Agar dilution

Agar dilution is a method used in microbiology to determine the minimum inhibitory concentration (MIC) of antimicrobial agents against specific bacteria. This technique is a standard procedure in clinical laboratories for assessing the antibiotic resistance of bacterial isolates.

Principle[edit | edit source]

The principle of agar dilution involves incorporating different concentrations of an antimicrobial agent into a solid growth medium, typically agar, and then inoculating the surface with a standardized number of bacterial cells. The lowest concentration of the antimicrobial that prevents visible growth of the bacterium is considered the MIC.

Procedure[edit | edit source]

Preparation of Agar Plates[edit | edit source]

1. Selection of Medium: The choice of agar medium depends on the type of bacteria being tested. Commonly used media include Mueller-Hinton agar for non-fastidious organisms. 2. Incorporation of Antimicrobial Agent: The antimicrobial agent is diluted in a series of two-fold dilutions. Each concentration is mixed with molten agar and poured into petri dishes to solidify. 3. Control Plates: Plates without the antimicrobial agent are prepared as controls to ensure bacterial viability.

Inoculation[edit | edit source]

1. Preparation of Inoculum: A bacterial suspension is prepared from a fresh culture, adjusted to a specific turbidity, usually equivalent to a 0.5 McFarland standard. 2. Application to Agar: A multipoint inoculator or a manual method is used to apply a defined volume of the bacterial suspension onto the surface of each agar plate.

Incubation[edit | edit source]

- The inoculated plates are incubated at an appropriate temperature, typically 35-37°C, for 16-20 hours.

Interpretation[edit | edit source]

- After incubation, plates are examined for bacterial growth. The MIC is the lowest concentration of the antimicrobial agent that completely inhibits visible growth.

Advantages[edit | edit source]

- Quantitative Results: Provides precise MIC values, which are crucial for determining the appropriate dosage of antibiotics. - Standardization: Highly standardized, allowing for reproducibility and comparison across different laboratories.

Disadvantages[edit | edit source]

- Labor Intensive: Requires preparation of multiple agar plates and careful inoculation. - Time Consuming: Longer time to results compared to automated methods.

Applications[edit | edit source]

- Used in clinical microbiology laboratories to guide antibiotic therapy decisions. - Essential for antimicrobial resistance surveillance programs.

Comparison with Other Methods[edit | edit source]

- Broth Dilution: Similar in principle but uses liquid medium. Agar dilution is more labor-intensive but provides clearer endpoints. - Disk Diffusion: Simpler and faster but less precise than agar dilution.

See Also[edit | edit source]

• Antimicrobial susceptibility testing
• Broth microdilution
• Etest

External Links[edit | edit source]

• [CDC Guidelines on Antimicrobial Susceptibility Testing]