. 2023 Apr 18;23(1):247.

doi: 10.1186/s12879-023-08182-3.

Clinical outcomes of antimicrobial resistance in cancer patients: a systematic review of multivariable models

Anders Skyrud Danielsen^{1

2}, Léa Franconeri^{3

4}, Samantha Page³, Anders Eivind Myhre⁵, Ragnhild Agathe Tornes⁶, Oliver Kacelnik³, Jørgen Vildershøj Bjørnholt^{7

8}

Affiliations

¹ Department of Microbiology, Oslo University Hospital, Oslo, Norway. andersskyrud.danielsen@fhi.no.
² Institute of Clinical Medicine, Faculty of Medicine, University of Oslo, Oslo, Norway. andersskyrud.danielsen@fhi.no.
³ Department of Infection Control and Preparedness, Norwegian Institute of Public Health, Oslo, Norway.
⁴ ECDC Fellowship Programme, Field Epidemiology Path (EPIET), European Centre for Disease Prevention and Control, (ECDC), Stockholm, Sweden.
⁵ Department of Haematology, Oslo University Hospital, Oslo, Norway.
⁶ The Library for the Healthcare Administration, Norwegian Institute of Public Health, Oslo, Norway.
⁷ Department of Microbiology, Oslo University Hospital, Oslo, Norway.
⁸ Institute of Clinical Medicine, Faculty of Medicine, University of Oslo, Oslo, Norway.

PMID: 37072711
PMCID: PMC10114324
DOI: 10.1186/s12879-023-08182-3

Clinical outcomes of antimicrobial resistance in cancer patients: a systematic review of multivariable models

Anders Skyrud Danielsen et al. BMC Infect Dis. 2023.

. 2023 Apr 18;23(1):247.

doi: 10.1186/s12879-023-08182-3.

Authors

Anders Skyrud Danielsen^{1

2}, Léa Franconeri^{3

4}, Samantha Page³, Anders Eivind Myhre⁵, Ragnhild Agathe Tornes⁶, Oliver Kacelnik³, Jørgen Vildershøj Bjørnholt^{7

8}

Affiliations

¹ Department of Microbiology, Oslo University Hospital, Oslo, Norway. andersskyrud.danielsen@fhi.no.
² Institute of Clinical Medicine, Faculty of Medicine, University of Oslo, Oslo, Norway. andersskyrud.danielsen@fhi.no.
³ Department of Infection Control and Preparedness, Norwegian Institute of Public Health, Oslo, Norway.
⁴ ECDC Fellowship Programme, Field Epidemiology Path (EPIET), European Centre for Disease Prevention and Control, (ECDC), Stockholm, Sweden.
⁵ Department of Haematology, Oslo University Hospital, Oslo, Norway.
⁶ The Library for the Healthcare Administration, Norwegian Institute of Public Health, Oslo, Norway.
⁷ Department of Microbiology, Oslo University Hospital, Oslo, Norway.
⁸ Institute of Clinical Medicine, Faculty of Medicine, University of Oslo, Oslo, Norway.

PMID: 37072711
PMCID: PMC10114324
DOI: 10.1186/s12879-023-08182-3

Abstract

Background: Infections are major causes of disease in cancer patients and pose a major obstacle to the success of cancer care. The global rise of antimicrobial resistance threatens to make these obstacles even greater and hinder continuing progress in cancer care. To prevent and handle such infections, better models of clinical outcomes building on current knowledge are needed. This internally funded systematic review (PROSPERO registration: CRD42021282769) aimed to review multivariable models of resistant infections/colonisations and corresponding mortality, what risk factors have been investigated, and with what methodological approaches.

Methods: We employed two broad searches of antimicrobial resistance in cancer patients, using terms associated with antimicrobial resistance, in MEDLINE and Embase through Ovid, in addition to Cinahl through EBSCOhost and Web of Science Core Collection. Primary, observational studies in English from January 2015 to November 2021 on human cancer patients that explicitly modelled infection/colonisation or mortality associated with antimicrobial resistance in a multivariable model were included. We extracted data on the study populations and their malignancies, risk factors, microbial aetiology, and methods for variable selection, and assessed the risk of bias using the NHLBI Study Quality Assessment Tools.

Results: Two searches yielded a total of 27,151 unique records, of which 144 studies were included after screening and reading. Of the outcomes studied, mortality was the most common (68/144, 47%). Forty-five per cent (65/144) of the studies focused on haemato-oncological patients, and 27% (39/144) studied several bacteria or fungi. Studies included a median of 200 patients and 46 events. One-hundred-and-three (72%) studies used a p-value-based variable selection. Studies included a median of seven variables in the final (and largest) model, which yielded a median of 7 events per variable. An in-depth example of vancomycin-resistant enterococci was reported.

Conclusions: We found the current research to be heterogeneous in the approaches to studying this topic. Methodological choices resulting in very diverse models made it difficult or even impossible to draw statistical inferences and summarise what risk factors were of clinical relevance. The development and adherence to more standardised protocols that build on existing literature are urgent.

Keywords: Antimicrobial resistance; Cancer; Infection; Malignancy; Mortality; Risk factors; Systematic review.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

**Fig. 1**
PRISMA flowchart of the study selection [17]

See this image and copyright information in PMC

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Clinical outcomes of antimicrobial resistance in cancer patients: a systematic review of multivariable models

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Clinical outcomes of antimicrobial resistance in cancer patients: a systematic review of multivariable models

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