To the Editor:
We recently read the very interesting paper by Walti et al. [1] in which they investigated infections occurred in Acute Myeloid Leukemia (AML) patients after induction chemotherapy. Between 2006 and 2018 they retrospectively collected data of newly diagnosed (ND) AML treated with cladribine, high dose cytarabine, G-CSF and dose escalated mitoxantrone (CLAG-M) or standard dose cytarabine plus anthracycline (7 + 3). Authors confirmed that infections are very common after intensive induction chemotherapy, reporting a similar overall infection rate in both cohorts, albeit due to the increased incidence of fever of unknown origin (FUO) in the 7 + 3 cohort, and an increased incidence of microbiologically documented infections after CLAG-M, the latter probably due to the higher cytarabine dose and the deeper immunosuppression. They also confirmed that infections are the most frequent cause of morbidity in the setting of neutropenic AML patients undergoing intensive induction. We would like to report our retrospective results in 93 ND AML patients ≥18 years old (excluding promyelocytic leukemia) treated between 2015 and 2022 with a fludarabine-based induction resulting in neutropenia (neutrophiles count <500/mmc) ≥7 days. Chemotherapy was administered intravenously: idarubicine 6 mg/m2/day (days 1,3,5), fludarabine 25 mg/m2/day, high dose cytarabine 2000 mg/m2/day, ± etoposide 100 mg/m2/day (FLAI/FLAIE), on days 1–5. We describe infections occurring during induction from start of chemotherapy till up to the following 90 days with a median of 45 days of observation. In the majority of patients (82/93, 88.2%) censoring was the next treatment. Our population received standard antifungal prophylaxis (oral posaconazole 300 mg daily), without receiving antibacterial prophylaxis due to the high rates of local fluoroquinolone resistance. The baseline characteristics of our population and the infection events occurred are summarized in Table 1. In our analysis 84/93 (90.3%) patients presented fever, defined as a single temperature measurement of ≥38.5 °C or a temperature of ≥38.0 °C in two consecutive detections over a 1-hour period. Overall, we observed 45/93 (48.4%) microbiologically documented infections, with 34/93 (36.6%) bacterial infections, 10/93 (10.8%) fungal and 1/93 (1.1%) viral. Instead, in those 23/93 (24.7%) patients with a radiological documented infection the incidence of bacterial and fungal documentation was similar: 11/93 (11.8%) and 10/93 (10.8%), respectively.
Bacterial bloodstream infections were the most frequent and documented in 30/93 (32.3%) patients followed by lower respiratory tract infections observed in 21/93 (22.6%).
Finally, among 6/93 (6.4%) patients who died, 3/93 (3.2%) had an infectious related death: one for a gram-negative septic shock and two for an Aspergillus Pneumonia while on posaconazole prophylaxis oral suspension. The remaining 3/93 (3.2%) patients died for progressive disease. Only one patient (1.1%) was admitted to intensive care unit (ICU).
In our population we did not find any baseline factors statistically associated with increased rates of overall infections, including severe baseline neutropenia. Comparing our ND FLAI(E) to Walti et al. ND CLAG-M, the incidence of fever and infections (microbiologically and/or radiologically documented) was similar, but we observed a higher incidence of bloodstream infections.
We noticed a slightly higher mortality rate in our cohort probably due to the worse performance status of our population. Despite that, we report a lower rate of ICU admission and a similar incidence of infectious related death, notably not related to bacterial infections but to invasive fungal infections (IFI). We also noted a drastic reduction of IFI after the availability of posaconazole oral tablets (2/10), compared to the oral suspension (8/10). Fluoroquinolone prophylaxis still has grade A recommendation [2] but there are increasing warnings about its use in the areas with high fluoroquinolone resistance, like Italy. Indeed, the overuse of antibacterial drugs for prolonged time induces changes in the microbiome composition causing dysbiosis, a condition that promotes further infection complications [3]. In our cohort omitting prophylaxis had probably caused a similar fever rate but a higher incidence of bloodstream infections. However, most of our patients proceeded to next cycle of chemotherapy, indicating that morbidity was not increased.
With the limitations of a retrospective study, our results support the safety of avoiding fluoroquinolone prophylaxis in AML patients treated with FLAI(E), although we think it is mandatory to have a highly efficient protocol for prompt treatment of neutropenic fever in inpatients.
Data availability
The datasets generated and analyzed for this study are available from the corresponding author upon reasonable request.
References
Walti CS, Halpern AB, Xie H, Kiem ES, Chung EL, Schonhoff KG, et al. Infectious complications after intensive chemotherapy with CLAG-M versus 7+3 for AML and other high-grade myeloid neoplasms. Leukemia. 2023;37:298–307. https://doi.org/10.1038/s41375-022-01786-9
Owattanapanich W, Chayakulkeeree M. Efficacy of levofloxacin as an antibacterial prophylaxis for acute leukemia patients receiving intensive chemotherapy: a systematic review and meta-analysis. Hematology. 2019;24:362–8. https://doi.org/10.1080/16078454.2019.1589706
Galloway-Peña JR, Shi Y, Peterson CB, Sahasrabhojane P, Gopalakrishnan V, Brumlow CE, et al. Gut microbiome signatures are predictive of infectious risk following induction therapy for acute myeloid leukemia. Clin Infect Dis. 2020;71:63–71. https://doi.org/10.1093/cid/ciz777
Acknowledgements
The authors of this publication are members of the European Reference Network for rare hematological diseases EuroBloodNet.
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MB, EZ and ASa conceived the study; ASa, MM and ASi, cowrote the manuscript and drafted the first version. All the authors further revised, approved the final version and agree to be held accountable for the content.
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Santoni, A., Malchiodi, M., Zappone, E. et al. Infectious complications after induction chemotherapy with FLAI(E) in newly diagnosed AML, omitting antibacterial prophylaxis. Leukemia 37, 1580–1582 (2023). https://doi.org/10.1038/s41375-023-01930-z
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DOI: https://doi.org/10.1038/s41375-023-01930-z