Iain J Abbott1, Jason A Roberts. 1. Department of Microbiology and Infectious Diseases, Alfred Hospital, Melbourne, Australia.
Abstract
PURPOSE OF REVIEW: Febrile neutropenia presents a clinical challenge in which timely and appropriate antibiotic exposure is crucial. In the context of altered pharmacokinetics and rising bacterial resistance, standard antibiotic doses are unlikely to be sufficient. This review explores the potential utility of altered dosing approaches of β-lactam antibiotics to optimize treatment in febrile neutropenia. RECENT FINDINGS: There is a dynamic relationship between the antibiotic, the infecting pathogen, and the host. Great advancements have been made in the understanding of the pharmacokinetic changes in critical illness and the pharmacodynamic relationships of antibiotics in these settings. SUMMARY: Antibiotic treatment in febrile neutropenia is becoming increasingly difficult. Patients are of higher acuity, receive more intensive chemotherapy regimens leading to prolonged neutropenia, and are often exposed to multiple antibiotic courses. These patients display significant variability in antibiotic clearances and increases in volume of distribution compared with standard ward-based patients. Rising antibiotic resistance and a lack of new antibiotics in production have prompted alternative dosing strategies based on pharmacokinetic/pharmacodynamic data, such as extended or continuous infusions of β-lactam antibiotics, to maximize the likelihood of treatment success. A definitive study that describes a mortality benefit of such dosing regimens remains elusive and the theoretical advantages require testing in well designed clinical trials.
PURPOSE OF REVIEW: Febrile neutropenia presents a clinical challenge in which timely and appropriate antibiotic exposure is crucial. In the context of altered pharmacokinetics and rising bacterial resistance, standard antibiotic doses are unlikely to be sufficient. This review explores the potential utility of altered dosing approaches of β-lactam antibiotics to optimize treatment in febrile neutropenia. RECENT FINDINGS: There is a dynamic relationship between the antibiotic, the infecting pathogen, and the host. Great advancements have been made in the understanding of the pharmacokinetic changes in critical illness and the pharmacodynamic relationships of antibiotics in these settings. SUMMARY: Antibiotic treatment in febrile neutropenia is becoming increasingly difficult. Patients are of higher acuity, receive more intensive chemotherapy regimens leading to prolonged neutropenia, and are often exposed to multiple antibiotic courses. These patients display significant variability in antibiotic clearances and increases in volume of distribution compared with standard ward-based patients. Rising antibiotic resistance and a lack of new antibiotics in production have prompted alternative dosing strategies based on pharmacokinetic/pharmacodynamic data, such as extended or continuous infusions of β-lactam antibiotics, to maximize the likelihood of treatment success. A definitive study that describes a mortality benefit of such dosing regimens remains elusive and the theoretical advantages require testing in well designed clinical trials.
Authors: Fekade Bruck Sime; Michael S Roberts; Morgyn S Warner; Uwe Hahn; Thomas A Robertson; Sue Yeend; Andy Phay; Sheila Lehman; Jeffrey Lipman; Sandra L Peake; Jason A Roberts Journal: Antimicrob Agents Chemother Date: 2014-03-31 Impact factor: 5.191
Authors: Fekade Bruck Sime; Uwe Hahn; Morgyn S Warner; Ing Soo Tiong; Michael S Roberts; Jeffrey Lipman; Sandra L Peake; Jason A Roberts Journal: Antimicrob Agents Chemother Date: 2017-10-24 Impact factor: 5.191
Authors: Fekade Bruck Sime; Michael S Roberts; Ing Soo Tiong; Julia H Gardner; Sheila Lehman; Sandra L Peake; Uwe Hahn; Morgyn S Warner; Jason A Roberts Journal: Antimicrob Agents Chemother Date: 2015-06-29 Impact factor: 5.191
Authors: Tobias Rachow; Verena Schlüter; Sibylle Bremer-Streck; Udo Lindig; Sebastian Scholl; Peter Schlattmann; Michael Kiehntopf; Andreas Hochhaus; Marie von Lilienfeld-Toal Journal: Infection Date: 2017-05-17 Impact factor: 3.553
Authors: J Laporte-Amargos; C Gudiol; M Arnan; P Puerta-Alcalde; F Carmona-Torre; M Huguet; A Albasanz-Puig; R Parody; C Garcia-Vidal; J L Del Pozo; M Batlle; C Tebé; R Rigo-Bonnin; C Muñoz; A Padullés; F Tubau; S Videla; A Sureda; J Carratalà Journal: Trials Date: 2020-05-18 Impact factor: 2.279