Comparative analysis of antimicrobial susceptibility among organisms from France, Germany, Italy, Spain and the UK as part of the tigecycline evaluation and surveillance trial.

As part of the tigecycline evaluation and surveillance trial (TEST), bacterial isolates were collected from 39 centres in France, Germany, Italy, Spain and the UK between January 2004 and August 2006. Antimicrobial susceptibilities were determined according to CLSI guidelines. Italy had the highest rate of methicillin-resistant Staphylococcus aureus (36.4%), and was the only country to report vancomycin-resistant Enterococcus faecalis (8.6%). Tigecycline was the only agent to which all Gram-positive isolates were susceptible. For many of the Gram-negative organisms collected, antimicrobial susceptibilities were lowest among isolates from Italy and highest among isolates from Spain. The notable exception was Acinetobacter baumannii, where the poorest susceptibility profile was among isolates from Spain. For A. baumannii, MIC(90)s of imipenem varied from 1 mg/L for isolates in France and Germany to > or =32 mg/L for isolates from Italy and Spain. Tigecycline was the only agent to maintain an MIC(90) of < or =1 mg/L against isolates from all five countries. The in-vitro activity of tigecycline against both Gram-positive and Gram-negative isolates may make it valuable in the treatment of hospital infections, including those caused by otherwise antimicrobial-resistant organisms.

Tigecycline in vitro activity against gram-negative and gram-positive pathogens collected in Italy.

BACKGROUND: In this study (part of the global TEST program), the in vitro activity of tigecycline, a member of a new class of antimicrobial agents, the glycylcyclines, against clinical isolates collected in Italy was evaluated. METHODS: A total of 200 clinical isolates were collected and identified in our institution during 2005. Minimum inhibitory concentrations (MICs) of the antimicrobial agents were determined by the broth microdilution method recommended by the CLSI in 2005. RESULTS: Globally, 135 Gram-negative and 65 Gram-positive pathogens were evaluated. Tigecycline demonstrated excellent inhibitory activity against Acinetobacter spp., Haemophilus influenzae, Escherichia coli, Enterococcus spp., Staphylococcus aureus, Streptococcus agalactiae and Streptococcus pneumoniae with MIC(90)

Antifungal resistance in Candida spp. isolated in Italy between 2002 and 2005 from children and adults.

The activity of amphotericin B, fluconazole, flucytosine, itraconazole and voriconazole was tested in vitro against 618 clinical Candida spp. isolates, using the broth microdilution or the disk diffusion method (voriconazole). Amphotericin B and voriconazole were the most potent antifungal agents assayed (100% of susceptible strains). Resistance to fluconazole and itraconazole was detected in three (0.7%) and 11 (2.7%) isolates of Candida albicans and in four (3.7%) isolates of Candida glabrata. Flucytosine intermediate, resistant strains, or both, were observed in C. albicans (0.3% and 0.7%), C. glabrata (2.8% intermediate) and C. tropicalis (15.2% and 15.2%). C. krusei was the least susceptible species to azoles. No statistically significant differences in the rates of resistant isolates depending on site of infection and age of the patient were observed, with the exception of C. albicans and itraconazole (higher percentage of resistance in children). At present, acquired antifungal resistance represents an uncommon finding in most Candida spp. circulating in Northern Italy.

In vitro activity of ceftibuten at sub-inhibitory concentrations in comparison with other antibiotics against respiratory and urinary tract pathogens.

Some new features of the in vitro activity of ceftibuten, an oral third generation cephalosporin, have been studied in reference to respiratory and urinary tract pathogens included in its antibacterial spectrum. At 0.25XMIC (minimum inhibitory concentration) and 0.5XMIC levels, ceftibuten was able to affect the biofilm production in 2/3 of both Escherichia coli and Proteus mirabilis strains, and reduced the number of strains capable of adhering to epithelial cells by about 35% in comparison to the control. Surface hydrophobicity was also influenced by ceftibuten and the other drugs at 0.25-0.5XMIC. In general, no marked variation in the virulence traits of the pathogens studied were found by exposing bacteria to sub-MICs of ceftibuten. Plasmid loss (from 1.8 to 37.2%), and Flac transfer inhibition (about 30-50% reduction in the number of recombinants) were detected under the experimental conditions used. This study confirms the excellent antibacterial properties of ceftibuten by adding new information about the effects of this antibiotic against pathogens often involved in respiratory and urinary tract infections that may be treated with this compound, supporting the appropriate use of this cephalosporin.

Antibiotic susceptibility tests directly on urine samples using Uro-Quick, a rapid automated system.

During the period June 2003-March 2004, 12,579 urine samples were examined employing the Uro-Quick system. Positive samples (1,948) were subsequently Gram-stained and processed by standard procedures for microorganism identification and antibiotic susceptibility determination by the disk diffusion method. Results of this latter test were compared with those obtained employing the new rapid Uro-Quick method. Antibiotics were introduced in vials containing 2 ml of Mueller-Hinton broth, then 0.5 ml of urine or a bacterial suspension in broth were added; a vial without drug was used as control. After 3 and 5 hours of incubation (for Gram-negative and Gram-positive strains respectively) the instrument showed the results. No growth and a growth curve like the control indicated susceptible and resistant strains respectively. Overall 1,590 Gram-negative strains were tested against ciprofloxacin, nitrofurantoin, amoxicillin-clavulanate, ceftazidime, fosfomycin, imipenem, amikacin, trimethoprim-sulfamethoxazole, and piperacillin-tazobactam, while 358 Gram-positive bacteria were assessed against ciprofloxacin, nitrofurantoin, amoxicillin-clavulanate, ampicillin, fosfomycin, gentamicin, oxacillin and trimethoprim-sulfamethoxazole. Against the major urinary tract pathogens (Escherichia. coli, enterococci, Klebsiella spp. and Proteus spp.) agreement between the Uro-Quick system and the disk diffusion test generally was >90% for all antibiotics tested. On the basis of these results the system appears useful not only for bacteriuria screening, but also to rapidly test the antibiotic susceptibility of common uropathogens.

In vitro assessment of the postantibiotic effect of lomefloxacin against gram-positive and gram-negative pathogens.

We evaluated the postantibiotic effect (PAE) of lomefloxacin, a new difluorinated quinolone, on multiply drug-resistant gram-positive and gram-negative clinical pathogens. Lomefloxacin induced a PAE of about 2 hours in gram-negative and gram-positive bacteria exposed for 1 hour to concentrations corresponding to four times their minimum inhibitory concentrations (MIC). PAE values (hours) ranged from 1.8 with Serratia marcescens to 2.5 with Staphylococcus aureus. No significant differences in PAE values were found for ciprofloxacin or ofloxacin against the same pathogens. The PAE was increased when the time of drug exposure was increased to 2 hours. These results indicate that lomefloxacin has a PAE equivalent to that of other fluoroquinolones.

Stability in the presence of widespread beta-lactamases. A prerequisite for the antibacterial activity of beta-lactam drugs.

Bacterial resistance to the beta-lactam drugs is extremely widespread, as a result of extensive drug use. Loss of susceptibility is primarily attributable to hydrolysis by inactivating enzymes, namely the beta-lactamases. While the number of characterised beta-lactamases may exceed 100, only a few are a problem in the treatment of community-acquired infections (TEM-1, TEM-2, SHV-1, BRO-1). Chromosomally mediated and extended-spectrum beta-lactamases are usually dominant in nosocomial pathogens where oral antibiotic therapy is seldom used. Therefore, the threat posed by beta-lactamases must be considered in general practice. Several effective strategies have been implemented in order to overcome beta-lactamase-mediated resistance, e.g. use of non-beta-lactam drugs or beta-lactamase inhibitors. Another option has been the development of new beta-lactam compounds that possess a high intrinsic stability against the hydrolytic action of common beta-lactamases. Among these compounds, the oral third generation cephalosporins represent an important breakthrough. Cefetamet pivoxil, a new oral third generation cephalosporin, is characterised by excellent antimicrobial potency against Enterobacteriaceae, and Moraxella (Branhamella) catarrhalis and Haemophilus influenzae, irrespective of their ability to produce beta-lactamases. The Gram-positive respiratory pathogens, Streptococcus pyogenes and penicillin-susceptible S. pneumoniae, are also satisfactorily covered. The activity of cefetamet has recently been corroborated in a survey conducted in Italy involving 4191 isolates. However, cefetamet shows no activity against enterococci, staphylococci, Listeria, alpha-streptococci, Pseudomonas, Acinetobacter and anaerobes. Given this antibacterial profile, cefetamet pivoxil may provide a useful alternative to other oral antibacterial agents in the empirical therapy of acute community-acquired respiratory and urinary tract infections. From the results of the Italian survey, cefetamet emerged as the only agent among those considered (which included cefuroxime, cefaclor, cefalexin, cefadroxil, ampicillin, amoxicillin/clavulanic acid, ampicillin/sulbactam, doxycycline, erythromycin and clindamycin) that might be selected as the drug of choice in the empirical therapy of outpatient infections.

Multidrug-resistant gram-positive pathogens. An update on current microbiological patterns.

Although resistance has developed among Gram-positive pathogens to penicillins, cephalosporins, aminoglycosides, quinolones and macrolides, the glycopeptides seem to remain largely unaffected. However, the recent emergence and range of glycopeptide resistance in enterococci, well documented in the USA but not in the rest of the world, have prompted this European surveillance study. The European Glycopeptide Resistance Survey was undertaken in 1995 in 9 countries and involved 70 microbiological centres. The primary aims of the survey were as follows: (i) to perform a microbiological quality assurance assessment to evaluate the ability of participating laboratories to correctly identify the strains and assess their glycopeptide susceptibility; and (ii) to accurately determine the level of glycopeptide resistance among staphylococci, streptococci and enterococci in European hospitals. The in vitro activity of several other antibiotics was assessed on strains isolated from the Italian centres. In total, 7078 Gram-positive isolates were collected in Europe, and national coordinators used the National Committee for Clinical Laboratory Standards (NCCLS) agar dilution reference method to successfully retest 96% of these. According to mode minimum inhibitory concentrations (MICs), teicoplanin activity was similar to that of vancomycin against Staphylococcus aureus. In general, the range of MICs for teicoplanin was wider than that for vancomycin against coagulase-negative staphylococci. Against Enterococcus spp. and Streptococcus spp., teicoplanin was 4 times more active than vancomycin. The greatest number of glycopeptide refractory organisms was evident among enterococci; resistance was observed to be approximately 10 times more frequent in Enterococcus faecium than in E. faecalis. The results from the Italian isolates were similar to those from the overall study. In particular, teicoplanin was 2- to 8-fold more active than vancomycin against the majority of the enterococci. The incidence of enterococcal resistance was lower in Italy (0.6% for teicoplanin and 0.9% for vancomycin) than in Europe (1.7% for teicoplanin and 2.3% for vancomycin). This extensive survey confirms that teicoplanin is more active than vancomycin against enterococci and streptococci, and that both display similar potency against staphylococci.

Antibiotic persistence: the role of spontaneous DNA repair response.

Persisters are a small proportion of a bacterial population that exists in a physiological state permitting survival despite the lethal activity of antibiotics. To explain this phenomenon, it has been suggested that persisters are bacteria repairing spontaneous errors of DNA synthesis. To verify this assumption, Escherichia coli AB1157 and its lexA3 derivative were exposed to a dose 6x MIC of various antibiotics representative of different molecular mechanisms of action (ampicillin, ceftriaxone, meropenem, amikacin, ciprofloxacin). Bacterial cell counts, after 24 hr of exposure to the antimicrobials, revealed a reduction of about 90% of viable organisms in the lexA3 strains in comparison to the lexA+. In several cases, the number of colony-forming units decreased below the limit of assay. This behavior was noted with all antibiotics used, alone or in combination (amikacin plus ceftriaxone and amikacin plus ciprofloxacin). The same experiments were repeated using E. coli AB1157 cultured in the presence of mitomycin C (0.25x MIC), and the number of survivors exceeded by about 90% the values found in the nonexposed control. In contrast, in the sulA background, mitomycin C reacted synergically with all the antibiotics tested causing a strong reduction of the survivors in comparison with the control. The addition of chloramphenicol (0.125x MIC), on the contrary, caused a reduction of the number of survivors of about 90%. These findings indicate that, when DNA repair is active (a mechanism known to block cell division), the number of survivors is greater than that observed with lexA3. Thus, in addition to other possible explanations, persisters might be a fraction of bacteria that during antibiotic treatment are not growing because they are repairing spontaneous errors of DNA synthesis.

Evolution of antibiotic resistance in gram-positive pathogens.

Staphylococcus aureus is a common cause of soft tissue infection, e.g. impetigo, cellulitis, or wound infection, and causes osteomyelitis, arthritis, bacteremia with metastatic infection, and scalded skin and toxic shock syndromes. Coagulase-negative staphylococci have become increasingly important causes of nosocomial bacteremia associated with invasive monitoring, intravascular catheters and prosthetic heart valves or joints. Most staphylococci produce b-lactamase and are resistant to penicillin. An increasing proportion of S. aureus have intrinsic resistance to methicillin (MRSA) and present major problems in hospitals for the control of cross infection. The glycopeptides, teicoplanin and vancomycin, are the antibiotics of first choice for treatment of these infections. After the first report describing a Japanese clinical isolate of vancomycin-resistant S. aureus (VRSA), several papers have documented the emergence of these microorganisms. Since the development and spreading of this phenomenon which is perceived as a fearsome threat to the already difficult therapy of nosocomial infections due to the prevalence of heterogeneous vancomycin resistance, we found the incidence of MRSA exceeds 35% in our hospital. Out of 179 methicillin-resistant S. aureus isolated during 1997-1998, two strains (1.1%) gave subclones with vancomycin MICs of 8 mg/L. PFGE showed identical restriction patterns for both isolates, suggesting transfer of a single clone between two different patients.

Antibacterial activity of ceftibuten, a new oral third generation cephalosporin.

Ceftibuten, a new oral third generation cephalosporin, was found to be the most active beta-lactam drug tested against members of the Enterobacteriaceae, inhibiting most strains at less than 4 micrograms/ml. All isolates of Branhamella catarrhalis, Haemophilus influenzae, and Neisseria spp. were highly susceptible to ceftibuten. Penicillin-sensitive pneumococci and pathogenic beta-hemolitic streptococci were also killed by ceftibuten. The antibacterial activity of this new drug, which results in rapid lysis of susceptible cells, was not significantly affected by serum, pH, inoculum size, media composition and growth conditions. Ceftibuten is characterized by a remarkable resistance to inactivation by most beta-lactamases synthetized by common gram-positive and gram-negative pathogens. The potent in vitro activity of ceftibuten in conjunction with its favorable pharmacokinetic profile render this new molecule an attractive candidate for the treatment of respiratory and urinary tract infections sustained by susceptible pathogens.

Evaluation of the Uro-Quick, a new rapid automated system, for the detection of well-characterized antibiotic-resistant bacteria.

The Uro-Quick system has been employed to detect antibiotic resistance in genotypically and/or phenotypically well-characterized bacterial species including those that might not be easily identified by routine procedure. In order to achieve full agreement between the antibiotic susceptibility results obtained by the reference method (NCCLS) and the Uro-Quick system, the optimal experimental conditions (inoculum size, time of incubation and antibiotic concentration) for each strain to be used by the automatic system were determined. The shorter time periods for generation of correct susceptibility results were 180 min for ampicillin- and ciprofloxacin-resistant Escherichia coli and for ESBL- and Inhibitor-resistant TEM (IRT)-producing E. coli; 360 min for penicillin-susceptible Streptococcus pneumoniae, as well as for strains with reduced susceptibility to this antibiotic (both intermediate, and resistant isolates). The same time was required to detect erythromycin-resistant pneumococci irrespective of their mechanism of resistance (ribosomal methylation and efflux-mediated), Streptococcus pyogenes exhibiting the three erythromycin-resistance phenotypes (constitutive, inducible and M-type) and Klebsiella pneumoniae, Enterobacter aerogenes, Enterobacter cloacae, Serratia marcescens, Proteus mirabilis and Moraxella morganii refractory to third-generation cephalosporins, aminoglycosides, ciprofloxacin and other classes of antimicrobial agents; 480 min for penicillin-resistant, constitutive and inducible oxacillin-resistant (OXA-R) Staphylococcus aureus and OXA-R Staphylococcus epidermidis. The same period of time was also necessary to find the great majority of drug-resistance exhibited by Pseudomonas aeruginosa. Teicoplanin-resistant Staphylococcus haemolyticus, vancomycin-resistant (VanA, VanB, VanC) high-level aminoglycoside-resistant (HLAR) Enterococcus spp, and imipenem-resistant P. aeruginosa required longer incubation (24 h) to be detected. The results obtained indicate that Uro-Quick might be a reliable and promising instrument for the correct detection of the above antibiotic resistance markers.

[Emergence of drug-resistant gram-positive pathogenic bacteria]. / Evoluzione della chemioresistenza nei batteri patogeni gram-positivi.

Staphylococcus aureus is a common cause of soft tissue infection, e.g. impetigo, cellulitis, or wound infection, and causes osteomyelitis, arthritis, bacteremia with metastatic infection, and scalded skin and toxic shock syndromes. Coagulase-negative staphylococci have become increasingly important causes of nosocomial bacteremia associated with invasive monitoring, intravascular catheters and prosthetic heart valves or joints. Most staphylococci produce blactamase and are resistant to penicillin. An increasing proportion of S. aureus have intrinsic resistance to methicillin (MRSA) and present major problems in hospitals for the control of cross infection. The glycopeptides, teicoplanin and vancomycin, are the antibiotics of first choice for treatment of these infections. After the first report describing a Japanese clinical isolate of vancomycin-resistant S. aureus (VRSA), several papers have documented the emergence of these microorganisms. Since the development and spreading of this phenomenon which is perceived as a fearsome threat to the already difficult therapy of nosocomial infections due to the prevalence of heterogeneous vancomycin resistance, we found the incidence of MRSA exceeds 35% in our hospital. Out of 179 methicillin-resistant S. aureus isolated during 1997-1998, two strains (1.1%) gave subclones with vancomycin MICs of 8 mg/L. PFGE showed identical restriction patterns for both isolates, suggesting transfer of a single clone between two different patients.

Brodimoprim: effects of subminimal inhibitory concentrations on virulence traits of respiratory and urinary tract pathogens, and on plasmid transfer and stability.

The effects of brodimoprim, a new trimethoprim analogue, on several virulence traits of respiratory and urinary tract pathogens exposed to sub-lethal levels of the drug was studied. Adherence to tracheal epithelial cells was inhibited by brodimoprim in Klebsiella pneumoniae (41-67% reduction), Moraxella catarrhalis (87-90%) and Haemophilus influenzae (0-53%), while in Streptococcus pneumoniae binding was unaffected. With buccal epithelial cells the comparison between treated and control bacteria indicated statistically significant reduction in adherence with both S.pneumoniae and H.influenzae, (P < 0.015). With M.catarrhalis and Streptococcus pyogenes only marginal changes were detected (P > 0.05). Exoenzyme and capsule production were assessed in at least three isolates of diverse respiratory pathogens grown in the presence of sub-lethal levels of the new agent. The drug affected protease and beta-hemolysin (alpha-toxin) production in both oxacillin-susceptible and -resistant S.aureus. On the contrary, synthesis of lipase, DNase, coagulase, and beta-lactamase (S.aureus), pneumolysin (S.pneumoniae), streptolysin S, DNase, and protease (S.pyogenes), capsule (K.pneumoniae, H.influenzae and S.pneumoniae), and beta-lactamase (K.pneumoniae, H.influenzae and M.catarrhalis) were not inhibited by subminimal inhibitory concentrations (sub-MICs) of the drug. Finally, motility was blocked in urinary pathogens E.coli, P.mirabilis and P.aeruginosa, while in this latter microorganism pigment production was also affected. High molecular weight low-copy F'lac, and low molecular weight high-copy pHSG298 plasmids were eliminated from E.coli treated with sub-MIC concentrations of brodimoprim. The incidence and cured cells ranged from 9% for F'lac to 23% for pHSG298. F'lac transfer was also inhibited by the drug. When conjugation was carried out with bacteria exposed to brodimoprim (5XMIC), a reduction (50%) in the number of recombinants was noted in comparison to the control. The fact that brodimoprim interferes with the expression of some virulence traits, in particular with adherence, at sub-MIC levels may assist the drug in eradicating respiratory pathogens from the epithelial lining, thus diminishing the probability of reinfection.

The beta-lactamase problem: new therapeutic options.

As a consequence of their successful use in prophylaxis and therapy, bacterial resistance mediated by beta-lactamases is now widely diffused among beta-lactam antibiotics. Several effective strategies have been suggested in order to overcome this problem. One interesting option is offered by the development of a series of new beta-lactam compounds that possess a very high intrinsic stability to the hydrolytic action of the most common beta-lactamases. Among these molecules the oral third generation cephalosporins represent a significant breakthrough. Cefetamet pivoxil, because of its broad coverage of most gram-negative and gram-positive community acquired pathogens, rightly belongs to these new agents. The activity of cefetamet has been confirmed in a survey in Italy involving 4191 isolates. on this collection of strains cefetamet emerged as the most active in vitro compound, followed by cefixime, with all other comparative agents (cefuroxime, cefaclor, cephalexin, cefradoxil, ampicillin, amoxicillin-clavulanate, ampicillin-sulbactam, doxycycline, erythromycin and clindamycin) displaying lower eradication rates. According to the data gathered in the Italian survey, cefetamet can be considered the only compound, among those taken into consideration, that might be selected as the drug of choice in the empiric therapy of respiratory and urinary community-acquired infections. In fact, the prevalence of resistance to cefetamet in the most prevalent pathogens occurring in this setting is, at present, sufficiently low to render therapeutic failures, based on this parameter, highly improbable.

In vitro activity of thiamphenicol against multiresistant Streptococcus pneumoniae, Haemophilus influenzae and Staphylococcus aureus in Italy.

Thiamphenicol is a derivative of chloramphenicol characterized by a spectrum comparable to that of the parent compound against multiresistant pathogens but showing satisfactory tolerability. The in vitro activity of thiamphenicol and of 11 comparative drugs against 397 recently isolated antibiotic-resistant and/or invasive pneumococci and 52 multiply-resistant MRSA including 2 VISA strains was determined. Bactericidal activity against Haemophilus influenzae and the post-antibiotic effect on Streptococcus pneumoniae, H. influenzae, Staphylococcus aureus and Escherichia coli were also assessed. Against invasive pneumococci, thiamphenicol and chloramphenicol were the most potent non-beta-lactam molecules together with vancomycin and rifampin. Against high-level penicillin-resistant strains phenicol activities were superior to those of cefotaxime, ceftriaxone and imipenem. Against MRSA thiamphenicol and chloramphenicol were second only to the glycopetides and also inhibited the VISA strains. Thiamphenicol showed a significant PAE (0.33 to 2.9h) on all pathogens studied and a powerful bactericidal effect against beta-lactamase-positive and -negative H. influenzae. These results indicate a good in vitro activity of thiamphenicol against difficult-to-treat multiply resistant pathogens.

Parameters characterizing the in vitro activity of cefixime, a new oral broad spectrum cephalosporin, against respiratory and urinary pathogens.

The wide and potent in vitro activity of cefixime, a new oral broad spectrum cephalosporin, has been confirmed on a collection of respiratory and urinary pathogens recently isolated in Italy. The new cephem emerged as the most bactericidal of all the comparators tested against several fast as well as slowly-growing gram-negative species including Enterobacteria, Haemophilus and Moraxella, irrespective of their ability to synthetize beta-lactamases. Among the gram-positive species Streptococcus pyogenes and S. pneumoniae were effectively covered. Cefixime activity was not adversely influenced by several important variables such as pH (over the range from 5 to 8), inoculum size (from 10(5) to 10(8) CFU per ml) and the presence of 50% human serum or urine. Time-kill tests confirmed a pronounced bactericidal potency of the drug especially towards common respiratory pathogens (H. influenzae, M. catarrhalis, S. pneumoniae and S. pyogenes). Killing of urinary strains was optimal at cefixime concentrations reached in urine since eradication, except for Proteus mirabilis, was enhanced with increasing levels of the drug. The absence of an untoward paradoxic effect on the rate of cefixime bactericidal action was confirmed by employing a dynamic bladder model simulating the pharmacokinetic parameters of the drug after a single 200 mg daily dosage. Interactions of cefixime with several other drugs that may be employed in combination therapy were generally prone to provide indifference and synergism while antagonism was never observed. Favorable interactions were also registered when cefixime acted with other antibiotics on partially resistant species such as Staphylococci and Pseudomonas. The new cephem seems to provide excellent opportunities for expanding oral cephalosporin therapy to a wide range of infections produced by susceptible pathogens in the adult and pediatric populations.

In vitro activity of metronidazole alone and in combination with clotrimazole against clinical isolates of Trichomonas vaginalis.

Trichomonas vaginalis vaginitis is generally treated with oral metronidazole. Widespread use of this drug has led, however, to selection of resistant strains. Topical therapy seems appropriate whenever systemic high dosage schedule cannot be adopted in order to overcome resistance. This study was designed to assess the activity of metronidazole alone and in combination with clotrimazole, an imidazole derivative for topical use, against T. vaginalis. Tests were performed employing the antitrichomonas activity of a fixed ratio of metronidazole with clotrimazole (5:1) which has been recently suggested for topical therapy and the checkerboard technique. All tests were carried out under aerobic conditions to maximize T. vaginalis resistance traits. Minimum inhibitory concentrations (MICs) of metronidazole for the 12 strains studied were in the range reported in the literature (0.5-32 micrograms/ml). The interaction of metronidazole with clotrimazole as assessed by the checkerboard technique gave an indifferent outcome with all the strains assayed (FIC = 1-2). The fixed concentration of drugs, however, produced synergism (FIC = 0.5) in 5 of 12 isolates. Spontaneous resistant strains were not selected from T. vaginalis exposed to sub-lethal levels of the drugs or by culturing a large inoculum in the presence of 1, 2, 4 and 8 times the MICs of metronidazole alone or in combination with clotrimazole. These results confirm and extend previous reports highlighting the good in vitro efficacy of the association of metronidazole plus clotrimazole against T. vaginalis.

Synergistic antibacterial interaction of cefotaxime and desacetylcefotaxime.

Cefotaxime (CTX) is metabolized in desacetylcefotaxime (dCTX), a less potent compound which shows, however, a higher stability against selected beta-lactamases produced by Gram-negative organisms. The aim of this study was to verify if the antimicrobial activity of CTX against 260 clinical aerobic and anaerobic pathogens isolated in our institution was enhanced by its metabolic derivative dCTX. The combination of CTX and dCTX, assessed by checkerboard titration, was completely or partially synergistic towards 61% of the 220 aerobic organisms tested and against 68% of the 40 Bacteroides strains analyzed. In addition we have investigated, by the time-kill method, the in-vitro interactions against 50 aerobic strains of CTX and dCTX alone and in combination with netilmicin, a drug often employed in severe infections in combination with beta-lactam agents in order to provide effective killing of resistant nosocomial pathogens. Time-kill studies indicated that 36% of the aerobic nosocomial strains were synergistically inhibited by the combination of CTX/dCTX with netilmicin. These results indicate that dCTX makes an important contribution to the clinical efficacy of CTX.

[Microbiological aspects of antibiotics with immunomodulating action]. / Aspetti microbiologici degli antibiotici ad azione immunomodulante.

Through the introduction of a 7-mercapto-1,3-thiazole chain at position 3' of the dihydrothiazine ring, cefodizime, which is structurally similar to cefotaxime, has acquired a number of remarkable immunomodulatory properties while retaining a potent antimicrobial spectrum of activity. Cefodizime penetrates in fact readily through the bacterial cell wall and interacts with its molecular targets in such a way that at high concentrations cell death and lysis are rapidly induced. Its spectrum of action encompasses the Enterobacteria, Neisseriae, Haemophilus, Moraxella catarrhalis, methicillin-susceptible staphylococci and streptococci, with pneumococci included. Cefodizime is devoid of useful potency against Pseudomonas, Acinetobacter and enterococci. Given the wide occurrence of strains synthesizing beta-lactamases in several primary pathogens of community-acquired and nosocomial infections, the complete stability of cefodizime towards the most prevalent of these hydrolytic enzymes (TEM-1, TEM-2, SHV-1, BRO-1 and the staphylococcal penicillinases) seems reassuring. Only a few chromosomally-coded and extended spectrum beta-lactamases produced by gram-negative microorganisms inactivate the new cephalosporin. Since the distribution of pathogens carrying these enzymes depends on the local trends of antibacterial consumption and cannot be easily predicted, a large multicenter study in Italy has recently assessed the antibacterial potency of cefodizime, in comparison with suitable drugs, on 1985 selected nosocomial strains. In this survey cefodizime was more effective in vitro than amoxicillin-clavulanate, gentamicin and piperacillin while being substantially similar in the rates of eradication of gram-negative and gram-positive organisms to other third generation cephalosporins like ceftazidime and ceftriaxone.(ABSTRACT TRUNCATED AT 250 WORDS)