Abstract
Acute myeloid leukemia (AML) intensive chemotherapy combined with broad-spectrum antibiotics, leads to gut microbiota dysbiosis promoting pathological conditions and an increased incidence of complications. Here we report findings from a phase II single-arm, multicenter study evaluating autologous fecal microbiota transfer (AFMT) in 25 AML patients treated with intensive chemotherapy and antibiotics (ClinicalTrials.gov number: NCT02928523). The co-primary outcomes of the study are to evaluate the efficacy of AFMT in dysbiosis correction and multidrug-resistant bacteria eradication. The main secondary outcomes are to define a dysbiosis biosignature, to evaluate the effect of dysbiosis correction on patient clinical status, to assess the short and mid-term safety of AFMT in this immunocompromised population, and to evaluate the feasibility of the AFMT procedure and acceptability by the patient. Intensive induction chemotherapy induces a dramatic decrease of α-diversity indices, and a microbial dysbiosis with a significant shift of the microbial communities and domination of pro-inflammatory families. After AFMT treatment, α-diversity indices return to their initial mean levels and the similarity index shows the restoration of microbial communities. The trial meets pre-specified endpoints. AFMT appears to be safe and may be effective for gut microbiota restoration in AML patients receiving intensive chemotherapy and antibiotics, with an excellent gut microbiota reconstruction based on both richness and diversity indices at the species level.
Highlights
Acute myeloid leukemia (AML) intensive chemotherapy combined with broad-spectrum antibiotics, leads to gut microbiota dysbiosis promoting pathological conditions and an increased incidence of complications
We report the results of a single-arm study evaluating autologous fecal microbiota transfer (FMT) (AFMT) in AML patients treated with intensive chemotherapy and antibiotics
A total of 62 AML patients were screened in 7 different centers, 25 were treated with autologous fecal microbiota transfer (AFMT), and 20 were considered as the per-protocol population
Summary
Acute myeloid leukemia (AML) intensive chemotherapy combined with broad-spectrum antibiotics, leads to gut microbiota dysbiosis promoting pathological conditions and an increased incidence of complications. AFMT appears to be safe and may be effective for gut microbiota restoration in AML patients receiving intensive chemotherapy and antibiotics, with an excellent gut microbiota reconstruction based on both richness and diversity indices at the species level. The different treatment phases of AML require prolonged hospital stays in a protected environment and multiple courses of antibiotic treatment, due to the high risk of life-threatening infectious complications[2,3] Such treatments have been demonstrated to dramatically alter the rich and diverse composition of the human gut microbiota in AML patients[4,5,6]. AFMT is safe, reduces the count of antibiotic resistance genes and may be effective for gut microbiota restoration in patients receiving intensive chemotherapy and antibiotics for AML, with an excellent gut microbiota reconstruction based on both richness and diversity indexes at the species level. Our findings suggest that therapeutic manipulation of gut microbiota may become a treatment option to restore gut microbiota diversity and potentiate cancer management
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