With a 30% occurrence rate post stroke, you can tell your stroke hospital's competence if they have a infection prevention protocol and an infection protocol. Or are you OK with them just 'winging it'?
Antibiotic Class and Outcome in Post-stroke Infections: An Individual Participant Data Pooled Analysis of VISTA-Acute
Craig J. Smith1,2, 
Calvin Heal3, 
Andy Vail3, 
Adam R. Jeans4, Willeke F. Westendorp5, Paul J. Nederkoorn5, Diederik van de Beek5, 
Lalit Kalra6, Joan Montaner7,8, Mark Woodhead9, and 
Andreas Meisel10* on behalf of the VISTA Collaboration and PISCES Group- 1Greater Manchester Comprehensive Stroke Centre, Manchester Academic Health Science Centre, Salford Royal NHS Foundation Trust, Salford, United Kingdom
- 2Division of Cardiovascular Sciences, School of Medical Sciences, University of Manchester, Manchester, United Kingdom
- 3Centre for Biostatistics, Manchester Academic Health Science Centre, University of Manchester, Manchester, United Kingdom
- 4Division of Clinical Support Services and Tertiary Medicine, Department of Microbiology, Salford Royal NHS Foundation Trust, Salford, United Kingdom
- 5Department of Neurology, Amsterdam Neuroscience, Academic Medical Center, University of Amsterdam, Amsterdam, Netherlands
- 6Clinical Neurosciences, King's College Hospital NHS Foundation Trust London, London, United Kingdom
- 7Neurovascular Research Laboratory, Vall d' Hebron Institute of Research, Barcelona, Spain
- 8Stroke Research Program, Department of Neurology, Institute de Biomedicine of Seville, Hospital Universitario Virgen Macarena, IBiS/Hospital Universitario Virgen del Rocío/CSIC/University of Seville, Seville, Spain
- 9Faculty of Biology, Medicine and Health, Manchester Academic Health Science Centre, University of Manchester, Manchester, United Kingdom
- 10Department of Neurology, NeuroCure Clinical Research Center, Center for Stroke Research Berlin, Charité Universitaetsmedizin Berlin, Berlin, Germany
Introduction: Antibiotics used to treat
post-stroke infections have differing antimicrobial and
anti-inflammatory effects. Our aim was to investigate whether antibiotic
class was associated with outcome after post-stroke infection.
Methods: We analyzed pooled individual
participant data from the Virtual International Stroke Trials Archive
(VISTA)-Acute. Patients with ischemic stroke and with an infection
treated with systemic antibiotic therapy during the first 2 weeks after
stroke onset were eligible. Antibiotics were grouped into eight classes,
according to antimicrobial mechanism and prevalence. The primary
analysis investigated whether antibiotic class for any infection, or for
pneumonia, was independently associated with a shift in 90 day modified
Rankin Scale (mRS) using ordinal logistic regression.
Results: 2,708 patients were eligible
(median age [IQR] = 74 [65 to 80] y; 51% female; median [IQR] NIHSS
score = 15 [11 to 19]). Pneumonia occurred in 35%. Treatment with
macrolides (5% of any infections; 9% of pneumonias) was independently
associated with more favorable mRS distribution for any infection [OR
(95% CI) = 0.59 (0.42 to 0.83), p = 0.004] and for pneumonia [OR (95% CI) = 0.46 (0.29 to 0.73), p
= 0.001]. Unfavorable mRS distribution was independently associated
with treatment of any infection either with carbapenems, cephalosporins
or monobactams [OR (95% CI) = 1.62 (1.33 to 1.97), p < 0.001], penicillin plus β-lactamase inhibitors [OR (95% CI) = 1.26 (1.03 to 1.54), p = 0.025] or with aminoglycosides [OR (95% CI) = 1.73 (1.22 to 2.46), p = 0.002].
Conclusion: This retrospective study has
several limitations including effect modification and confounding by
indication. Macrolides may have favorable immune-modulatory effects in
stroke-associated infections. Prospective evaluation of the impact of
antibiotic class on treatment of post-stroke infections is warranted.
Introduction
Infections frequently complicate stroke, occurring in up
to 30% of patients, and increase the likelihood of death and
unfavorable outcomes in survivors (1–3).
Whilst antibiotics are the mainstay of treatment, the microbiological
etiology of common infections complicating stroke, such as pneumonia or
urinary tract infection, are poorly characterized. Further, there are no
antibiotic treatment trials of infections complicating stroke. The
effectiveness of different antibiotic classes is therefore uncertain,
there is a lack of evidence to inform antibiotic guidelines (e.g., for
pneumonia complicating stroke) and empirical antibiotic treatment is
variable (4, 5).
Inflammatory and immune responses play a central role in the pathophysiology of stroke and associated clinical outcomes (6).
Post-stroke infections exacerbate deleterious inflammatory and immune
responses, which may impact further on adverse outcomes (7).
Antibiotics used to treat post-stroke infections can modulate the
pathophysiology of experimental stroke independent of their
anti-microbial effects, by modulating inflammatory or excitotoxic
pathways (8–14). Randomized trials of prophylactic antibiotics in acute stroke have failed to improve clinical outcomes or prevent pneumonia (3, 5, 15–17),
and had varying effects in preventing urinary tract infections. This
has raised questions about the potential effectiveness of some
antibiotic classes commonly used for post-stroke infections,
particularly pneumonia (18).
Taken together, these data suggest that choice of
antibiotic class for post-stroke infections could have important
implications for clinical outcomes. We therefore hypothesized that
antibiotic class influences outcome after stroke relating to spectrum of
antimicrobial coverage and to other (e.g., inflammatory) mechanisms
independent of antimicrobial effects. The aim of this study was to
investigate whether class of antibiotic used to treat clinically
diagnosed pneumonia or any infection in the first 2 weeks after stroke
was associated with clinical outcomes.
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