Salvage Treatment with Cefiderocol Regimens in Two Intravascular Foreign Body Infections by MDR Gram-Negative Pathogens, Involving Non-Removable Devices
The objective of this study was to describe two challenging cases of intravascular foreign body infections caused by multidrug-resistant Gram-negative pathogens requiring complex antimicrobial regimens including cefiderocol and successfully treated without implant removal.
Methods
Clinical charts and microbiological reports of the clinical cases.
Results
Case 1 included a left ventricular assist device (HEARTMATE 3™Abbot®) infection due to Achromobacter xylosoxidans, while case 2 included a portal prosthesis infection due to Pseudomonas aeruginosa. As the pathogens were multidrug-resistant (MDR), both cases required antimicrobial regimens with cefiderocol; treatment was successful without implant removal. Importantly, case 1 presented a probable, drug-induced thrombocytopenia, a non-previously described side effect related to cefiderocol.
Conclusion
Cefiderocol may be an additional, promising drug to the available arsenal, even for challenging foreign body infections caused by MDR Gram-negative pathogens.
Key Summary Points
Multidrug-resistant (MDR) Gram-negative (GN) infections have become a major health problem worldwide.
Intravascular infections are particularly challenging when they involve non-removable devices and are caused by MDR microorganisms.
Cefiderocol is a promising added drug to the available armamentaria against MDR Gram-negative bacteria.
The cases reported here suggest the potential use of cefiderocol in foreign-body infections.
Cefiderocol could induce drug-related thrombocytopenia.
Digital Features
This article is published with digital features, including a summary slide, to facilitate understanding of the article. To view digital features for this article go to https://doi.org/10.6084/m9.figshare.13348340.
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Introduction
Multidrug-resistant (MDR) Gram-negative infections have become a major health problem worldwide [1]. Such infections are associated with high morbidity and mortality, affecting patients with poor medical conditions who more often receive inadequate empirical therapy and whose final treatment, in most cases, includes nephrotoxic antibiotics such as amikacin or colistin [2].
In Gram-negative bacteria, the bacterial outer membrane (absent in Gram-positive bacteria) can restrict β-lactam entry and contribute to a concentration of β-lactamase molecules. High levels of resistance can occur if either reduced entry or increased efflux sufficiently excludes β-lactam molecules from the periplasmic space, or a heavy concentration of β-lactamase molecules is present. To increase the efficacy of well-known antibiotics, clinicians can use the “Trojan horse” strategy, in which drugs are transported into the periplasmic space via the iron uptake pathway. That stated, cefiderocol is a cephalosporin with a catechol group in the side chain at position 3 that binds free iron (siderophore) and confers additional stability against a wide range of serine and metallo ß-lactamases[3, 4]. In recent surveillance studies that tested bacterial clinical isolates from the United States, Asia–Pacific and Europe, MIC90 for cefiderocol against meropenem-non-susceptible (MIC > 4 mg/L) isolates of Enterobacteriaceae, Pseudomonas aeruginosa (Pae), Acinetobacter baumannii and Stenotrophomonas maltophilia [5] was ≤ 4 mg/L in all cases, except for Enterobacteriaceae harboring SHV/TEM extended-spectrum ß-lactamases (ESBL), NDM and KPC-2 in the same strain that have MIC values of 0.5–8 mg/L [6‐9].
In vivo efficacy of cefiderocol has been documented in multiple, humanized drug exposure murine and rat models of infection using different MDR and extremely drug-resistant (XDR) strains [10]. In humans, efficacy and safety of this cefalosporin (2 g/8 h) was evaluated in a randomized clinical trial against imipenem/cilastatin (1 g/8 h), with both being administered intravenously for 7–14 days for 1 h in hospitalized adults with urinary tract infections [11] and in patients with nosocomial pneumonia[12]. However, more reports assessing the use of cefiderocol are necessary to understand the efficacy and safety of this drug.
We describe two severe infections caused by MDR-Achromobacter xylosoxidans (Ax) and XDR-Pae, in which both involved non-removable intravascular devices and treatment was successful with combined regimens with cefiderocol.
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Methods
We described the characteristics and outcome of two patients who received cefiderocol for severe infections caused by MDR pathogens. We also reviewed published data of randomized trials, case reports and in vitro activity of cefiderocol. Written informed consent for publication of this article was obtained from both patients. Patients were identified by reviewing records, no formal evaluation of ethics committee was required.
Results
Patient 1
A 66-year-old man with refractory chronic heart failure with poor response to medical treatment, and a slow-growing lung adenocarcinoma contraindicating a heart transplant, received a left ventricular assist device (HEARTMATE 3™Abbot). While under mechanical ventilation, he presented with a purulent tracheobronchitis due to MDR-Ax. The patient received piperacillin-tazobactam at 4.5 g/6 h in accordance with the susceptibility pattern (Fig. 1a); however, at day 5, the patient remained febrile and blood cultures tested positive for the same strain. The patient then received tigecycline 100 mg/12 h and colistin 3 MU/8 h intravenously. Bacteriemia persisted for 21 days. A cardiac and corporal 18F-FDG-positron emission tomography, combined with computed tomography, did not show septic metastases. Although the device did not reveal any relevant uptake, long-lasting bacteremia and the absence of other identified active foci led to the assumption of a device-associated infection. Cefiderocol was reported as sensitive in our laboratory, with an inhibition halo of 21 mm. The drug was therefore requested through the compassionate use program and started 25 days after the first positive blood culture. Yet, a final blood culture performed just prior to cefiderocol administration tested negative. The administered dose was 2 g/8 h in a 3-h infusion, while piperacillin-tazobactam and tigecycline remained. Colistin was discontinued due to renal function deterioration. Weekly surveillance blood cultures tested negative during treatment. Within 3 days of cefiderocol administration, C-reactive protein serum concentration progressively decreased and patient’s health improved. Within 14 days of dual ß-lactam therapy, the patient developed thrombocytopenia (53,000 platelets/mm3). Cefiderocol was, therefore, discontinued while piperacillin-tazobactam and tigecycline were continued for 28 additional days. Platelet count returned to baseline levels within 3 days of cefiderocol discontinuation. Oral suppressive therapy with minocycline was prescribed; at 12-month follow-up, the patient was in good clinical condition and blood cultures repeatedly tested negative.
Fig. 1
Descriptions of pathogen susceptibility patterns, antibiotic consumption, blood culture results and main clinical and biochemical parameters in case 1 (a) and 2 (b)
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Patient 2
A 55-year-old man was admitted to the hospital for portal revascularization. He presented with a thrombophilic disorder that caused portal cavernomatosis and acute mesenteric thrombosis that required ileal resection. Additionally, the patient had underwent a renal transplant in 2013.
Portal revascularization was achieved via a transjugular intrahepatic portosystemic shunt insertion; however, complications arose due to a bilioportal fistula and bacteremia caused by XDR-Pae. The patient, therefore, received meropenem 2 g/8 h as well as colistin 3 MU/8 h due to persistent fever. Infection persisted for more than 1 month, suggesting a shunt infection; the patient developed kidney function deterioration (Fig. 1b). The patient then underwent a combined kidney–liver transplant, although the distal part of the portal prosthesis (approximately 20%) could not be removed during surgery. In spite of intravenous colistin being administered before and after transplant surgery, the patient presented with bacteremia due to the same XDR-Pae, presumably from the residual shunt, within 5 days of surgery. The bacteremia probably superinfected an intraabdominal hematoma, subsequently requiring surgical drainage. XDR-Pae grew on both the surgical cultures of the shunt and the intra-abdominal hematoma. Disk diffusion test for cefiderocol showed an inhibition zone of 23 mm, and it was therefore requested through a compassionate use program. The patient initially received intravenous cefiderocol 2 g/8 h in a 3-h infusion and colistin 3 MU/8 h for 2 weeks, with an additional 4 weeks of cefiderocol as monotherapy. No adverse events were observed during antibiotic treatment. The patient’s evolution with respect to persistent bacteremia by XDR-Pae was good, with negative blood cultures, no further episodes of fever, and infection-free status within 3 months of antibiotic treatment discontinuation.
Written informed consent for inclusion in this report was obtained from both patients.
Discussion
Our report is the first to describe the outcome of two patients with severe infections due to Gram-negative bacteria that involved non-removable intravascular devices. In both cases, treatment with combined regimens with cefiderocol was successful and no implant removal was necessary. A recent study using a worldwide collection of 8954 clinical isolates of Pae, Enterobacteriaceae, Acinetobacter baumannii, Stenotrophomonas maltophilia and Burkholderia cepacia, collected from 2015 to 2016, revealed that cefiderocol demonstrated potent in vitro activity (MIC ≤ 4 mg/L) against the majority (99.4%) of these isolates, including MDR strains [8, 13].
We assumed that both patients presented with intravascular device-associated infection, given bacteremia persistence and in spite of correct antibiotic administration per in vitro-tested susceptibilities and no other secondary foci. Cefiderocol may have had a role in both cases. In the first case, the role of cefiderocol may be less relevant, as blood cultures tested negative upon drug initiation. However, there was a clinical and analytical improvement, such as the rapid CRP decrease after administration of the drug. As this patient continues receiving suppressive therapy with oral minocycline 100 mg/12 h, it is not possible to confirm a complete cure of the infection. However, the commonly reached serum concentration of minocycline is < 2 mg/L and the MIC of this drug for this strain was 3 mg/L. Its activity may have therefore been only partial, which makes it difficult to assume that minocycline alone is controlling the infection.
Cefiderocol has also been reported in recent cases of intravascular devices/infections. Trecarichi et al. reported a case of XDR-A. baumannii-causing pneumonia and bloodstream infection in a patient on extracorporeal membrane oxygenation[14]. Furthermore, a separate, recent report of endocarditis due to XDR-Pae was successfully treated with cefiderocol[15]. Although the patient underwent aortic valve surgery after six doses of cefiderocol, the valve culture was negative. Thus, cefiderocol may have potential activity against biofilm-forming Gram-negative pathogens, which are eager to capture iron. Infected devices should be removed whenever possible. When removal cannot be achieved, antimicrobials retaining anti-biofilm activity should be prioritized. A recent report suggests that cefiderocol may reduce biofilm and may inhibit planktonic growth of Gram-negative bacteria [16].
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Patients in our first case and in that reported by Edgeworth et al. developed thrombocytopenia and neutropenia, respectively. Interestingly, both patients received cefiderocol and a second beta-lactam (piperacillin-tazobactam and meropenem, respectively) for ≥ 2 weeks. Important side effects of this kind have never been described in the literature.
In conclusion, in challenging MDR and XDR Gram-negative infections, cefiderocol may be an additional, promising drug to the therapeutic options available for clinicians, even in cases of difficult-to-treat, intravascular foreign body infections with non-removable devices.
Acknowledgements
We acknowledge the Infectious Disease, Microbiology, Cardiology, Pharmacy Departments, as well as the Liver Transplant Unit for their contributions. Thank you Anthony Armenta for providing medical editing assistance for the report at hand. JMM received a personal 80:20 research grant from Institut d’Investigacions Biomèdiques August Pi i Sunyer (IDIBAPS), Barcelona, Spain, during 2017–21.
Funding
No funding or sponsorship was received for this study or publication of this article.
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Authorship
All named authors meet the international Committee of Medical Journal Editors criteria for authorship for this article, take responsibility for the integrity of the work as a whole, and have given their approval for this version to be published.
Authorship Contributions
MB and MH-M have contributed equally.
Disclosures
Marta Bodro, Marta Hernandez-Meneses, Laura Linares, Asunción Moreno, Elena Sandoval, Pol Olivas, María Hernández-Tejero and Francesc Marco have nothing to disclose. José M. Miró received a personal 80:20 research grant from Institut d’Investigacions Biomèdiques August Pi i Sunyer (IDIBAPS), Barcelona, Spain, during 2017–21. Alex Soriano is an Editor-in-Chief of this journal. Juan Ambrosioni is an Editorial Board member of this journal.
Compliance with Ethics Guidelines
Written informed consent for publication of this article was obtained from both patients. Patients were identified by reviewing records, no formal evaluation of ethics committee was required.
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Salvage Treatment with Cefiderocol Regimens in Two Intravascular Foreign Body Infections by MDR Gram-Negative Pathogens, Involving Non-Removable Devices
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