Mycoplasmas are a group of very small, wall-less organisms, of which Mycoplasma pneumoniae is the major pathogen
Mycoplasma (plural mycoplasmas or mycoplasmata) is a genus of bacteria that lack a cell wall around their cell membranes.
This characteristic makes them naturally resistant to antibiotics that target cell wall synthesis (like the beta-lactam antibiotics)
Cell wall is absent and plasma membrane forms the outer boundary of the cell.
Due to the absence of cell wall these organisms can change their shape and are pleomorphic.
Lack of nucleus and other membrane-bound organelles.
Genetic material is a single DNA.
Ribosomes are 70S type.
Genus: Mycoplasma, Ureaplasma
Species:
M. pneumoniae: Upper respiratory tract disease, tracheobronchitis, atypical pneumonia
M. hominis: Pyelonephritis, pelvic inflammatory disease, postpartum fever
M. genitalium: Nongonococcl urethritis
U. urealyticum: Nongonococcl urethritis
M. pneumoniae, a pathogen only for humans, is transmitted by respiratory droplets.
In the lungs, the organism is rod-shaped, with a tapered tip that contains specific proteins that serve as the point of attachment to the respiratory epithelium.
The respiratory mucosa is not invaded, but ciliary motion is inhibited and necrosis of the epithelium occurs.
The mechanism by which M. pneumoniae causes inflammation is uncertain. It does produce hydrogen peroxide, which contributes to the damage to the respiratory tract cells.
Mycoplasma pneumonia is the most common type of atypical pneumonia.
It was formerly called primary atypical pneumonia. (Other atypical pneumonias are legionnaires' disease, Q fever, psittacosis, and viral pneumonias such as influenza.
The term "atypical" means that a causative bacterium cannot be isolated on routine media in the diagnostic laboratory or that the disease does not resemble pneumococcal pneumonia.)
Diagnosis is usually not made by culturing sputum samples; it takes at least 1 week for colonies to appear on special media. Culture on regular media reveals only normal flora.
The treatment of choice is either a macrolide, such as erythromycin or azithromycin, or a tetracycline, such as doxycycline.
These drugs can shorten the duration of symptoms, although, as mentioned above, the disease resolves spontaneously.
Penicillins and cephalosporins are inactive because the organism has no cell wall
There is no vaccine or other specific preventive measure.
2. • Mycoplasmas are a group of very small, wall-
less organisms, of which Mycoplasma
pneumoniae is the major pathogen
3. • Mycoplasma (plural mycoplasmas or mycoplas
mata) is a genus of bacteria that lack a cell
wall around their cell membranes.
• This characteristic makes them naturally
resistant to antibiotics that target cell wall
synthesis (like the beta-lactam antibiotics)
4. Important characteristics of
mycoplasmal bacteria
1. Cell wall is absent and plasma membrane forms
the outer boundary of the cell.
2. Due to the absence of cell wall these organisms
can change their shape and are pleomorphic.
3. Lack of nucleus and other membrane-bound
organelles.
4. Genetic material is a single DNA.
5. Ribosomes are 70S type.
5. Important Properties
• Mycoplasmas can be grown in the laboratory
on artificial media, but they have complex
nutritional requirements, including several
lipids. They grow slowly and require at least 1
week to form a visible colony. The colony
frequently has a characteristic "fried-egg"
shape, with a raised center and a thinner
outer edge.
6.
7. Genus: Mycoplasma, Ureaplasma
Species:
M. pneumoniae: Upperrespiratorytract
disease, tracheobronchitis,atypical
pneumonia
M. hominis: Pyelonephritis,pelvicinflammatory
disease, postpartumfever
M. genitalium: Nongonococclurethritis
U. urealyticum: Nongonococclurethritis
9. Pathogenesis & Epidemiology
• M. pneumoniae, a pathogen only for humans,
is transmitted by respiratory droplets.
• In the lungs, the organism is rod-shaped, with
a tapered tip that contains specific proteins
that serve as the point of attachment to the
respiratory epithelium.
10. • The respiratory mucosa is not invaded, but
ciliary motion is inhibited and necrosis of the
epithelium occurs.
• The mechanism by which M. pneumoniae
causes inflammation is uncertain. It does
produce hydrogen peroxide, which contributes
to the damage to the respiratory tract cells.
11. • M. pneumoniae has only one serotype and is
antigenically distinct from other species of
Mycoplasma.
• Immunity is incomplete, and second episodes of
disease can occur.
• During M. pneumoniae infection, autoantibodies
are produced against red cells (cold agglutinins)
and brain, lung, and liver cells. These antibodies
may be involved in some of the extrapulmonary
manifestations of infection.
12. • M. pneumoniae infections occur worldwide, with
an increased incidence in the winter. This
organism is the most frequent cause of
pneumonia in young adults and is responsible for
outbreaks in groups with close contacts such as
families, military personnel, and college students.
It is estimated that only 10% of infected
individuals actually get pneumonia. Mycoplasma
pneumonia accounts for about 5–10% of all
community-acquired pneumonia.
13. Clinical Findings
• Mycoplasma pneumonia is the most common
type of atypical pneumonia.
• It was formerly called primary atypical
pneumonia. (Other atypical pneumonias are
legionnaires' disease, Q fever, psittacosis, and
viral pneumonias such as influenza.
• The term "atypical" means that a causative
bacterium cannot be isolated on routine media in
the diagnostic laboratory or that the disease does
not resemble pneumococcal pneumonia.)
14. • The onset of Mycoplasma pneumonia is gradual,
usually beginning with a nonproductive cough,
sore throat, or earache.
• Small amounts of whitish, nonbloody sputum are
produced.
• Constitutional symptoms of fever, headache,
malaise, and myalgias are pronounced.
• The paucity of findings on chest examination is in
marked contrast to the prominence of the
infiltrates seen on the patient's chest x-ray. The
disease resolves spontaneously in 10–14 days. In
addition to pneumonia, M. pneumoniae also
causes bronchitis.
15. • The extra-pulmonary manifestations include
Stevens-Johnson syndrome, Raynaud's
phenomemon, cardiac arrhythmias,
arthralgias, and neurologic manifestations
such as Guillan-Barre syndrome
16. Laboratory Diagnosis
• Diagnosis is usually not made by culturing
sputum samples; it takes at least 1 week for
colonies to appear on special media. Culture
on regular media reveals only normal flora.
17. • Serologic testing is the mainstay of diagnosis. A
cold-agglutinin titer of 1:128 or higher is
indicative of recent infection.
• Cold agglutinins are IgM autoantibodies against
type O red blood cells that agglutinate these cells
at 4°C but not at 37°C.
• However, only half of patients with Mycoplasma
pneumonia will be positive for cold agglutinins.
The test is nonspecific; false-positive results occur
in influenza virus and adenovirus infections.
18. • The diagnosis of M. pneumoniae infection can
be confirmed by a fourfold or greater rise in
specific antibody titer in the complement
fixation test
19. Treatment
• The treatment of choice is either a macrolide,
such as erythromycin or azithromycin, or a
tetracycline, such as doxycycline.
• These drugs can shorten the duration of
symptoms, although, as mentioned above, the
disease resolves spontaneously.
• Penicillins and cephalosporins are inactive
because the organism has no cell wall
Mycoplasma pneumoniae is a very small bacterium in the class Mollicutes
In 1898, Nocard and Roux were the first to isolate an agent assumed to be the cause of cattle pneumonia
Mycoplasma species have been isolated from women with bacterial vaginosis.[3] M. genitalium is found in women with pelvic inflammatory disease.[9] In addition, infection is associated with increased risk of cervicitis, infertility, preterm birth and spontaneous abortion.[10] Mycoplasma genitalium has developed resistance to some antibiotics.[11] Mycoplasmas are associated with infant respiratory distress syndrome, bronchopulmonary dysplasia, and intraventricular hemorrhage in preterm infants.[