Choice of Antimicrobial Agent:

• Choice of antimicrobial agent depend on the peculiarities of infecting organism, the drug and the patient.
• Aim of chemotherapy is to produce selective action on the infecting organism for a desirable period with least effect on host animal.

1. Organism related factors:

a. Target organism

b. Sensitivity pattern

a. Target organism:

• Identification of target organism is first step in selection of antimicrobial agent.
• Identification can be made from historical data and experience or based on organism identified by culture at the site of infection.
• Culture, biochemical test, staining are important methods in determining target organism.

b. Sensitivity pattern:

• Important in selecting right antimicrobial drug.
• Most commonly used method to test susceptibility to antimicrobials has been disc-diffusion or Kirbey-Bauer technique.
• Useful when there is wide variation in susceptibility of organism of different strains to drugs.

2. Drug-related factors:

 a. Spectrum of activity:

• When causative agent has been identified and its sensitivity towards drugs is determined, a narrow spectrum antimicrobial drug is preferred.
• When bacteriological services are not available or treatment cant be delayed broad spectrum antimicrobials drug is preferred.
• Polymicrobial infection may require broad spectrum agent or combination of two or more agent.

b. Type of activity:

• Bactericidal drugs are preferred in life threatening conditions, endocarditis, infection at less accessible sites, impaired host defence and when carrier state is possible.
• Bacteriostatic drugs are preferred only when host immunity is strong and body system are functioning normally.

c. Pharmacokinetic profile:

• Determines effective concentration of drug at site of infection for adequate length of time.
• Antibacterials such as chloramphenicol and macrolides are extensively metabolised in liver so not utilized in UTI.
• Fluoroquinolones have excellent tissue penetration and attain high concentration in body tissues.
• Sulphonamides and chloramphenicol readily enter into CSF, whereas penicillins and aminoglycosides penetrate poorly into CSF.

d. Route of administration:

• all routes of administration are not possible for all drugs available.
• In critically ill patient, parenteral route, particularly IV is preferred.
• Oral administration of anti-microbial agent (AMA) is preferred for long-term administration for non-hospitalized animals.

e. Drug interactions:

• Antimicrobial are often used in combination with other drugs such as analgesic and anti-inflammatory drug.
• Some drug may enhance toxicity of antimicrobial agents or reduce efficacy.
• For ex; NSAID enhance CNS toxicity of fluoroquinolones.

f. Relative toxicity:

• Penicillin are least toxic among antimicrobials so preferred over aminoglycosides and chloramphenicol.
• Chloramphenicol and aminoglycosides are reserved for life-threatening conditions.

g. Antimicrobial policy:

• Selection of antimicrobial agent also depends on pre-determined policy so that bacterial resistance to drug may be minimised.
• Main aim of antimicrobial policy:

i. Morbidity & mortality due to antimicrobial resistant infection

ii. Preserve the effectiveness of antimicrobial agent in treatment

iii.  Prevention of communicable disease.

• Certain AMA like fluoroquinolones are not recommended in food animals due to apprehension of developing bacterial resistance in humans.

3. Host factors:

a. Host defence mechanism:

• Elimination of infecting organism depends on the integrity of host defence mechanism.
• Higher doses and longer therapy are required to eliminate organism in immunocompromised host.

b. Pathologic conditions:

• Conditions like renal insufficiency, hepatic dysfunction, and meningitis alter response of drug and toxic potential of some antimicrobial drug.

Renal disease: renal disease may cause accumulation of drug in kidney.

Hepatic dysfunction: antimicrobial which undergo hepatic metabolism are contraindicated in patients with liver disease.

Meningitis: penicillins should not be used in meningitis because they concentrate more in CNS and increases chances of CNS seizures.

c. Local factors:

i. Pus

Reduce efficacy of antimicrobial agents especially sulphonamid-es & aminoglycos-ides

ii. Haematomas

Favour bacterial growth and impair antimicrobial

iii. pH

Determine the efficacy of drugs. Ex; aminoglycosides are more active in alkaline urine. Penicillins are inactivated in acidic pH.

d. Age:

• Neonatal have low renal excretion & hepatic elimination of drug.
• Tetracyclines are contraindicated in young animals because they accumulate in developing bone and teeth and discolour & weaken them.

e. Species:

• Tetracyclines by any route are associated with enterocolitis in horses, subjected to stress.
• Cats are more susceptible to chloramphenicol toxicity due to deficient glucuronide conjugation.

f. Pregnancy:

• Antimicrobials should be avoided in pregnant animals because they crosses placenta.
• Aminoglycosides carry risk of hearing loss and tetracyclines can cause inhibition of bone growth in foetus.

g. Genetic factors:

• genetic abnormalities must be considered while choosing antimicrobial drugs.
• For ex: sulphonamides and chloramphenicol may produce acute hemolysis in patients with Glucose-6-phosphate dehydrogenase deficiency.