PURPOSE: The SIGNIFICANT (Simple Investigation in Neutropenic Individuals of the Frequency of Infection after Chemotherapy +/- Antibiotic in a Number of Tumours) trial reported a reduction in febrile episodes (FEs) among 1,565 patients with solid cancers and lymphomas receiving cyclical, myelosuppressive chemotherapy (causing grade 4 neutropenia) in a randomized, placebo-controlled, double-blind trial of levofloxacin (P = .01). In response to concerns that increased antibacterial prescribing selects for microbial resistance, we examined our data to explore the rationale for more limited prophylaxis. PATIENTS AND METHODS: The risk of FE was calculated for control patients on first versus nonfirst cycles, with or without first-cycle FE, and within subgroups defined by cancer type, performance status (PS), age, and treatment context (adjuvant v nonadjuvant). Using the randomized trial data, the prophylactic efficacy of levofloxacin was examined for the same subgroups. RESULTS: The per-cycle FE incidence was much lower on nonfirst (3.3%) versus first cycles (8.0%). Prophylaxis was less effective for nonfirst (odds ratio [OR] = 0.78; P = .16) compared with first cycles (OR = 0.42; P < .001). However, FE on cycle 1 predicted a much higher risk of FE and a trend to continued prophylactic efficacy on subsequent cycles. FE rate was greatest for testicular cancer (27.9%), then small-cell lung cancer (17.3%), and lowest for breast cancer (11.5%). Prophylactic efficacy was consistent across age, sex, PS, treatment context, and disease type (except possibly non-Hodgkin's lymphoma). CONCLUSION: Under pressure to limit antibacterial use, these exploratory data support offering prophylactic levofloxacin on cycle 1 only of myelosuppressive cancer chemotherapy and on subsequent cycles after a cycle-1 fever. Prophylactic levofloxacin is effective regardless of age, PS, or tumor type.
RCT Entities:
PURPOSE: The SIGNIFICANT (Simple Investigation in Neutropenic Individuals of the Frequency of Infection after Chemotherapy +/- Antibiotic in a Number of Tumours) trial reported a reduction in febrile episodes (FEs) among 1,565 patients with solid cancers and lymphomas receiving cyclical, myelosuppressive chemotherapy (causing grade 4 neutropenia) in a randomized, placebo-controlled, double-blind trial of levofloxacin (P = .01). In response to concerns that increased antibacterial prescribing selects for microbial resistance, we examined our data to explore the rationale for more limited prophylaxis. PATIENTS AND METHODS: The risk of FE was calculated for control patients on first versus nonfirst cycles, with or without first-cycle FE, and within subgroups defined by cancer type, performance status (PS), age, and treatment context (adjuvant v nonadjuvant). Using the randomized trial data, the prophylactic efficacy of levofloxacin was examined for the same subgroups. RESULTS: The per-cycle FE incidence was much lower on nonfirst (3.3%) versus first cycles (8.0%). Prophylaxis was less effective for nonfirst (odds ratio [OR] = 0.78; P = .16) compared with first cycles (OR = 0.42; P < .001). However, FE on cycle 1 predicted a much higher risk of FE and a trend to continued prophylactic efficacy on subsequent cycles. FE rate was greatest for testicular cancer (27.9%), then small-cell lung cancer (17.3%), and lowest for breast cancer (11.5%). Prophylactic efficacy was consistent across age, sex, PS, treatment context, and disease type (except possibly non-Hodgkin's lymphoma). CONCLUSION: Under pressure to limit antibacterial use, these exploratory data support offering prophylactic levofloxacin on cycle 1 only of myelosuppressive cancer chemotherapy and on subsequent cycles after a cycle-1 fever. Prophylactic levofloxacin is effective regardless of age, PS, or tumor type.
Authors: Lori Wood; Christian Kollmannsberger; Michael Jewett; Peter Chung; Sebastian Hotte; Martin O'Malley; Joan Sweet; Lynn Anson-Cartwright; Eric Winquist; Scott North; Scott Tyldesley; Jeremy Sturgeon; Mary Gospodarowicz; Roanne Segal; Tina Cheng; Peter Venner; Malcolm Moore; Peter Albers; Robert Huddart; Craig Nichols; Padraig Warde Journal: Can Urol Assoc J Date: 2010-04 Impact factor: 1.862
Authors: John Coutsouvelis; Carmela E Corallo; Michael J Dooley; Josephine Foo; Ann Whitfield Journal: Support Care Cancer Date: 2009-08-07 Impact factor: 3.603
Authors: H Syrjälä; P Ohtonen; U Kinnunen; R Räty; E Elonen; T Nousiainen; E Jantunen; K Remes; M Itälä-Remes; R Silvennoinen; P Koistinen Journal: Eur J Clin Microbiol Infect Dis Date: 2010-06-17 Impact factor: 3.267
Authors: M Okera; S Chan; U Dernede; J Larkin; S Popat; D Gilbert; L Jones; N Osuji; H Sykes; C Oakley; L Pickering; F Lofts; S Chowdhury Journal: Br J Cancer Date: 2010-12-21 Impact factor: 7.640