Refractory Bacteremia Research Articles

Clinical characteristics and genomic changes of recurrent Methicillin‐Resistant Staphylococcus aureus bacteremia

BackgroundRecurrent or persistent methicillin-resistant Staphylococcus aureus (MRSA) bacteremia presents significant clinical challenges. Comprehensive genomic-scale studies on the genetic changes in MRSA that correspond to refractory bacteremia are lacking. MethodFrom 2011 to 2019, MRSA blood isolates were collected from patients with persistent or recurrent bacteremia at a teaching hospital in southern Taiwan. Whole-genome sequencing (WGS) captured the genomic changes in strains responsible for refractory bacteremia, and the altered susceptibilities to specific antimicrobial agents were assessed through measurements of minimal inhibitory concentrations (MICs). ResultA total of 35 MRSA blood isolates from 15 patients with recurrent or persistent bacteremia were analyzed. Reduced susceptibilities to at least one anti-MRSA agent developed in strains from seven (46.7 %) patients. Of them, a non-synonymous mutation on a global regulator mgrA was associated with reduced daptomycin susceptibility, while an increase in vancomycin MIC was linked to mutations in genes encoding LCP family protein. A 16-fold increase in MIC to fusidic acid was connected to a mutation in the elongation factor G. These recurrent strains commonly exhibited a loss or acquisition of adhesion genes that were involved in biofilm formation, including fnbA, fnbB, and sdrD, and easG series genes of type VII secretion system. ConclusionChanges in the susceptibility of successive strains to common anti-MRSA agents were frequently observed in recurrent MRSA bacteremia. These changes were linked to modifications in genes of regulatory cascade, peptidoglycan binding, adhesion, and type VII secretion system.

A broad-spectrum synthetic antibiotic that does not evoke bacterial resistance.

Antimicrobial resistance (AMR) poses a critical threat to public health and disproportionately affects the health and well-being of persons in low-income and middle-income countries. Our aim was to identify synthetic antimicrobials termed conjugated oligoelectrolytes (COEs) that effectively treated AMR infections and whose structures could be readily modified to address current and anticipated patient needs. Fifteen chemical variants were synthesized that contain specific alterations to the COE modular structure, and each variant was evaluated for broad-spectrum antibacterial activity and for invitro cytotoxicity in cultured mammalian cells. Antibiotic efficacy was analyzed in murine models of sepsis; invivo toxicity was evaluated via a blinded study of mouse clinical signs as an outcome of drug treatment. We identified a compound, COE2-2hexyl, that displayed broad-spectrum antibacterial activity. This compound cured mice infected with clinical bacterial isolates derived from patients with refractory bacteremia and did not evoke bacterial resistance. COE2-2hexyl has specific effects on multiple membrane-associated functions (e.g., septation, motility, ATP synthesis, respiration, membrane permeability to small molecules) that may act together to negate bacterial cell viability and the evolution of drug-resistance. Disruption of these bacterial properties may occur through alteration of critical protein-protein or protein-lipid membrane interfaces-a mechanism of action distinct from many membrane disrupting antimicrobials or detergents that destabilize membranes to induce bacterial cell lysis. The ease of molecular design, synthesis and modular nature of COEs offer many advantages over conventional antimicrobials, making synthesis simple, scalable and affordable. These COE features enable the construction of a spectrum of compounds with the potential for development as a new versatile therapy for an imminent global health crisis. U.S. Army Research Office, National Institute of Allergy and Infectious Diseases, and National Heart, Lung, and Blood Institute.

255. Ticagrelor Aids Platelet-Mediated Clearance in a Refractory Staphylococcus aureus Endovascular Infection with Septic Emboli

BackgroundThe pore-forming alpha-toxin produced by Staphylococcus aureus (SA) decreases the viability and increases the clearance of platelets, a critical element of innate immune defense in endovascular infection. Our group recently identified that ticagrelor (TICA) blocks alpha-toxin-induced platelet clearance, protecting mice in a lethal systemic SA infection model. Here, we describe a case report in which TICA, added to antimicrobial therapy of a persistent methicillin-susceptible SA (MSSA) bacteremia associated with a septic aortic thrombus, resulted in immediate bacteremia clearance. We further explore TICA synergy with antibiotics and human platelets in vitro.MethodsAntibiotic susceptibility of an MSSA strain from a patient treated with TICA for refractory bacteremia was tested by MIC and checkerboard assays in MHB or RPMI at standard (105 CFU/mL) or high (107 CFU/mL) inocula using TICA, ertapenem (ETP), cefazolin (CZ), or nafcillin (NAF) alone vs. ETP+CZ ± TICA. Killing assays with human platelets ± TICA against SA were also performed.ResultsSA bacteremia secondary to a septic aortic thrombus (>4 mm) with multiple secondary pyogenic foci refractory to standard CZ and subsequent salvage CZ+ETP for 5 days rapidly cleared within 24 h after the addition of TICA. Thrombocytopenia resolved concurrently. Discontinuation of TICA on day 12 led to rebound thrombocytopenia, and TICA was restarted, once again resulting in resolution of thrombocytopenia. TICA alone lacked in vitro activity against SA, nor was TICA synergistic with ETP+CZ. In contrast, addition of a physiological achievable concentration of TICA dramatically sensitized SA to human platelet killing (p< 0.001) in vitro.Figure 1 Figure 2 Figure 3 ConclusionIn a complex case of aortic plaque rupture with septic thrombus, multiple septic emboli, and refractory MSSA bacteremia, addition of TICA to antimicrobial therapy yielded unanticipated immediate clinical and microbiological success. The profound therapeutic effect of TICA in vivo was corroborated by the enhanced staphylocidal activity of human platelets in vitro in the presence of physiological concentrations of the antiplatelet agent. TICA warrants further study as adjunctive treatment of refractory SA bacteremia due to a primary endovascular focus when thrombocytopenia is present.Disclosures Victor Nizet, MD, Centauri Therapeutics (Advisor or Review Panel member)Cidara Therapeutics (Advisor or Review Panel member)InhibRx (Advisor or Review Panel member)Roche Pharmaceutical (Advisor or Review Panel member)

217. Combination Salvage Therapy with Cefazolin Plus Ertapenem for Refractory Methicillin-Susceptible Staphylococcus aureus Bacteremia

BackgroundSuboptimal therapy against methicillin-sensitive Staphylococcus aureus (MSSA) may have catastrophic consequences in severe infections such as endocarditis or epidural abscess. High MSSA inocula have been associated with clinical failure in patients receiving cefazolin (CZ), particularly when used at low doses, associated with a CZ inoculum effect. We previously described that adding ertapenem (ETP) to CZ led to synergism against MSSA and sensitized the pathogen to host innate immune factors. Here we expand our experience with CZ plus ETP as salvage therapy for 11 cases of refractory MSSA bacteremia (lacking source control problems) and explore CZ+ETP combination in vitro and in vivo.MethodsSix available MSSA strains from patients treated with CZ+ETP for refractory bacteremia were tested in Mueller–Hinton Broth or RPMI media at standard (105 CFU/mL) or high (107 CFU/mL) inocula by MIC, checkerboard, and time-kill assays using ETP, CZ or nafcillin (NAF) alone vs. ETP+NAF or ETP+CZ. Disk diffusion synergy assays between CZ and ETP were also performed. CZ, ETP and CZ+ETP were tested in a rat endocarditis model using well described MSSA, TX0117 and TX0117c.Results11 consecutive patients with MSSA bacteremia (6 confirmed endocarditis) refractory to standard CZ or NAF rapidly cleared with CZ+ETP. 9 patients had daily positive blood cultures, and 8 cleared in ≤24 hr, including those with ≥2 cm vegetations. All 11 survived hospitalization. In MHB, 3/6 MSSA exhibited a CZ inoculum effect (CZ MIC >3 log2 in 107 vs. 105 CFU/mL), but only 1 showed a significant CZ inoculum effect in RPMI. CZ+ETP was significantly more efficacious than CZ in a rat model of MSSA endocarditis utilizing a strain displaying a CZ inoculum effect, despite only modest benefit observed in vitro for 6 MSSA isolates.ConclusionCZ+ETP combination therapy yielded profound clinical success in severe MSSA infections with high bacterial densities, as demonstrated by rapid bacteremia clearance. Enhanced efficacy was also observed in a rat endocarditis model. The anti-staphylococcal activity of CZ+ETP in vivo exceeded that observed in vitro, consistent with our prior observations of host innate immune cooperativity with the regimen. CZ+ETP warrants further study for the treatment of refractory MSSA bacteremia and endocarditis.Disclosures All authors: No reported disclosures.

A novel combination regimen for the treatment of refractory bacteremia due to multidrug-resistant Pseudomonas aeruginosa in a liver transplant recipient

Both bacteremia and biliary cast syndrome are serious post-transplant complications in liver transplant recipients. In the setting of increasing drug resistance in the current era, management of infections caused by multidrug-resistant (MDR) bacteria has proven challenging. We present a case of a liver transplant recipient who developed biliary cast syndrome and intractable MDR Pseudomonas bacteremia that failed to resolve with conventional antimicrobial therapy and which was finally controlled by a novel combination regimen of colistimethate, doripenem, and tobramycin. Future studies validating the clinical efficacy of this combination strategy are warranted.

Refractory Bacteremia and Osteomyelitis Resulting in Fatal Bacteremic Pneumonia with Multiorgan Failure Caused by Mycobacterium simiae in a Non-Human Immunodeficiency Virus-Infected Adult

Bacteremic pneumonia caused by Mycobacterium simiae in non-human immunodeficiency virus (HIV)-infected patients has rarely been reported. We describe a non-HIV-infected adult with refractory bacteremia, osteomyelitis, and colonization of M. simiae in the respiratory tract who subsequently developed fatal bacteremic pneumonia. The isolate was confirmed as M. simiae by 16S rRNA gene analysis.

Renal artery mycotic pseudoaneurysm: diagnosis with multi-detector computed tomographic angiography

Renal artery mycotic pseudoaneurysms are uncommon complications of bacterial endocarditis and bacteremia. Complications include hemorrhage and refractory bacteremia, and prompt diagnosis can lead to appropriate treatment. Reported is a case where multidetector computed tomography angiography led to the correct diagnosis.

Increasing prevalence of methicillin-resistant Staphylococcus aureus causing nosocomial infections at a university hospital in Taiwan from 1986 to 2001.

A rapid emergence of nosocomial methicillin-resistant Staphylococcus aureus (MRSA) infection (from 26.3% in 1986 to 77% in 2001) was found. The susceptibility of 200 nonduplicate blood isolates of MRSA and 100 MRSA isolates causing refractory bacteremia to 22 antimicrobial agents disclosed that glycopeptides, quinupristin-dalfopristin, and linezolid remained the most active agents.