Add to ORKGA common method for measuring the drug-specic minimum inhibitory concentration (MIC) of an antibacterial agent is via a two-fold broth dilution test known as the MIC test. Because this procedure implicitly rounds data upward, inference based on unadjusted measurements is biased and overestimates bacterial resistance to a drug. We detail this test procedure and its associated bias, which, in many cases, has an expected value of approximately 0.5 on the log2 scale. In addition, new bias-corrected estimates of resistance are proposed. A numeric example is used to illustrate the extent to which the traditional resistance estimate can overestimate the true proportion of resistant strains, a phenomenon which is remedied by using the proposed esti...
SYNOPSIS Because they are cumbersome, tests to determine the quantitative susceptibility of organism...
The development of new antibiotics and the emergence of novel resistance mechanisms to counteract th...
<p>Note: (S) Strain susceptible to tested antibiotic.</p><p>(R) Strain resistant to tested antibioti...
The results of in vitro antibiotic susceptibility testing can predict the clinical response to treat...
Background Broth microdilution (BMD) is a gold-standard reference method to determine minimum inhibi...
Background Broth microdilution (BMD) is a gold-standard reference method to determine minimum inhibi...
ROUTINE antibiotic sensitivity tests require a simple technique in which the influences of its sever...
<p>Minimal Inhibitory Concentrations (MICs) determined from antibiotic resistance assays (<a href="h...
Few data are available to show how serum dilution test results correlate with results of antimicrobi...
BASIC programs have been written to analyse minimal inhibitory concentration (MIC) antimicrobial sus...
The Minimum Inhibitory Concentration (MIC) is the smallest concentration of an anti-microbial agent ...
Antibiotics are molecules that assist against bacterial infections by destroying the bacteria or pre...
<p>Antibiograms generated from growing each <i>Acinetobacter</i> strain in trypticase soy broth in t...
Determination of the minimum inhibitory concentration (MIC) of a drug that prevents microbial growth...
The global problem of resistance to antimicrobials has resulted in a co-ordinated drive to use antim...
SYNOPSIS Because they are cumbersome, tests to determine the quantitative susceptibility of organism...
The development of new antibiotics and the emergence of novel resistance mechanisms to counteract th...
<p>Note: (S) Strain susceptible to tested antibiotic.</p><p>(R) Strain resistant to tested antibioti...
The results of in vitro antibiotic susceptibility testing can predict the clinical response to treat...
Background Broth microdilution (BMD) is a gold-standard reference method to determine minimum inhibi...
Background Broth microdilution (BMD) is a gold-standard reference method to determine minimum inhibi...
ROUTINE antibiotic sensitivity tests require a simple technique in which the influences of its sever...
<p>Minimal Inhibitory Concentrations (MICs) determined from antibiotic resistance assays (<a href="h...
Few data are available to show how serum dilution test results correlate with results of antimicrobi...
BASIC programs have been written to analyse minimal inhibitory concentration (MIC) antimicrobial sus...
The Minimum Inhibitory Concentration (MIC) is the smallest concentration of an anti-microbial agent ...
Antibiotics are molecules that assist against bacterial infections by destroying the bacteria or pre...
<p>Antibiograms generated from growing each <i>Acinetobacter</i> strain in trypticase soy broth in t...
Determination of the minimum inhibitory concentration (MIC) of a drug that prevents microbial growth...
The global problem of resistance to antimicrobials has resulted in a co-ordinated drive to use antim...
SYNOPSIS Because they are cumbersome, tests to determine the quantitative susceptibility of organism...
The development of new antibiotics and the emergence of novel resistance mechanisms to counteract th...
<p>Note: (S) Strain susceptible to tested antibiotic.</p><p>(R) Strain resistant to tested antibioti...