic lymphadenitis
Diagnosis:
Mediastinal widening on chest x-ray
Gram stain and culture of blood, respiratory secretions or lesions
Colonies show a halo of projections, sometimes referred to as
“medusa head” appearance.
Serology
PCR
Treatment: ciproflxacin or doxycycline.
Prevention: toxoid vaccine (AVA, acellular vaccine adsorbed) is given to those in
high risk occupations such as military
Comparative Microbiology
Major encapsulated organisms
Some Killers Have Pretty Nice Capsules:
Strep pneumoniae
Klebsiella pneumoniae
Haemophilus inflenzae Type b (a-d)
Pseudomonas aeruginosa
Neisseria meningitidis
Cryptococcus neoformans (the yeast)
Yersinia pestis:
Distinguishing Features
Small gram-negative rods with bipolar staining
Facultative intracellular parasite
Reservoir: zoonosis; rodents; potential biowarfare agent
Transmission: wild rodents flea bite lead to sylvatic plague; human-to-human
transmission by respiratory droplets
Pathogenesis:
Coagulase-contaminated mouth parts of flea
Endotoxin and exotoxin
Envelope antigen (F-1) inhibits phagocytosis.
Type III secretion system suppresses cytokine production and resists phagocytic
killing
Disease: Pneumonic plague. It develops as a result of inhalation of
droplets infected with Y. pestis passed from person to person. Highly
contagious
– Hemoptysis, chest pain, dyspnea
Diagnosis:
Clinical specimens and cultures are hazardous
Serodiagnosis or direct immunofluorescence
“Safety pin” staining on blood stain
Treatment: aminoglycosides
Prevention: animal control and; killed vaccine (military)
Bacterial causes of Atypical Pneumonia :
Slower onset , less severe symptoms, non productive cough, patchy
interstitial pattern in chest x- ray.
Causative agents:
1-Mycoplasma pneumoniae.
2- Chlamydia pneumoniae.
3-. Chlamydia psittaci.
4-Legionella pneumophila
5- Coxiella burnetti.
1- Mycoplasma pneumoniae:
Distinguishing Features
Extracellular, tiny, flexible
No cell wall; not seen on Gram-stained smear
Membrane with cholesterol but does not synthesize cholesterol
Requires cholesterol for in vitro culture
Reservoir: human respiratory tract
Transmission: respiratory droplets; close contact: families, military
recruits, medical school classes, college dorms
Pathogenesis
Surface parasite: not invasive
Attaches to respiratory epithelium via P1 protein
Inhibits ciliary action
Produces hydrogen peroxide, superoxide radicals, and cytolytic enzymes, which
damage the respiratory epithelium, leading to necrosis and a bad, hacking cough
(walking pneumonia)
M. pneumoniae functions as superantigen, elicits production of IL-1, IL-6, and
TNF-α
Disease: walking pneumonia
Pharyngitis
Most common atypical pneumonia (along with viruses) in young adults
Diagnosis:
Primarily clinical diagnosis; PCR/nucleic acid probes
ELISA and immunofluorescence sensitive and specific
Fried-egg-shaped colonies on sterol-containing media, 10 days
Positive cold agglutinins (autoantibody to RBCs) test is nonspecific
and is positive in only 65% of cases
Treatment:
erythromycin, azithromycin, clarithromycin; no cephalosporin or
penicillin
Family: Chlamydiaceae
Family Features:
Obligate intracellular bacteria
Cannot make ATP
Cell wall lacks muramic acid
Elementary body/reticulate body
Not seen on Gram stain
Genera of Medical Importance:
Chlamydia trachomatis
Chlamydophila pneumoniae
Chlamydophila psittaci
 Chlamydiaceae pneumoniae:
Atypical pneumonia: sputum with
intracytoplasmic inclusions

Chlamydiaceae psittaci:
Atypical pneumonia: exposure to
parrots

-Lab diagnosis: PCR, nucleic acid
amplification test. +
4- Legionella pneumophila
Distinguishing Features
Stain poorly with standard Gram stain; gram-negative
Fastidious requiring increased iron and cysteine for laboratory culture
(BCYE, buffered charcoal, yeast extract)
Facultative intracellular
Reservoir: rivers/streams/amebae; air-conditioning water cooling tanks
Transmission: aerosols from contaminated air-conditioning; no human-to
human transmission
Predisposing Factors:
smokers age >55 with high alcohol intake; immunosuppressed patients
such as renal transplant patients
Pathogenesis: facultative intracellular pathogen; endotoxin
Disease(s)
Legionnaires disease (“atypical pneumonia”): associated with air conditioning
systems (now routinely decontaminated); pneumoniasevere pneumonia
(often unilateral and lobar); hyponatremia; mental confusion; diarrhea (no
Legionella in GI tract)
Pontiac fever: pneumonitis mild fl-like syndrome; no fatalities
Diagnosis:
Urinary antigen test (serogroup 1)
DFA (direct fluorescent antibody) on biopsy
Treatment: floroquinolone (levoflxacin) or macrolide (azithromycin) with
rifampin (immunocompromised patients);
Prevention: routine decontamination of air-conditioner cooling tanks
5- Coxiella burnetii
Distinguishing Features:
obligate intracellular, spore-like characteristics
Transmission: inhalation from dried placental material;
zoonosis (sheep and goats); possible bioterrorism agent
Pathogenesis: obligate intracellular, live inside phagolysosomes
Disease(s):
Q fever: atypical pneumonia, hepatitis, or endocarditis
Diagnosis: serologic detection of Phase II LPS antigen (for acute disease) and
Phase I and Phase II LPS antigens (for chronic disease)
Treatment: doxycycline