Prescribe Moxifloxacin cautiously among diabetics as it has QTc prolonging effect
UK: Hyperglycaemia is a significant cause of QTc prolongation in type 1 diabetes (T1D) patients and the additional effect of a a QTc-prolonging drug (moxifloxacin) is additive, says a new study Clinical Research in Cardiology. Therefore, extra caution should be taken when prescribing any medication in this cohort for QTc effects given the high risk of sudden cardiac death (SCD) in T1D.
Previous studies have shown that type 1 diabetes patients are at a two to ten-fold higher risk of sudden cardiac death versus the general population but there is no clarity on the underlying mechanism. Hyperglycaemia, a state patients with type 1 diabetes are more prone to, is a recognised cause of QTc prolongation, potentially increasing their risk of ventricular arrhythmia. The mechanism of sudden cardiac death in this cohort may be elucidated by understanding the QTc prolongation effect of both hyperglycaemia and the concomitant additive risk of commonly prescribed QTc-prolonging drugs such as Moxifloxacin.
Against the above background, Dominic Pimenta, Richmond Research Institute, St George's University, London, UK, and colleagues aimed to investigate the extent to which hyperglycaemia prolongs the QTc in controlled conditions, and the potential additive risk of QTc-prolonging medications in a single-blinded, placebo-controlled study.
For this purpose, the researchers enrolled 21 patients with type 1 diabetes mellitus to a placebo-controlled crossover study at a single clinical trials unit. QTc assessment of the patients were done throughout the study.
The administration of a 'hyperglycaemic clamp' of oral and intravenous glucose was done with a target blood glucose of > 25 mM and maintained for 2 h on day 1 and day 3, alongside placebo on day 1 and moxifloxacin on day 3. Day 2 served as a control day between the two active treatment days.
Thorough QTc assessment was conducted at matched time points over 3 days, and regular blood sampling was undertaken at matched time intervals for glucose levels and moxifloxacin exposure.
Based on the study, the researchers found the following:
- Concentration-effect modelling showed that acute hyperglycaemia prolonged the QTc interval in female and male volunteers with type 1 diabetes by a peak mean increase of 13 ms at 2 h.
- Peak mean QTc intervals after the administration of intravenous Moxifloxacin during the hyperglycaemic state were increased by a further 9 ms at 2 h, to 22 ms across the entire study population.
- Regression analysis suggested this additional increase was additive, not exponential.
- Hyperglycaemia was associated with a significantly greater mean QTc-prolonging effect in females, but the mean peak increase with the addition of moxifloxacin was the same for males and females.
- This apparent sex difference was likely due to the exclusive use of basal insulin in the male patients, which provided a low level of exogenous insulin during the study assessments thereby mitigating the effects of hyperglycaemia on QTc. This effect was partially overcome by Moxifloxacin administration, suggesting both hyperglycaemia and moxifloxacin prolong QTc by different mechanisms, based on subinterval analysis.
"QTc prolongation is a risk factor for SCD and has been known to occur in the presence of hyperglycaemia, as showed here," wrote the authors. "QTc-prolonging drugs such as moxifloxacin further prolong the QTc in an additive way."
"The administration of QTc-prolonging drugs should be done with caution in diabetic patients, particularly if their glucose control is poor," the researchers concluded. "A diabetes patient needing treatment with a QTc-prolonging drug may be protected from pro-arrhythmic risk when prescribed an insulin regimen that provides a long-lasting insulin baseline, but this remains to be investigated in future research."
Reference:
Taubel, J., Pimenta, D., Cole, S.T. et al. Effect of hyperglycaemia in combination with moxifloxacin on cardiac repolarization in male and female patients with type I diabetes. Clin Res Cardiol (2022). https://doi.org/10.1007/s00392-022-02037-8
Disclaimer: This website is primarily for healthcare professionals. The content here does not replace medical advice and should not be used as medical, diagnostic, endorsement, treatment, or prescription advice. Medical science evolves rapidly, and we strive to keep our information current. If you find any discrepancies, please contact us at corrections@medicaldialogues.in. Read our Correction Policy here. Nothing here should be used as a substitute for medical advice, diagnosis, or treatment. We do not endorse any healthcare advice that contradicts a physician's guidance. Use of this site is subject to our Terms of Use, Privacy Policy, and Advertisement Policy. For more details, read our Full Disclaimer here.
NOTE: Join us in combating medical misinformation. If you encounter a questionable health, medical, or medical education claim, email us at factcheck@medicaldialogues.in for evaluation.