MIC305 Spirochetes, Acid Fast Bacteria, Atypical Bacteria PDF

Summary

These lecture notes cover various types of bacteria, including spirochetes, acid-fast bacteria, and atypical bacteria. Information is presented on the characteristics, diseases caused, and diagnosis of each type of bacteria.

Full Transcript

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Spirochetes

Acid Fast Bacteria

Atypical Bacteria

Asst.Prof.Dr. Acharawan Thongmee; October 17-18, 2024; MIC305
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Spirochetes

Treponema

Leptospira

Borrelia
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Spirochetes
 Long, slender, helically shaped cells
 Actively motile by means of flagella-like filaments called axial filaments.
 Gram negative (Gram stain is rarely used to identify spirochetes.)
 best recognized by dark field microscopy
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Spirochetes
 Three genera are human pathogens:
 Treponema
 causes syphilis, bejel, yaws, pinta and, in the oral cavity, acute necrotizing
ulcerative gingivitis (together with fusobacteria)
 Leptospira
 causes leptospirosis
 Borrelia
 causes relapsing fever and Lyme disease
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Treponema

Treponema pallidum

 Tryponema live in the oral cavity, intestinal tract, and perigenital regions of
humans and animals
 Pathogens are strict parasites with complex growth requirements
 Extremely fastidious and sensitive; cannot survive long outside of the host
 Require live cells for cultivation
 Sexually transmitted and transplacental

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Syphilis
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Syphilis
 Primary syphilis – appearance of hard chancre at site of inoculation;
chancre heals spontaneously
 Secondary syphilis – fever, headache, sore throat, red or brown rash
on skin, palms, and soles; rash disappears spontaneously

Spirochete appears in lesions and blood during primary and
secondary stages – communicable

Primary syphilis lesion, chancre Symptom of secondary syphilis

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Syphilis
Latent stage
 The infection remains dormant (latent)
 Usually 2 years
 Without any clinical symptoms (asymptomatic) but with positive serology

 Tertiary syphilis – about 30% of infections enter in tertiary stage; can last
for 20 years or longer; numerous pathologic complications occur in
susceptible tissues and organs
 Neural, cardiovascular symptoms,
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Spirochetes
Syphilis

 Congenital syphilis
 skin eruptions, bone deformation, nervous system abnormalities

Congenital syphilis
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Syphilis: Diagnosis

–symptoms, history,
–T. pallidum cannot be cultured.
Microscopic examination
–Dark-field microscopic identification of bacteria
–Staining with fluorescent-labeled, monoclonal antibodies

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Syphilis: Diagnosis
Serological diagnosis
 Nontreponemal tests
 measure anti-treponemal antibody using a cross reactive cardiolipin as an
antigen rather than the actual bacterial antigens.
 VDRL (Venereal Disease Research Laboratories)
 RPR (Rapid Plasma Reagin)

 Treponemal antigen tests
 rely upon antigens derived directly from T. pallidum.
 TPHA : Treponema pallidum hemagglutination assay
 FTA-ABS or fluorescent treponemal
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antibody-absorption test
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Leptospira

 Leptospira interrogans and Leptospira biflexa are the recognized species
 Leptospira are found in damp environments such as still water and wet soil.
 The kidneys of some rodents and domestic animals act as a reservoir for
L. interrogans.
 The urine of these animals serves as a vehicle of transmission of human
leptospirosis.
 The symptoms of leptospirosis are vary from mild febrile illness to fatal
attacks of jaundice and renal failure.
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Leptospira Transmission

 infected urine
rodents - Bacteria multiply in proximal convoluted
farm animals tubules of kidney, shed in urine
- infected urine --means of transmission
 water - humans recovering from leptospirosis
shed organisms for days to weeks
 through broken skin. - domestic animals, rodents may shed
 Incubation period for life
 Average 10 days (4-20 days) 12
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Leptospira : Leptospirosis

symptoms
- flu-like
- severe systemic disease
* kidney
brain
Liver : hepatitis, jaundice
Eye: red eye

Leptospira interrogans
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Leptospirosis : Diagnosos

 Dark-field microscopy
 serology
 most readily culturable of spirochetes
– culture still extremely difficult
 Blood specimen (1st week) --> aseptic meningitis, hepatitis, jaundice and
hemorrhage in liver
 Uremia and bacteriuria in kidney
 Urine specimen (2nd and 3rd week)

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Borrelia

 Borrelia burgdorferi
 Found in ticks and small mammals, particularly deer. Transmission is by a
tick vector.
 The agent of Lyme disease, a generalized infection with neurological
and cardiac manifestations and arthritis.

bull's eye rash
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17 Borrelia
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Acid Fast Bacteria

Mycobacterium
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Mycobacterium

Acid fast bacilli [AFB]
Thick, lipid-rich, waxy cell wall

Mycobacterium tuberculosis
Mycobacterium leprae
Mycobacterium avium-intracellulaire complex (MAC) or
(M. avium)
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Lipid-Rich Cell Wall of Mycobacterium
Mycolic acids

Unusual cell wall lipids
(mycolic acids,etc.)

(Purified Protein Derivative)

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Mycobacterial Clinical Syndromes

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Mycobacterium tuberculosis

 Facultative intracellular pathogen
 survive within unactivated macrophage
 uses phagocytic vacuole for survival and replication
 prevents fusion of phagosome with lysosome
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Mycobacterium tuberculosis

Tuberculosis (TB)

 Tuberculosis is a chronic granuloma,
chronic inflammation lesion with many types of cells
 Usually affects lung, but many other organs may be affected.
 Incidence is increasing due to emergence of AIDS cases.
 Immune response is cell-mediated immunity.
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How Is Tuberculosis (TB) Transmitted?

 Person-to-person through the
air by a person with TB disease
of the lungs

Source: CDC, 2000
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Progression of Tuberculosis
M. tuberculosis can survive within unactivated macrophages
Activated macrophages can kill the bacteria
Individual’s immunological response determines the outcome of exposure

Healthy individual exposed to low dose
activated macrophages stop infection
Individuals unable to mount a rapid response
bacteria multiply in lung macrophages
phagocytes attracted to site of infection
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Mycobacterium tuberculosis

Progression of Tuberculosis
Bacteria in tubercles may survive for decades (latency)
Suppression of immune system may allow bacteria to break out of
lesions and multiply (reactivation)
Old age, cancer, immunosuppressive drugs and HIV infection can
lead to reactivation
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Typical Progression of Pulmonary Tuberculosis

 Granuloma formation with fibrosis
 Caseous necrosis
Tissue becomes dry & amorphous (resembling cheese)
Mixture of protein & fat (assimilated very slowly)
 Calcification
Ca++ salts deposited

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Mycobacterium tuberculosis

 Primary infection / not all bacilli died some remain dormant
 Few cases  disseminate  meninges, bone, joint, kidney
(Miliary Tuberculosis)

Post-Primary Tuberculosis
 Reactivation or Reinfection
 Same granulomatous reaction but more tissue necrosis
 Bacilli gain access to sputum
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Spread of TB to Other Parts of the Body

1. Lungs (85% all cases)
2. Central nervous system
(e.g., brain, meninges)
3. Lymph nodes
4. Genitourinary system
5. Bones and joints
6. Disseminated
(e.g., miliary)

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Clinical Symptoms of Tuberculosis

 severe weight loss
 night sweats
 chronic cough (often with blood)
 Fever
 malaise (loss of energy)
 progressive lung damage
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Laboratory Diagnosis

Eight Week Growth of
Mycobacterium tuberculosis
on Lowenstein-Jensen Agar

Nucleic acid probes 30

Nucleic acid sequencing
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Mycobacterium tuberculosis

Tuberculin Test
Test done by using Purified Protein Derivative [PPD]
Intracutaneous injection  Mantoux method
Used to identify patients who are infected, they may
or may not have the disease

Tuberculin + (skin test) means
person has cell mediated immunity to M. tuberculosis
* active infection
* have been vaccinated
* prior infection
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Treatment and Control of Tuberculosis

Treatment Regimen
 Rifampicin + Isoniazid + Pyrazinamide + ehambutol

Control of Tuberculosis

 Early detection & effective treatment
 Vaccination/ BCG
a living attenuated vaccine - -Derived from M. bovis
 Chemoprophylaxis
Persons contact with active TB
 Isoniazid alone
 Skin test
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Mycobacterium leprae

Leprosy
 Infection often causes severe disfigurement & deformity
 Incubation periods; 2-20 years.

Description
 Acid fast bacilli
 Cannot grow in any type of artificial media or in vitro
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Mycobacterium leprae

Pathogenesis
 Target is nerve cells  Nerve damage
 The progression of the disease is determined by immune
response to the bacilli
 Tuberculoid Leprosy
 few bacilli & strong immune reaction
 Lepromatous Leprosy
 Many bacilli & no immune response
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Forms of leprosy

-Tuberculoid leprosy
* organisms in well-contained
granulomatous lesions in tissue
Lepromatous Leprosy
(Early/Late Stages)
- Lepromatous leprosy
* more serious disfigurement, nodular swelling
* related to slow fibrosis of peripheral nerves, with anesthesia
* shortening of toes and fingers in response to repeated unfelt trauma:
spontaneous amputations often occur (sloughing) 35
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Laboratory Diagnosis

Smears from sub-epidermal skin sections
Acid fast stain
lepromin skin test ----->
positive - tuberculoid leprosy
negative - lepromatous leprosy
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Mycobacterium avium-intracellulaire Complex
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M. avium-intracellulaire
Complex (MAC)
Progression vs. CD4
Count in AIDS Patients

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Atypical Bacteria

Rickettsiae, Chlamydia, Mycoplasma

a miscellaneous group of organisms with
properties common to both bacteria and viruses

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Rickettsia
 Obligate intracellular parasites
 Gram stain poorly, but appear to be Gram-negative cell wall
 Non motile pleomorphic rods or coccobacilli 0.3-0.7 µm x 1.5-2 µm
 cannot be grown on laboratory media
 obligate intracellular parasites that can grow in both phagocytic and
nonphagocytic cells.
 Ticks, fleas, and lice are involved in their life cycle
 transmitted by the bite of an infected arthropod vector
 Rickettsia :
 typhus fever,
 spotted fever
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The Rickettsiae
Typhus (ไข้รากสาดใหญ่), spotted fever;
transmitted by the bite of an infected arthropod vector
vesicular with pox-like progression
- rickettsial pox

Diagnosis
serology
Weil-Felix test
antibodies cross-react with antigens from Proteus
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Chlamydia

 Small obligate intracellular parasites

 Alternate between 2 stages:

 Elementary body – small, metabolically inactive, extracellular,
infectious form released by the infected host

 Reticulate body – noninfectious, actively dividing form, grows
within host cell vacuoles
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Developmental Cycle of Chlamydia

 EB bind to host cells
 Epithelial
 Macrophage
 Reorganization into RB
 Growth of RB
 Reorganization into EB
 Inclusion bodies
 Release of EB
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Chlamydia trachomatis

 Trachoma (ริดสีดวงตา) – attacks the mucous membranes of the
eyes, genitourinary tract, and lungs
 Ocular trachoma – severe infection, deforms eyelid and cornea, may
cause blindness
 Inclusion conjunctivitis – occurs as baby passes through birth canal;
prevented by prophylaxis
 Sexually transmitted diseases (STD) – second most prevalent
STD; urethritis, cervicitis, Pelvic inflammatory disease (PID), infertility
 Lymphogranuloma venereum – disfiguring disease of the external
genitalia and pelvic lymphatics
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Chlamydia trachomatis

 Trachoma
 Inclusion conjunctivitis
 Associated with genital chlamydia
 Mucopurulent discharge
 Corneal infiltrates, vascularization and scarring can occur
 In neonates infection results from infected birth canal
 Apparent 5-12 days after birth
 Ear infection and rhinitis often accompany ocular disease
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Lymphogranuloma Venereum
C. Trachomatis (Biovar: LGV)

 First stage
 Small painless vesicular lesion at infection site
 Fever, headache and myalgia
 Second stage
 Inflammation of draining lymph nodes
 Fever, headache and myalgia
 Buboes (rupture and drain)
 Ulcers
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Mycoplasma
- Smallest known free-living organisms (0.15-0.3 µm.)

 2 medically important species
 M. pneumoniae – primary atypical pneumonia; pathogen slowly
spreads over interior respiratory surfaces, causing fever, chest pain,
and sore throat
 M. hominis - Genital tract infections
 Morphology and cultural characteristics
 Do not possess the distinctive cell wall of bacteria
 Having sterols in the cytoplasmic membrane
 highly pleomorphic
 Require special lipids from host membranes
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Mycoplasma pneumoniae

- Infects upper and lower respiratory tract
- Primary atypical pneumonia : walking pneumonia
: slow to develop
: incubation period up to 3 weeks
: fever, headache, cough
Common in children and young adults
- Mechanism of transmission : Sneezing, coughing
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Mycoplasma pneumoniae

 Clinical significance
 the major cause of primary, atypical pneumonia (walking pneumonia)
 Transmitted by droplet infection
 After a 2-3 week incubation, the disease begins as a mild, upper
respiratory tract infection and progresses to fever, headache, malaise,
and a dry cough which is usually mild and self-limited.
 3-10% develop clinically apparent pneumonia with occasional
complications of arthritis, rashes, cardiovascular problems, or
neurological problems.
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Mycoplasma pneumoniae
LABORATORY DIAGNOSIS

1. Culture
- throat swab, sputum
- selective agar supplemented with serum and antibiotics
- colonies ----> “fried egg” appearance
2. Serodiagnosis
- antibody titer
- Cold agglutinin test
- Complement fixation test
3. Rapid diagnosis
- Immunoassay
- DNA probe, PCR 50
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Mycoplasma pneumoniae
LABORATORY DIAGNOSIS

 Cold agglutinin test – a nonspecific test in which the patient produces
cold reacting antibodies that agglutinate type O human RBCs at 40 C,
but not at 370 C

 A single titer of 1:128 is significant and occurs in 7 days and disappears in
6 weeks.
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