Macroscopic and microscopic examination in bacteriology
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Transcript of Macroscopic and microscopic examination in bacteriology
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Macroscopic and microscopic examination in bacteriology
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Macroscopic examination of specimens
Where?: lab – area / room for receiving specimens
When?: upon receipt of specimen
Why?:
1. Assess adequate/inadequate collection and transport
2. Orientation of diagnosis
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Macroscopic examination: 1. Assessment of collection & transport
• Integrity of package and sample container
• Quantity: adequate for required tests
• Colour: • blue(ish) urine →prior administration of urinary antiseptics• red(ish) serum – hemolysis →improper collection and storage• turbid serum with filaments→bacterial contamination (improper
collection and/or storage)
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Macroscopic examination: 2. Orientation of diagnosis
Cerebrospinal fluid (CSF)- Normal aspect: clear liquid - Pathologic aspects: colour, turbidity, deposits, clots
e.g.
fever, headache, neck stifness, photophobia + turbid CSF → (presumptive) bacterial meningitis
fever, headache, neck stifness, photophobia + clear CSF → (presumptive) viral meningitis
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Macroscopic examination: 2. Orientation of diagnosis
Pus- Colour – depends on presence of bacterial pigment
e.g.
Staphylococcus aureus – creamy, yellow pus
Pseudomonas aeruginosa – blue-greenish pus
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Staphylococcus aureus: creamy, yellow pus
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Pseudomonas aeruginosa – blue-greenish pus
• Skin graft infected with
Pseudomonas aeruginosa• Pyocyanin – blue pigment
produced by Ps.aeruginosa
(pyocyanic bacillus)
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Macroscopic examination: 2. Orientation of diagnosis
Urine- Colour, turbidity - presence (and type) of
sediment- blood (hematuria)- pus (pyuria)
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Macroscopic examination: 2. Orientation of diagnosis
Sputum- colour, consistency, adherence, presence of pus
e.g. - ”rusty” red - pneumococcal pneumonia (presence of
blood/blood pigments)
- bright red – tuberculosis (hemoptisys)
- yellowish – white – presence of white blood cells (infection)
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Macroscopic examination: 2. Orientation of diagnosis
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Macroscopic examination: 2. Orientation of diagnosis
Faeces (stool)- colour, - consistency, - presence of blood traces, mucus, pus – might indicate
Salmonella, Shigella infections
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Microscopic examination
• Light (bright) field microscopy• Dark field microscopy• Phase contrast microscopy• UV microscopy
• Fluorescence microscopy
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Light (bright) field microscopy
to the eye↑
2nd magnification lens (ocular / eyepiece)
↑1st magnification 10x, 40x, 100x (objective lens)
↑SPECIMEN
↑Condenser
↑Light from incandescent source
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Light (bright) field microscopy
Objective lenses:
• 10 x – general overview of sample• 40 x – ”large” microorganisms: fungi, parasites• 100 x - bacteria
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Light (bright) field microscopy
• Wet mounts (unstained materials)– Direct light
– Observation of cells (PMN, macrophages), mobile germs in liquid samples (urine, CSF), shape and disposition of germs (cocci/bacilli/spirilli/vibrios)
• Stained smears
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Wet mounts: Microscope glass slide and cover slip
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Wet mount – Vaginal secretion
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Stained smears
- Smear specimen on microscope glass slide - Dry (air)- Heat Fixation (flame): helps adhesion of
specimen to slide, kills bacteria, favours absorbtion of stain on bacterial surface
- Staining: - Monostaining e.g. Methylene blue
- Combined (2 dyes) e.g. Gram, Ziehl Nielsen
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Gram staining1. heat-fixed smear flooded with crystal violet (primary stain)2. crystal violet drained off and washed with distilled water 3. smear covered with ”Gram's iodine” (Lugol) (mordant or helper)4. iodine washed off: all bacteria appear dark violet or purple
5. slide washed with alcohol (95% ethanol) or an alcohol-acetone solution (decolorizing agent)
6. alcohol rinsed off with distilled water
7. slide stained with safranin, a basic red dye (counter stain) 8. smear washed again, heat dried and examined microscopically
Exact protocol – depending on the kit
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Gram staining
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Gram stained smear
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Streptococcus mutans – Gram stained smear
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Ziehl-Neelsen Staining
• Mycobacteria – impermeable to dyes due to high lipid and wax content of cell wall – usual staining techniques (e.g. Gram) cannot be used
• heat and phenol (carbolic acid) help penetration of dye inside mycobacterial cells
• gold standard for diagnosis of tuberculosis and leprosy
• + Nocardia, Cryptosporidium
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Ziehl-Neelsen Staining
• used for Mycobacterium tuberculosis and Mycobacterium leprae = acid fast bacilli: stain with carbol fuschin (red dye) and retain the dye when treated with acid (due to lipids i.e. mycolic acid in cell wall)
Reagents• Carbol fuchsin (basic dye) - red• Mordant (heat)
• 20% sulphuric acid (decolorizer) – acid fast bacilli retain the basic (red) dye
• Methylene blue (counter stain) – the other elements of the smear, including the background will be blue
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Mycobacterium tuberculosis - Ziehl-Neelsen Staining
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Mycobacterium tuberculosis – Ziehl Neelsen staining from culture
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Mycobacterium avium – Ziehl Neelsen staining
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Giemsa staining
• Smears from blood, vaginal / urethral secretion, bone marrow aspirate
Steps:- Fixation with methanol (2-3 min)- Coloration with Giemsa solution (20 min)
- Washing – buffered water
- Drying- Microscopic examination (immersion)
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Malaria parasites in blood smear (Wright/Giemsa staining)
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Dark field microscopy
• Special condenser – alows light to enter only at the periphery of the objective
• Used for examination of not stained cells, components of microorganisms (e.g. cilia, flagella):– wet mounts performed directly of biological products (e.g.
Treponema pallidum in syphilis primary lesions, Leptospira in urine samples)
– Liquid bacterial cultures – to monitor bacterial growth – Bacteria that cannot be stained by conventional methods e.g.
Borrelia burgdorferi (Lyme disease)
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Treponema pallidum – dark field microscopy
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Spirochetes – wet mount by dark field microscopy
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Leptospira – dark field microscopy
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Borrelia burgdorferi – dark field microscopy
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Phase contrast microscopy
• optical microscopy that converts phase shifts (invisible) in light passing through a transparent specimen to brightness changes (visible when shown as brightness variations)
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Phase contrast microscopy
Allows observation of living cells 1953: Frits Zernike awarded
the Nobel prize (physics)
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UV microscopy
• Light source: ultraviolet light instead of white light • UV light wavelength = 180 - 400 nm• White light wavelength = 400 – 700 nm - allows visibility of smaller microorganisms (smaller
wavelength → smaller resolution power)
- allows observation of substances absorbed by microorganisms (become fluorescent under UV light)
- UV radiations - not visible→images impressed on photographic film (image converter tube) / captured by phototube and projected on screen
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UV microscopy
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Fluorescence microscopy
• very similar to UV microscopy• based on the property of some substances to produce
fluorescence after absorbing UV light• microorganisms stained with fluorescent dye
(fluorochrome) → produce fluorescent images through UV microscope
• Immunofluorescence: culture of bacteria incubated with a specific antibody coupled with fluorescent dye; the dye-coupled antibody will cover the surface of respective bacteria; under UV light bacteria covered with antibodies coupled with fluorescent dye will produce fluorescence
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Treponema denticola – wet mount, dark field microscopy + fluorescent dye staining
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Microscopy for various biological specimens
• CSF: – wet mounts – assess type & no of cells (white/red blood cells)– Stained smears from centrifugation sediment: Gram, Ziehl-
Neelsen + aditional smear
– Presumptive causative agents:• High no of PMN on wet mount→ bacterial meningitis Neisseria
meningitidis, Haempohilus influenzae• Ziehl-Neelsen stained smear – very important in case
M.tuberculosis is suspected (cultures take 2-3 weeks)
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Microscopy for various biological specimens
• Pus– Gram stained smears: PMN + staphylococci, streptococci
• Urine– Gram and Ziehl-Neelsen stained smears prepared from
sediment (after centrifugation of specimen)– Urinary infection: smear with germs + high no of PMN
• Sputum– Prewashing of specimen in several, successive Petri dishes (to
remove germs from the pharynx attached to sputum)– Gram (staphylococci, streptococci), Ziehl-Neelsen
(M.tuberculosis)