Application of a mathematical model to prevent in vivo amplification of antibiotic-resistant bacterial populations during therapy
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ID: 110846
2003
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Abstract
The worldwide increase in the prevalence of multi-antibiotic-resistant bacteria has threatened the physician's ability to provide appropriate therapy for infections. The relationship between antimicrobial drug concentration and infecting pathogen population reduction is of primary interest. Using da …
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| Authors | Jumbe N;Louie A;Leary R;Liu W;Deziel MR;Tam VH;Bachhawat R;Freeman C;Kahn JB;Bush K;Dudley MN;Miller MH;Drusano GL;; |
| Journal | The Journal of clinical investigation |
| Year | 2003 |
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| Keywords |
National Center for Biotechnology Information
NCBI
NLM
MEDLINE
Mice
animals
pubmed abstract
nih
national institutes of health
national library of medicine
models
research support
non-u.s. gov't
female
mutation
drug resistance
multiple
time factors
inbred icr
microbial*
pseudomonas infections / drug therapy*
pmid:12865415
pmc164285
doi:10.1172/jci16814
nelson jumbe
arnold louie
george l drusano
anti-bacterial agents / pharmacology*
dose-response relationship
drug
kinetics
theoretical
monte carlo method
ofloxacin / pharmacology
pseudomonas aeruginosa / metabolism
pseudomonas aeruginosa / pathogenicity
quinolones / pharmacology
|
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