Harish Bangalore scite author profile

While there is evidence for cardiac arrhythmias associated with macrolide and fluoroquinolone antibiotics, there is still debate among health care providers as to whether this risk of arrhythmia is overstated. A joint panel of the US Food and Drug Administration suggested that macrolide and fluoroquinolone labels need much stronger warnings regarding the possible serious adverse cardiac effects associated with these antibiotics, especially since they are so widely prescribed. And while health care providers may differ on the pertinence of the cardiac risks associated with antibiotic use, they can undoubtedly minimize the cardiac effects that are associated with these antibiotics by paying attention to the cardiac risk factors and drug history associated with the patient. Relevant studies for our review were identified from a PubMed search using keywords and combined word searches involving macrolides, fluoroquinolones, and cardiac arrhythmias. We attempted to include as many recent (>2015) articles as possible. We included case reports, randomized, controlled trials, observational studies, case-control studies, systematic reviews, and retrospective studies. Underlying cardiac issues can predispose patients to harmful cardiac side effects that can be exacerbated in the presence of antibiotics. The health care provider should rule out any risk factor associated with antibiotic-induced cardiac arrhythmia in the event that a patient does need a macrolide or fluoroquinolone antibiotic. Rigorous patient evaluation and a detailed patient history, including short and long term medication use, is the likely key to reducing any risk of cardiac arrhythmias associated with macrolides and fluoroquinolones. Clinicians should be cautious when prescribing macrolide and fluoroquinolone medications to patients with risk factors that may lead to antibiotic-induced cardiac arrhythmias, including a slow heart rate and those that are taking medications to treat arrhythmias.

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The Total Inotrope Exposure Score: an extension of the Vasoactive Inotrope Score as a predictor of adverse outcomes after paediatric cardiac surgery

Bangalore

Gaies

Ocampo

et al. 2017

Cardiol Young

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Degradation of the Endothelial Glycocalyx Contributes to Metabolic Acidosis in Children Following Cardiopulmonary Bypass Surgery

Bangalore

Carter

Parmar

et al. 2021

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OBJECTIVES:Cardiopulmonary bypass surgery is complicated by metabolic acidosis, microvascular dysfunction, and capillary leak. The glycocalyxa layer of proteins and sugars lining the vascular endothelium-is degraded during cardiopulmonary bypass. We aimed to describe the kinetics of glycocalyx degradation during and following cardiopulmonary bypass. We hypothesized that cleavage of negatively charged fragments of the glycocalyx would directly induce metabolic acidosis through changes in the strong ion gap (defined using Stewart's physicochemical approach to acid-base chemistry). We also investigated whether glycocalyx degradation was associated with failure of endothelial function and cardiovascular dysfunction. DESIGN:Single-center prospective cohort study. SETTING:Twenty-two bed surgical/medical PICU. PATIENTS:Twenty-seven term infants and children requiring cardiopulmonary bypass surgery for the correction/palliation of congenital heart disease. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS:We recruited 27 patients, 5 days to 57 months old. We prospectively sampled plasma prior to, during, and following cardiopulmonary bypass at predefined time points. We measured plasma concentrations of interleukin-6 (inflammatory marker), heparan sulfate (negatively charged glycocalyx glycosaminoglycan), and syndecan-1 (neutrally charged glycocalyx protein). We defined the following outcome measures: metabolic acidosis (strong ion gap), renal dysfunction (fold change in creatinine), capillary leak (fluid bolus volume), cardiovascular dysfunction (Vasoactive Inotropic Score), and length of ventilation. In linear regression models, maximum measured heparan sulfate concentration (negatively charged) was associated with metabolic acidosis (p = 0.016), renal dysfunction (p = 0.009), and length of ventilation (p = 0.047). In contrast, maximum measured syndecan-1 concentration (neutrally charged) was not associated with these clinical endpoints (p > 0.30 for all). CONCLUSIONS: Our data show that metabolic acidosis (increased strong ion gap) is associated with plasma concentration of heparan sulfate, a negatively charged glycosaminoglycan cleaved from the endothelial glycocalyx during cardiopulmonary bypass. In addition, cleavage of heparan sulfate was associated with renal dysfunction, capillary leak, and global markers of cardiovascular dysfunction. These data highlight the importance of designing translational therapies to protect the glycocalyx in cardiopulmonary bypass.

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