<p>Forecasting changes in the rate of appearance of Ceftazidime-resistant <i>E. coli</i> was performed over several time frames. Based upon data obtained from years 1996–1999, 1996–2000, 1996–2004 and 1996–2008, rates were predicted beginning with years 1999, 2001, 2005, and 2009, respectively. The year 1999 = predicted rates of infection in 1999–2012 based on data obtained from 1996–1998; 2001 = predicted rates of infection in 2001–2012 based on data obtained from 1996–2000; 2005 = predicted rates of infection in 2005–2012 based on the data obtained from 1996–2004; 2009 = predicted future rates of infection in 2009–2012 based on the data obtained from 1996–2008. For each time period analyzed, the obtained data were fitted to the model and ...
The increase in antibiotic resistance is a defining development in the treatment of infectious disea...
The increase of multidrug resistance and resistance to last-line antibiotics is a major global publi...
<p>At = actual drug resistance rate; D-R = calculated rates using the D-R model; Lower = lower limit...
<p>At = actual drug resistance rate; 1999 Ft(R%) = predicted infection rates between 1999–2012 based...
OBJECTIVE: To assess the efficacy of the D-R model for defining trends in the appearance of Ceftazid...
<p>At = actual data; D-R = rates forecasted using the D-R model; Upper and Lower = the limits of the...
Objectives: To determine the trend of bacterial resistance of Escherichia coli to Imipenem (IPM) and...
Objectives: To project future antimicrobial resistance (AMR) in Escherichia coli and Klebsiella pneu...
During the past 20 years, there have been numerous attempts to study the relationship between antimi...
In this project we set out to find when the resistance level against first line antibiotics would re...
BACKGROUND: Increasing antibiotic resistance may reciprocally affect consumption and lead to using b...
The frequency of resistance to antibiotics in <i>Streptococcus pneumoniae</i> has been stable over t...
The increase of multidrug resistance and resistance to last-line antibiotics is a major global publi...
This multi-panel figure shows the temporal increase in the abundance of resistance factors directed ...
The frequency of resistance to antibiotics in <i>Streptococcus pneumoniae</i> has been stable over r...
The increase in antibiotic resistance is a defining development in the treatment of infectious disea...
The increase of multidrug resistance and resistance to last-line antibiotics is a major global publi...
<p>At = actual drug resistance rate; D-R = calculated rates using the D-R model; Lower = lower limit...
<p>At = actual drug resistance rate; 1999 Ft(R%) = predicted infection rates between 1999–2012 based...
OBJECTIVE: To assess the efficacy of the D-R model for defining trends in the appearance of Ceftazid...
<p>At = actual data; D-R = rates forecasted using the D-R model; Upper and Lower = the limits of the...
Objectives: To determine the trend of bacterial resistance of Escherichia coli to Imipenem (IPM) and...
Objectives: To project future antimicrobial resistance (AMR) in Escherichia coli and Klebsiella pneu...
During the past 20 years, there have been numerous attempts to study the relationship between antimi...
In this project we set out to find when the resistance level against first line antibiotics would re...
BACKGROUND: Increasing antibiotic resistance may reciprocally affect consumption and lead to using b...
The frequency of resistance to antibiotics in <i>Streptococcus pneumoniae</i> has been stable over t...
The increase of multidrug resistance and resistance to last-line antibiotics is a major global publi...
This multi-panel figure shows the temporal increase in the abundance of resistance factors directed ...
The frequency of resistance to antibiotics in <i>Streptococcus pneumoniae</i> has been stable over r...
The increase in antibiotic resistance is a defining development in the treatment of infectious disea...
The increase of multidrug resistance and resistance to last-line antibiotics is a major global publi...
<p>At = actual drug resistance rate; D-R = calculated rates using the D-R model; Lower = lower limit...