The following points highlight the four main procedure for identification of bacterial culture. The procedure are: 1. Examination of Solid Media 2. Examination of Liquid Medium 3. Primary Diagnosis 4. Final Identification/Confirmation of Bacteria.
Bacterial Culture: Procedure # 1. Examination of Solid Media:
The medium and colonial appearance of bacterial growth is to be identified. It is useful for provisional identification of bacteria. Study a Gram’s-stained smear of bacteria and observe staining reaction and microscopic morphology of bacteria.
1. Medium:
Usually nutrient agar, blood agar or MacConkey’s agar.
2. Colony morphology (Fig. 6.2):
i. Size:
Pinpoint (streptococcus), pinhead (staph.), large (Klebsiella), moderately large (E. coli), Small (Shigella) etc.
ii. Shape (Fig. 6.2):
Dome (Staph), flat (vibrio), low convex (Salmonella, Shigella), droughtsman (S. pneumoniae), convex (Klebsiella, E.coli) irregular (Bacillus) etc.
iii. Surface (Fig. 6.2):
Rough (Some Neisseria, Bacillus), matt (E. coli), ridged (Pseudomonas) smooth (Salmonella) etc.
iv. Margin (Fig. 6.2):
Entire (Salmonella), irregular (Pseudomonas), crenated (Bacillus), spreading (Proteus) etc.
v. Translucency:
Opaque (Staph), transparent (Vibrio), semi-translucent (Salmonella).
vi. Pigment:
Golden yellow (Staph aureus), bluish- green (Pseudomonas), brick-red (Serratia marcescens).
vii. Pigment restricted to colony — Staph, Micrococcus, Serratia.
viii. Pigment diffused in medium — Pseudomonas.
ix. Haemolysis — Beta haemolysis (S. pyogenes), alfa haemolysis (S. pneumoniae).
x. Haemodigestion — Proteus, Pseudomonas etc.
xi. Consistency — Mucoid (Klebsiella), butyrous (Staph), friable (some Neisseriae), firm (Bacillus), Sticky (V. parahaemolyticus).
3. Gram stained smear examination:
(i) Staining reaction:
Gram-positive/Gram-negative/Gram-variable.
(ii) Microscopic morphology (Fig. 6.1) — Note the following:
a. Shape— rod (E. coli etc.), spherical or cocci (Staph etc.), coccobacilli (Brucella etc.), comma (Vibrio).
b. Length/Size— long (E. coli), short (Klebsiella etc.), large (Micrococcus), small (Streptococcus) etc.
c. Width — stout (E. coli, Bacillus), slender (Salmonella) etc.
(iii) Unstained space for spore (Bacillus, Clostridium).
(iv) Ends — rounded (E. coli), square cut (bacillus), tapered (diphtheroid).
(v) Sides — parallel, un-parallel and irregular.
(vi) Inclusion granules.
Bacterial Culture: Procedure # 2. Examination of Liquid Medium:
Follow these steps:
i. Identify the liquid medium.
ii. Note the bacterial growth pattern.
iii. Examine the motility and morphology (if possible) in hanging drop preparation.
1. Identification of liquid culture medium:
i. Peptone water:
No tinge of colour. Most of the non-fastidious bacteria are grown and supplied in it.
ii. Glucose in nutrient broth:
All broths show straw/yellowish-blue. Usually growth of Streptococcus is supplied in this medium.
2. Bacterial growth pattern (Fig. 6.3):
i. Uniform turbidity: Example – most of the common gram negative rods.
ii. Uniform turbidity with surface pellicle formation: Examples — Strict aerobes like Vibrio, Pseudomonas and Bacillus concentrate near the surface.
iii. Deposit at bottom: Heavy bacteria form deposit leaving slight haze above. Example — Streptococcus.
3. Hanging drop preparation:
Note:
i. True/active motility or non-propagative brownian movement.
ii. If motile, characteristic of motility (e.g., darting and fish in stream by Vibrio cholerae, tumbling motility by Y. enterocolitica etc.)
iii. Morphology — rods are identifiable but cocci in cluster, discrete or in short chain are difficult to visualize (Fig. 6.4).
Bacterial Culture: Procedure # 3. Primary Diagnosis:
Colony character, medium on which growth appeared, pattern of growth in liquid medium, gram stained morphology and motility study generate clues for primary diagnosis and help to formulate scheme for confirmatory or final diagnosis.
Bacterial Culture: Procedure # 4. Final Identification/Confirmation of Bacteria:
This is done by:
1. Biochemical tests:
Sugar fermentation tests, utilisation pattern of amino acids, tests for some enzymes and metabolic pattern, ability to grow on synthetic medium, H2S production, indole production, MR-VP test, urease production, P.P.A deaminase test etc.
2. Slide agglutination test using high titre anti- sera.
3. Toxigenicity test or animal pathogenicity test.
4. Molecular method (hybridisation with DNA probe, detection of signature sequence in DNA and in 16S rRNA).
