Atypical bacteria
Objectives Describe general structure, Pathogenesis and clinical findings of Chlamydiae Describe general structure, Pathogenesis and clinical findings of Rickettsiae Describe general structure, Pathogenesis and clinical findings of Yersinia Illustrate few notes aboutFrancisella tularensis, Pasteurella multocida and Bacteroids Describe general structure, Pathogenesis and clinical findings of MycoplasmasChlamydiae
-Are obligate intracellular organisms ↓ Grow only within cells -Including Chlamydia trachomatis eye, respiratory and genital tract infections.Chlamydia pneumoniae atypical pneumonia Chlamydia psittaci psittacosis -They lack the ability to produce sufficient energy to go independently.-They have a rigid cell wall (but not a typical peptidoglycan layer)-Have a replicative cycle different from that of all bacteriabegin when extra cellular, metabolically inert (elementary body) ↓Reorganize into larger metabolically active (reticulate body) ↓ release daughter repeated binary fission elementary bodies appear as inclusions useful in diagnosis -All chlamydiae share a group-specific lipopolysacharide antigen (detected by CFT)-They also possess species-specific and immunotype-specific antigens (proteins) (detected by IF)-C.psittaci and C.pneumoniae each have 1 immunotype, where as C.trachomatic has at least 15.
Transmission & Epidemiology C.trachomatis infects only humans and transmitted by close personal contact (sexually or by passage through the birth canal)Individuals with asymptomatic genital tract infections are important reservoir.In trachoma, the microorganisms is transmitted by finger-to eye contact.C.pneumoniae human by aerosol C.psittaci birds dry feces of bird humans
Pathogenesis & clinical findingChlamydiae infect primarily epithelial cell & rarely invasive C.psittaci infect lungs primarily asymptomatic or produce pneumonia C.pneumoniae causes upper & lower respiratory tract infectionsC. trachomatis, types A, B and C trachoma and chronic conjunctivitisTypes D-K genital tract infections In men non gonococcal urethritis epididymitis or proctitis.In women cervicitis salpingitis infertility Infants born to infected mothers mucopurulent eye infections 7-12 days after infection. or develop (chlamydial pneumonitis) 2-12 weeks Patient with genital tract infection may develop autoimmune disease caused by antibodies against C.trachomatis cross reacting with antigens on cells of the urethra, joints and uveal tract, this so called (Reiter's syndrome).Chlamydia trachomatis L1-L3 immunotypes cause lymphogranuloma venereum a sexually transmitted disease with lesions on genitalia and in lymph nodes.
Laboratory diagnosis Cytoplasmic inclusion seen with Giemsa's stain or by immunofluorescence. Organisms can be identified in exudates by fluorescent antibody staining, ELISA, or by use of DNA probe (hybridyzation). Chlamydiae can be grown in cell culture or embryonated egg Chlamydial antigens can be detected by ELISA. Serologic tests reliable in diagnosis of chlamydial infection but not for C.trachomatis because the frequency of infection is so high that many people already have antibodies.
Rickettsiae : They are the agents of:Typhus R.prowazekii R.typhi R.tsutsugamoshiRocky Mountain spotted fever R.rickettsii Q fever Coxiella burnetii Are very short rods, their cell wall resemble that of Gram's negative but stained poorly.Are obligate intracellular parasites Rickettsiae devide by binary fission inside host cell but by a distinctive intracellular cycle.Several rickettsiae (R.prowazekii, tsutsugamoshi & richettsii) posses antigens that cross-react with antigens of the OX strains of Proteus vulgaris The Weil-Felix test anti-richettsial antibodies in serum will agglutinate Proteus vulgaris.
PathogenesisTransmitted to human by bite of arthropod, except C.burnetti which is transmitted by aerosol.All rickettsial infections are zoonotic only for epidemic typhus.The typical lesion caused by rickettsiae is a vasculitis particularly in the endothelial lining.Damage of vessels of skin characteristic rash, edema and hemorrhage. Endotoxin is involved in pathogenesis but no exotoxin or cytolytic enzymes.-Typhus begins with the sudden onset of chills, fever, headache and other influenza like symptoms 1-3 weeks after the louse bite. A maculopapular rash appear on the trunk 5th-9th days of the onset. Signs of sever meningo-encephalitis. In untreated cases death may occurs from peripheral vascular collapse or from bacterial pneumonia.Epidemic typhus R.prowazekii (louse transmit infection from person to person) Endemic typhus R.typhi (by flea).
Laboratory diagnosis Based on serologic analysis rather than isolation of the organism Rickettsiae can be grown in cell culture or embryonated egg but hazardous. CFT provides more specific data. Weil-Felix reaction (microagglutination test) based on cross reaction of antigens in rickittsial disease and with O antigen (polysaccharide) found in Proteus vulgaris strains OX-2, O-19 & OX-k. but the test is of limited value.
Antigenic structure & virulence factors Lipopolysaccharide capsule or envelope protein (fraction 1, F-1) with endotoxic activity and antiphagocytosis, loss of capsule is accompanied by a loss of virulence. V-W antigens-2 proteins encoded by genes on plasmid. Exotoxins that are lethal to animal but with unknown role in humans. Two additional correlates of virulence are the formation of pigmented colonies on certain media and the ability to synthesize purines.
Pathogenesis & Epidemiology The zoonotic cycle consist of transmission among wild rodents by fleas, most rodents are asymptomatic, humans are accidental hosts. This cycle predominate during time of poor sanitation.The flea ingests the bacteria while taking blood from bacteremic rodent organisms inoculated with the bite spread to the regional lymph nodes swollen and tender (buboes) bubonic plaque high concentration in blood disseminated form abscess in many organs.The endotoxin-related symptoms including disseminated intravascular coagulation and cutaneous hemorrhages (black death).Primary pneumonic plaque may occur by respiratory droplet transmission of the organisms from patients with pneumonic plaque or secondary pneumonic plaque from septic emboli that can reach the lungs.
Laboratory diagnosisSpecimens may be stool, blood, pus or material obtained from bubo. Sputum in pneumonic plaque.Staining of smear by Giemsa's stain reveal typical safety pin appearance also flourescent antibody staining can be used.Culture is the best diagnostic method where they usually increase the small amount of micro-organisms by cold enrichment (buffer saline at 4oC for 2-4 weeks), then placed on MacConkey.Serology-at or after two weeks rise of agglutinating antibodies (against envelope antigens) can be detected but cross reaction may confuse the results.
Francisella tularensis Are animal pathogens, transmissible to humans by biting arthropods/ direct contact with infected animal tissues, inhalation of aerosols or ingestion of contaminated food or water Tularemia. Pasteurella multocida Causes wound infection associated with cat and dog bites (organisms are normal flora of mouth of many animals) rapid cellulitis.Osteomylitis cat sharp teeth implant micro-organisms under the periosteum.Cat bite should not be sutured and prophylactic Ampicillin must be given.
Bacteroids species Very important anaerobic Gram's negative bacilli Normal flora of the bowel and genital tract. Usually associated with intra-abdominal suppuration in association with anaerobic cocci and bacilli as Peptostreptococcus and Clostridia. Isolated under anaerobic conditions. Treated by Clindamycin and Metronidazole.
Mycoplasmas Are a group of small, wall-less organisms of which Mycoplasma pneumoniae is the major pathogen.Mycoplasma pneumoniae atypical pneumonia Are smallest free-living organisms ( 0.3/m) Absence of a cell wall stain poorly with Gram's stain. And antibiotics that inhibit cell wall synthesis are ineffective.Pleomorphic a flexible 3-layer cell membrane Mycoplasmas can grow on artificial media (including several lipids) grow slowly (1week) visible colony "fried egg" shape.
Clinical findingsMost common cause of atypical pneumonia, (causative bacterium can not be isolated on routine lab media and the disease does not resemble pneumococcal pneumonia) The onset is gradual, begins with non-productive cough, sore throat, or earache then produce whitish, non-bloody sputum.Constitutional symptoms (fever, headache, malaise and myalgias) are pronounced.The disease resolves spontaneously in 10-14 days.
Laboratory Diagnosis Culturing sputum sample may take at least 1 week and need special media.Serological test cold agglutinin titer 1:128 recent infection IgM auto antibodies against type O RBC agglutination at 4oC (Non specific ) false positive influenza virus _ adenovirus Infection can be confirmed by 4-fold rise in specific antibody titer in CFT.