Comparison of efficacy and safety between daptomycin plus β-lactam and daptomycin monotherapy for bloodstream infections due to gram-positive cocci: A systematic review and meta-analysis

Objectives

We performed a comprehensive systematic review and meta-analysis to evaluate the clinical or microbiological outcomes and safety of a combination of daptomycin (DAP) and β-lactams compared to DAP monotherapy in patients with blood stream infection (BSI) due to gram-positive cocci (GPC).

Methods

We searched Scopus, PubMed, EMBASE, CINAHL, and Ityuushi databases up to January 30, 2023. Outcomes included all-cause mortality, clinical failure, and creatine phosphokinase (CPK) elevation.

Results

Six cohorts or case-control studies fulfilled the inclusion criteria and were included in the final meta-analysis. Combination therapy of DAP and β-lactams significantly reduced the mortality and clinical failure rate for all BSI due to GPC compared with the DAP monotherapy (mortality, odds ratio [OR] = 0.63, 95 % confidence interval [CI] = 0.41-0.98; clinical failure, OR = 0.42, 95 % CI = 0.22-0.81). In contrast, no significant difference was noted in the incidence of CPK elevation between the two groups (OR = 0.85, 95 % CI = 0.39-1.84).

Conclusion

Altogether, combination therapy of DAP and β-lactams can improve the prognosis for patients with BSI due to GPC compared with DAP alone. Therefore, it should be considered as an option for the empirical treatment of BSI caused by GPC.

Daptomycin synergistic properties from in vitro and in vivo studies: a systematic review

INTRODUCTION

Daptomycin is a bactericidal lipopeptide antibiotic approved for the treatment of systemic infections (i.e. skin and soft tissue infections, bloodstream infections, infective endocarditis) caused by Gram-positive cocci. It is often prescribed in association with a partner drug to increase its bactericidal effect and to prevent the emergence of resistant strains during treatment; however, its synergistic properties are still under evaluation.

METHODS

We performed a systematic review to offer clinicians an updated overview of daptomycin synergistic properties from in vitro and in vivo studies. Moreover, we reported all in vitro and in vivo data evaluating daptomycin in combination with other antibiotic agents, subdivided by antibiotic classes, and a summary graph presenting the most favourable combinations at a glance.

RESULTS

A total of 92 studies and 1087 isolates (723 Staphylococcus aureus, 68 Staphylococcus epidermidis, 179 Enterococcus faecium, 105 Enterococcus faecalis, 12 Enterococcus durans) were included. Synergism accounted for 30.9% of total interactions, while indifferent effect was the most frequently observed interaction (41.9%). Antagonistic effect accounted for 0.7% of total interactions. The highest synergistic rates against S. aureus were observed with daptomycin in combination with fosfomycin (55.6%). For S. epidermidis and Enterococcus spp., the most effective combinations were daptomycin plus ceftobiprole (50%) and daptomycin plus fosfomycin (63.6%) or rifampicin (62.8%), respectively.

FUTURE PERSPECTIVES

We believe this systematic review could be useful for the future updates of guidelines on systemic infections where daptomycin plays a key role.

In vitro antimicrobial activity of daptomycin alone and in adjunction with either amoxicillin, cefotaxime or rifampicin against the main pathogens responsible for bacterial meningitis in adults

OBJECTIVES

As daptomycin adjunction is currently under clinical evaluation in the multicentre phase II AddaMAP study to improve the prognosis of pneumococcal meningitis, the present work aimed at evaluating the in vitro antimicrobial activity of daptomycin-based combinations against some of the most frequent species responsible for bacterial meningitis.

METHODS

Clinically relevant strains of Streptococcus pneumoniae, Listeria monocytogenes, Haemophilus influenzae and Neisseria meningitidis were obtained from National Reference Centers. The antimicrobial activity of amoxicillin, cefotaxime and rifampicin, either alone or in association with daptomycin, was explored through the determination of minimum inhibitory concentration (MIC) and fractional inhibitory concentration index (FICI) as well as time-kill assay (TKA) using the broth microdilution method.

RESULTS

All species taken together, the adjunction of daptomycin had no deleterious impact on the antimicrobial activity of amoxicillin, cefotaxime or rifampicin in vitro. Regarding Gram-positive bacteria, FICI and TKA analysis confirmed a global improvement of growth inhibition and bactericidal activity due to the adjunction of daptomycin. The synergistic effect prevailed for L. monocytogenes as demonstrated by FICI mainly <0.5 and a dynamic TKA-based synergy rate >50%. In addition, daptomycin-based associations did not modify the activity of β-lactam antibiotics or rifampicin against Gram-negative bacteria, notably N. meningitidis.

CONCLUSION

These results bring comforting evidence towards the clinical potential of daptomycin adjunction in the treatment of bacterial meningitis, which supports the ongoing AddaMAP clinical trial.

In vitro activity of daptomycin combinations with rifampicin, gentamicin, fosfomycin and fusidic acid against MRSA strains

OBJECTIVES

Although new antimicrobial agents designed to treat infections with limited therapeutic options have been introduced in the past few years, resistant Gram positive cocci have continued to emerge and spread. Daptomycin is a cyclic lipopeptide antibiotic that has rapid bactericidal activity against broad spectrum of Gram positive bacteria, including methicillin resistant Staphylococcus aureus (MRSA). Antibiotics are sometimes used in combination in an attempt to prevent or delay the in vivo emergence of drug-resistant subpopulations of pathogenic organisms. The aim of the study was to evaluate in vitro activity of daptomycin combinations with rifampicin, gentamicin, fosfomycin, and fusidic acid against MRSA strains.

METHODS

In total, 25 strains were tested. The minimum inhibitory concentrations of all antibiotics were determined using a microbroth dilution assay. The in vitro activities of antibiotics in combination were assessed using the microbroth checkerboard technique. With this method, the fractional inhibitory concentration index was interpreted as follows: synergism ≤0.5; additive/indifference >0.5-≤4; antagonism >4.

RESULTS

According to the MIC values, all strains (100%) were susceptible to daptomycin, 16% (4/25) to rifampicin, 20% (5/25) to gentamicin, 44% (11/25) to fosfomycin, and 72% (18/25) to fusidic acid. Synergistic interaction of daptomycin in combinations with rifampicin, gentamicin, fosfomycin, and fusidic acid were found as 12%, 68%, 100% and 16%, respectively. No antagonism was observed.

CONCLUSION

The combination of daptomycin with fosfomycin may be a promising alternative therapy of MRSA infections.

Use of Daptomycin in Critically Ill Children With Bloodstream Infections and Complicated Skin and Soft-tissue Infections

We report our clinical experience with the use of daptomycin, administered in the dosage of 8 mg/kg/d in 3 minutes, in treating 12 critically ill children younger than 12 years, with bloodstream infections (n = 9) and complicated skin and soft-tissue infections (n = 3). Mean treatment duration was 14 ± 5 days; microbiologic eradication was achieved in all patients, and no drug related adverse events occurred.

Surveillance and management of multidrug-resistant microorganisms

Multidrug-resistant organisms are an established and growing worldwide public health problem and few therapeutic options remain available. The traditional antimicrobials (glycopeptides) for multidrug-resistant Gram-positive infections are declining in efficacy. New drugs that are presently available are linezolid, daptomicin and tigecycline, which have well-defined indications for severe infections, and talavancin, which is under Phase III trial for hospital-acquired pneumonia. Unfortunately the therapies available for multidrug-resistant Gram-negatives, including carbapenem-resistant Pseudomonas aeruginosa, Acinetobacter baumannii and Enterobacteriaceae, are limited to only colistin and tigecycline. Both of these drugs are still not registered for severe infections, such as hospital acquired pneumonia. Consequently, as confirmed by scientific evidence, a multidisciplinary approach is needed. Surveillance, infection control procedures, isolation and antimicrobial stewardship should be implemented to reduce multidrug-resistant organism diffusion.

Ampicillin enhances daptomycin- and cationic host defense peptide-mediated killing of ampicillin- and vancomycin-resistant Enterococcus faecium

We studied an ampicillin- and vancomycin-resistant Enterococcus faecium (VRE) isolate from a patient with endocarditis and bacteremia refractory to treatment with daptomycin (6 mg/kg of body weight) plus linezolid. Blood cultures cleared within 24 h of changing therapy to daptomycin (12 mg/kg) plus ampicillin. We examined the effects of ampicillin on daptomycin-induced growth inhibition and killing, surface charge, and susceptibility to several prototypical host defense cationic antimicrobial peptides. MICs and time-kill curves with daptomycin were assessed in the presence and absence of ampicillin. The impact of ampicillin on surface charge was assessed by flow cytometry and a poly-l-lysine binding assay. The effects of ampicillin preexposures upon VRE killing by five distinct cationic peptides of different structure, charge, origin, and mechanism of action were analyzed using the epidermal cathelicidin LL-37, thrombin-induced platelet microbicidal proteins (tPMPs), and a synthetic congener modeled after tPMP microbicidal domains (RP-1), human neutrophil peptide-1 (hNP-1), and polymyxin B (bacteria derived). Fluoroscein-Bodipy-labeled daptomycin was used to evaluate daptomycin binding to VRE membranes in the presence or absence of ampicillin. In media containing ampicillin (25 to 100 mg/liter), daptomycin MICs decreased from 1.0 to 0.38 mg/liter. Based on time-kill analysis and an in vitro pharmacodynamic model, ampicillin enhanced daptomycin activity against the study VRE from a bacteriostatic to a bactericidal profile. VRE grown in ampicillin (25 to 150 mg/liter) demonstrated an incremental reduction in its relative net positive surface charge. When grown in the presence (versus absence) of ampicillin (25 and 100 mg/liter), the VRE strain (i) was more susceptible to killing by LL-37, tPMPs, hNP-1, and RP-1 but not to polymyxin B and (ii) exhibited greater binding to Bodipy-labeled daptomycin. We conclude that ampicillin induces reductions in net positive bacterial surface charge of VRE, correlating with enhanced bactericidal effects of cationic calcium-daptomycin and a diverse range of other cationic peptides in vitro. While the mechanism(s) of such β-lactam-mediated shifts in surface charge remains to be defined, these finding suggest a potential for β-lactam-mediated enhancement of activity of both daptomycin and innate host defense peptides against antibiotic-resistant bacteria.

Daptomycin nonsusceptible enterococci: an emerging challenge for clinicians

Daptomycin is the only antibiotic with in vitro bactericidal activity against vancomycin-resistant Enterococcus (VRE) that is approved by the Food and Drug Administration (FDA). Data on the potential emergence of daptomycin nonsusceptibility among enterococci remain limited. We systematically reviewed the published literature for reports of isolates of enterococci that were daptomycin nonsusceptible and assessed the clinical significance and outcome of therapy. Based on susceptibility breakpoints approved by the Clinical Laboratory Standards Institute (CLSI), daptomycin has in vitro activity against >90% of enterococcal isolates. Less than 2% of enterococcal isolates were daptomycin nonsusceptible, with minimum inhibitory concentrations (MICs) >4 μg/mL. The prevalence of nonsusceptibility of VRE isolates to daptomycin may be overestimated due to the spread of clonally related isolates in health care settings. Clinicians should be aware of the possibility of the emergence of daptomycin nonsusceptibility and should closely monitor daptomycin MICs of enterococci isolated during treatment.

Treatment of meningitis caused by vancomycin-resistant Enterococcus faecium: high-dose and combination daptomycin therapy

OBJECTIVE

To report 3 successful treatments of vancomycin-resistant Enterococcus faecium meningitis in adults using daptomycin and either linezolid or gentamicin.

CASE SUMMARY

Three case reports involving males (aged 58-78 years) are presented; in each case (trigeminal nerve microvascular decompression and subdural hygroma; paraspinal abscess; and hydrocephalus with subsequent craniotomy and ventriculo-peritoneal shunt placement) CSF examination revealed vancomycin-resistant Enterococcus (VRE) susceptible to daptomycin, gentamicin, and/or linezolid. Threeto four-week treatment regimens with daptomycin 6-12 mg/kg and either gentamicin or linezolid led to clinical resolution and microbiological clearance of infection.

DISCUSSION

Daptomycin has previously been shown to be successful in treating methicillin-resistant Staphylococcus aureus-associated meningitis and other serious VRE and enterococcal infections. Higher than approved doses of daptomycin were used in 2 cases where in theory higher CSF concentrations would thus be obtained. Gentamicin and linezolid were added to daptomycin therapy based on in vitro data synergy results and because of documented successful treatment for VRE meningitis, respectively.

CONCLUSIONS

The difficulty in treating VRE CSF infections involves both drug kinetics and microbial resistance factors, as well as external factors such as foreign bodies like shunts. This report highlighted 3 cases where daptomycin use in concert with either gentamicin or linezolid was successful in treating this infection. Additional controlled trials will be helpful in identifying the best strategies when using daptomycin to treat CSF infections.

Diagnosis and management of community-associated MRSA infections in children

The history of antibiotic resistance in Staphylococcus aureus spans more than half a century. Methicillin-resistant S. aureus (MRSA) has emerged as an almost ubiquitous pathogen in both the community and hospital settings. The predominant clone responsible for community-associated MRSA, USA300, is a highly successful pathogen, as demonstrated by its rapid global spread and associated morbidity and mortality. The management of MRSA infections in pediatric patients is complicated by the limited number of effective antibiotics that have been well-studied in children. The gold standard antimicrobial, vancomycin, has several shortcomings that have prompted the development of newer agents for the treatment of MRSA disease. Moreover, the emergence of vancomycin-intermediate or -resistant S. aureus, while uncommon, portends a potential new era of resistance that will require research and development of the next generation of antibiotics that act by novel mechanisms.

Multidrug-Resistant Enterococcus faecium Endocarditis Treated with Combination Tigecycline and High-Dose Daptomycin

Objective:

To report a case of multidrug-resistant Enterococcus faecium requiring combination antibacterial therapy,

Case Summary:

A 39-year-old female presented with chest pain and a history of endocarditis 3 years prior to admission. Blood cultures were positive for E. faecium. She was treated initially with daptomycin 6 mg/kg daily, which was later increased to 8 mg/kg daily despite poor gentamicin clearance. A variety of antibiotics were used in combination with daptomycin, but the patient remained febrile, with positive blood cultures revealing vancomycin minimum inhibitory concentration (MIC) greater than 256 μg/mL and daptomycin MIC 3 μg/mL (and later, 4 μg/mL). Following the addition of tigecycline, the patient experienced rapid clinical and microbiologic improvement, and blood cultures remained negative 9 weeks after discharge.

Discussion:

Limited clinical data support the use of daptomycin for the treatment of E. faecium endocarditis, and information regarding the effects of escalating doses and combination therapy is scant. After failing multiple combination regimens, this patient responded to a combination of tigecycline and daptomycin. Daptomycin 8 mg/kg daily did not result in creatine kinase elevation in the face of evidence of possible renal dysfunction.

Conclusions:

Increasing doses of daptomycin may enhance efficacy without compromising safety, even in patients with some renal dysfunction. The combination of daptomycin and tigecycline may be useful for the treatment of multidrug-resistant E. faecium.

Daptomycin therapy for invasive Gram-positive bacterial infections in children

BACKGROUND

Clinical improvement is often delayed among children with invasive infections caused by multidrug resistant Gram-positive bacteria such as methicillin-resistant Staphylococcus aureus (MRSA) and vancomycin-resistant enterococci (VRE) despite use of standard antimicrobial therapy. Daptomycin, a bactericidal lipopeptide antibiotic, may prove useful for treatment of these infections in children, but clinical experience is lacking.

METHODS

Retrospective review of medical records of hospitalized children who received daptomycin for treatment of invasive Gram-positive bacterial infections at Children's Medical Center Dallas from December 2003 to March 2007. Bacterial isolates were tested for susceptibility to daptomycin and characterized by pulsed-field gel electrophoresis and polymerase chain reaction for staphylococcal cassette chromosome mec A.

RESULTS

Sixteen children (10 male; median age, 6.5 years) received daptomycin. Fifteen (94%) children had invasive staphylococcal disease (14, MRSA, of which 13 were community-associated; 1, methicillin-susceptible S. aureus), and 1 had urinary tract infection caused by VRE. Twelve children with disseminated staphylococcal disease had bacteremia for 2-10 days despite therapy with 2 or more of the following: vancomycin, clindamycin, rifampin, aminoglycoside, or linezolid. The addition of daptomycin resulted in bacteriologic cure in 6 of 7 evaluable patients with persistent bacteremia. No adverse events were attributed to daptomycin. Overall, 14 patients improved and were discharged home, and 2 died of complications of their underlying medical conditions.

CONCLUSIONS

The majority of patients demonstrated clinical improvement after addition of daptomycin to conventional antimicrobial therapy. Further studies are needed to assess the pharmacokinetics, pharmacodynamics, safety, and effectiveness of daptomycin in infants and children.

Daptomycin: a rapidly bactericidal lipopeptide for the treatment of Gram-positive infections

Antimicrobial resistance among Gram-positive organisms continues to increase and has reached epidemic proportions in a number of countries and within medical centers worldwide. Daptomycin is a new lipopeptide antibiotic with rapid bactericidal activity against Staphylococcus aureus. It is also active against coagulase-negative staphylococci, enterococci and streptococci. It exerts its effect through cell membrane disruption that results in dissipation of the membrane potential. Daptomycin exhibits a prolonged postantibiotic effect and is well tolerated. In Phase III clinical trials, daptomycin was found to be similar in efficacy to standard therapy in complicated skin and skin structure infections. More recently, it was approved for the treatment of S. aureus bacteremia and right-sided endocarditis. Daptomycin is not indicated for pulmonary infections. Preliminary data suggest that daptomycin may be effective in urinary tract, bone and joint infections. However, randomized clinical trials are needed to confirm these findings. Daptomycin is an effective antimicrobial agent for the treatment of various serious Gram-positive infections, especially those caused by methicillin-resistant S. aureus.

Antimicrobial activities of daptomycin, vancomycin, and oxacillin in human monocytes and of daptomycin in combination with gentamicin and/or rifampin in human monocytes and in broth against Staphylococcus aureus

We investigated the antistaphylococcal activity of daptomycin, vancomycin, oxacillin, gentamicin, and rifampin in human monocyte-derived macrophages. Compared with vancomycin and oxacillin, daptomycin had the most rapid and greatest antibacterial activity, but that of oxacillin was most sustained. The combination of daptomycin, gentamicin, and rifampin was most effective intracellularly, while daptomycin plus gentamicin and the three-drug combination were most effective extracellularly, completely eliminating viable Staphylococcus aureus.