However, it's usually best to treat a UTI with an antibiotic, or it could spread to the kidneys and lead to more serious problems. Once treated, there are steps you can take to stop UTIs coming back: do not use perfumed bubble bath, soap or talcum powder around your genitals - use plain, unperfumed products, and have a shower rather than a bath go to the toilet as soon as you need to pee and always empty your bladder fully stay well hydrated - aim to drink 6 to 8 glasses of fluid a day (water, lower-fat milk and sugar-free drinks, including tea and coffee, all count) wipe your bottom from front to back when you go to the toilet empty your bladder as soon as possible after having sex do not use a contraceptive diaphragm or condoms with spermicidal lubricant on them - use another type of contraception instead wear underwear made from cotton, rather than synthetic material like nylon, and avoid tight jeans and trousers. Although they won't do any harm, there's little evidence to show drinking cranberry juice or taking cranberry supplements helps treat or prevent UTIs.
Pharmacodynamic studies of amoxicillin against Streptococcus pneumoniae : comparison of a new pharmacokinetically enhanced formulation (2000 mg twice daily) with standard dosage regimens.
Inga Odenholt, Otto Cars, Elisabeth Lowdin, Pharmacodynamic studies of amoxicillin against Streptococcus pneumoniae : comparison of a new pharmacokinetically enhanced formulation (2000 mg twice daily) with standard dosage regimens, Journal of Antimicrobial Chemotherapy , Volume 54, Issue 6, December 2004, Pages 1062–1066, https://doi.org/10.1093/jac/dkh484. Objectives : To compare the pharmacodynamic effects of a pharmacokinetically enhanced formulation of amoxicillin 2000 mg twice daily, with amoxicillin 875 mg twice daily, 875 mg three times daily and 500 mg three times daily against Streptococcus pneumoniae with different susceptibility to amoxicillin in an in vitro kinetic model.
pneumoniae with amoxicillin MICs of 1, 2, 4 and 8 mg/L at an initial inoculum of approximately 10 5 cfu/mL were exposed to amoxicillin in an in vitro kinetic model simulating the human serum concentration–time profile of the pharmacokinetically enhanced formulation twice daily ( C max 17 mg/L after 1.5 h).
All isolates were also exposed to amoxicillin with concentration–time profiles correlating to the human dosage of 875 mg twice daily ( C max 15 mg/L after 1 h), 875 mg three times daily and 500 mg ( C max 8 mg/L after 1 h) three times daily with simulated half-life of 1 h. Repeated samples were taken regularly during 24 h and viable counts were carried out. Results : Overall, the pharmacokinetically enhanced formulation was more effective at reducing bacterial counts than any of the other formulations evaluated.
Eradication was achieved with the enhanced formulation for strains with a MIC of ?2 mg/L, however, regrowth occurred with the other dosing regimens. In the experiments with the strain with a MIC of 4 mg/L, the enhanced formulation kept the bacterial counts ?10 2 cfu/mL for at least 14 out of 24 h tested.
In contrast, none of the other formulations reduced the bacterial counts down to ?10 2 cfu/mL at any point. None of the regimens was able to eradicate the strain with an MIC of 8 mg/L, even though an initial substantial kill was noted with the enhanced formulation after both doses.
The least effective dosage regimen for all strains was 875 mg twice daily. Amoxicillin/clavulanate is a broad-spectrum antibiotic for the treatment of a wide range of bacterial infections.
Different dosage regimens of amoxicillin and clavulanic acid are currently used in clinical practice.
1, 2 A pharmacokinetically enhanced formulation of amoxicillin/clavulanate (2000/125 mg) has recently been introduced.
2 The rationale behind this development is to optimize pharmacokinetic/pharmacodynamic (PK/PD) parameters to combat the increasing resistance reported in Streptococcus pneumoniae . In general, ?-lactam antibiotics are known to exhibit time-dependent killing and their efficacy is mainly dependent on the time that the free (non-protein-bound) concentration stays above the MIC ( t > MIC).
The exact fraction of the dosage interval during which this concentration should be exceeded for optimal clinical efficacy is, however, not known and may vary according to the type of ?-lactam antibiotic and the site of infection.
6– 12 In a recent study published in 2001, using an in vitro kinetic model, we showed that the t > MIC needed to obtain maximal efficacy of amoxicillin against susceptible S. pneumoniae was approximately 60% for a strain with an MIC of 2 mg/L.
13 The aim of the present investigation was to compare, in an in vitro kinetic model, the pharmacodynamic effects of a pharmacokinetically enhanced formulation of amoxicillin 2000 mg twice daily with amoxicillin 875 mg twice daily, 875 mg three times daily and 500 mg three times daily against S.
pneumoniae with different susceptibility to amoxicillin.
Amoxicillin and clavulanic acid were provided by GlaxoSmithKline (Collegeville, PA, USA). The antibiotic and clavulanic acid were obtained as reference powders with known potency.
Amoxicillin was dissolved in 0.5 mL of 0.1 M sodium hydroxide and 0.5 mL of phosphate-buffered saline (pH 7.4). The clavulanate was dissolved in 0.1 M phosphate buffer (pH 6.0). pneumoniae 1855, 40932, A13/96 and 542-2003 with different susceptibilities to amoxicillin. The strain 1855 was obtained from the Swedish Institute of Infectious Disease Control, Solna, Sweden and the other three from the Department of Microbiology, Uppsala, Sweden.
Before each experiment, the strains were grown for 6–7 h at 37°C in air with 5% CO 2 in Todd–Hewitt broth (Difco Laboratories, Detroit, MI, USA), yielding an inoculum of approximately 10 8 cfu/mL. Determination of minimum inhibitory concentrations (MICs) The MICs of the strains were determined in fluid media by a macro-dilution technique in duplicate on different occasions according to the National Committee for Clinical Laboratory Standards.
14 Two-fold serial dilutions of amoxicillin were added to Todd–Hewitt broth and inoculated with a final inoculum of 10 5 cfu of the test strain per mL and incubated at 37°C for 22 h. The MIC was defined as the lowest concentration of the antibiotic allowing no visible growth. Determination of MIC was carried out in duplicate on different occasions.
Determination of the concentrations of amoxicillin.
The concentrations of amoxicillin were determined by microbiological agar diffusion methods, using Bacillus stearothermophilus ATCC 3032 as the test organism. A standardized inoculum of spore suspension was mixed with nutrient agar, adjusted to pH 7.4 and plates poured.
After drying the plates, 0.01 or 0.03 mL volumes of all samples and standards diluted in Todd–Hewitt broth were placed in agar wells and three parallel determinations were made.
15 The limit of detection was 0.1 mg/L for amoxicillin. The correlation coefficient for the standard curves was always >0.99 and the coefficient of variation on samples analysed on different days was 9%.
A previously described in vitro kinetic model was used in these experiments.
13, 16– 18 It consists of a spinner flask with a 0.45 ?m filter membrane and order amoxicillin without prescription a pre-filter fitted in between the upper and the bottom part.
A magnetic stirrer ensures homogeneous mixing of the culture and prevents membrane pore blockage. In one of the sidearms of the culture vessel, a silicon membrane is inserted to enable repeated sampling. In the other arm, a thin plastic tube is inserted, which is connected to a vessel containing fresh medium.
The medium is removed from the culture flask, through the filter, at a constant rate with a pump. Fresh sterile medium is sucked into the flask at the same rate by the negative pressure built up inside the culture vessel.
The dosing system consists of a computer-controlled infusion pump, which is connected to a personal computer. The infusion pump is controlled by newly developed computer software (ARUDose 2, Snowfall Communications, Uppsala, Sweden).
The software is programmed to infuse the drug at an exponentially decreasing rate C = ( V 0 ? k a ) ? e –kat where C is the infusion rate, V 0 is the initial volume in the syringe, k a the constant of the absorption rate and t is the time elapsing since the addition of the antibiotic.
In the software, the volume of the antibiotic, the rate of absorption ( K a ), the diameter of the syringe and the infusion rates at which the infusion pump should terminate is entered.
The apparatus was placed in a thermostatically controlled room at 37°C during the experiments.
To determine the possible role of clavulanic acid in the killing of S. pneumoniae , 10 an initial experiment with strain A13/96 (MIC of 4 mg/L) was carried out. The strain was exposed to a constant concentration of 15 mg/L of amoxicillin ± 3 mg/L clavulanate and killing curves during 24 h were performed.
No difference in the rate or extent of killing between the two regimens was seen and therefore clavulanate was left out in the following experiments (data not shown). pneumoniae at an initial inoculum of approximately 10 5 cfu/mL were exposed to amoxicillin with a concentration–time profile simulating human serum levels of the pharmacokinetically enhanced amoxicillin/clavulanate formulation (obtained from GlaxoSmithKline) 2000/125 mg twice daily (amoxicillin C max 17 mg/L after 1.5 h). 19 Experiments were carried out three times with each strain. All isolates were also exposed to amoxicillin with concentration–time profiles correlating to the human dosage of 875 mg twice daily ( C max 15 mg/L after 1 h), 875 mg three times daily and 500 mg ( C max 8 mg/L after 1 h) three times daily with simulated half-life of 1 h. These experiments were carried out in duplicate with each strain.
During the experiments simulating 875 mg three times daily, 500 mg three times daily and 2000 mg twice daily (enhanced formulation), repeated samples for viable counts were taken at the start of the experiments and every second hour up to 18 h
and at 24 h. For the enhanced formulation, samples were also taken after 1 and 13 h.
For the 875 mg twice-daily dosage regimen, samples were taken at the start of the experiments, every second hour up to 14 h and at 24 h. The samples were, if necessary, diluted in phosphate-buffered saline and three dilutions of each sample were spread on blood agar plates (Colombia agar base with 5% horse blood) incubated at 37°C in 5% CO 2 in air and counted after 24 h.
The limit of detection of the viable counts was 5 ? 10 1 cfu/mL. The MICs of amoxicillin for the different strains were 1 mg/L for S.
pneumoniae 1855, 2 mg/L for 40932, 4 mg/L for A13/96 and 8 mg/L for 542-2003.
The concentrations of amoxicillin at standard dosage regimens were as expected with very little variation.
The simulated concentrations of the new pharmacokinetically enhanced formulation, 875 and 500 mg of amoxicillin are shown in Figure 1.
All strains grown in media without antibiotic reached approximately 10 7 –10 8 cfu/mL at 6–8 h. As a result of spontaneous autolysis, there was a decline in cfu at 24 h ( Figure 2).
The approximate t > MICs for the different dosage regimens and different strains according to their MIC are listed in Table 1. Figure 3 shows the effect of the different dosage regimens against S.
Only the dosing regimen with the enhanced formulation given twice daily was able to eradicate the strain.
For the 875 mg three times daily and 500 mg three times daily regimens, the amounts of cfu at 24 h were similar to those of the initial inoculum. With the 875 mg twice daily regimen, there was an approximately 1 log 10 increase in cfu at 24 h in comparison to the initial inoculum.
Figure 4 shows the effect against the strain with an MIC of 2 mg/L.
Once again it was only the enhanced formulation that eradicated the strain. For the 875 mg three times daily and 500 mg three times daily regimen, there was a 1 log 10 decrease in cfu at 24 h in comparison to the initial inoculum.
The 875 mg twice daily regimen gave a static effect.
Figure 5 displays the effect against the strain with an MIC of 4 mg/L. Once again the enhanced formulation exerted the best effect.
The number of bacteria was under the detection limit after 6 h.
However, regrowth was noted in all three experiments after 24 h.
A slight increase in comparison to the initial inoculum or a static effect was noted for the other dosage regimens at 24 h.
For the strain with the highest MIC of 8 mg/L, regrowth was seen for all four dosage regimens at 24 h. However, a substantial decrease in cfu was noted after both doses of the enhanced formulation in comparison to the other three regimens ( Figure 6). Bacterial eradication is important to maximize clinical cure and minimize resistance development and spread of resistant clones. 12, 20, 21 The prevalence of resistant strains of common respiratory tract pathogens is increasing. pneumoniae varies between countries and is as high as 70% in southeast Asia.
22 This escalating resistance seen in clinical isolates of S.
pneumoniae has reduced the efficacy of many oral drugs and has stressed the need for new dosage regimens, since the efficacy of standard dosage regimens may be reduced.
20, 23, 24 A pharmacokinetically enhanced formulation of co-amoxiclav has been developed to provide a more effective therapy against bacteria with increasing resistance to amoxicillin, notably S.
The drug was developed to obtain a t > MIC of ?40% over a 12 h dosing interval for strains with a MIC of 4 mg/L.
19 The efficacy of the new pharmacokinetically enhanced formulation of amoxicillin/clavulanic acid 2000 mg/125 mg given twice daily has been evaluated in several clinical studies in patients with respiratory tract infections predominantly caused by S.
pneumoniae including strains resistant to penicillin.
The outcome was successful for 98.2% (55/56) of the patients with infections caused by penicillin-resistant S.
Twelve of these resistant isolates had MICs of 4 mg/L and nine had MICs of 8 mg/L against amoxicillin. In this study, the strains with an MIC of 1 or 2 mg/L were eradicated at 24 h when the kinetics of the enhanced formulation were simulated. All the other regimens showed a static effect or a slight regrowth (875 mg twice daily) against these strains. Also for the strain with an MIC of 4 mg/L, the enhanced formulation was more effective than the other regimens and resulted in no detectable bacteria after 7 h although regrowth occurred at 24 h. For the strain with the highest MIC (8 mg/L), regrowth was noted for all regimens at that time.
However, even for this strain, a substantial initial kill was obtained after both doses of the enhanced formulation.
These findings are in accordance with an earlier study with the enhanced formulation of amoxicillin in the same in vitro kinetic model, where standard dosage regimens of amoxicillin gave inferior results in comparison with the enhanced formulation against Haemophilus influenzae . Many studies indicate that the magnitude of the PK/PD parameter required for efficacy is similar in animals and in humans.
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