Biomedicines (Oct 2024)

Safety Profiles Related to Dosing Errors of Rapid-Acting Insulin Analogs: A Comparative Analysis Using the EudraVigilance Database

  • Ioana Rada Popa Ilie,
  • Andreea Loredana Vonica-Tincu,
  • Carmen Maximiliana Dobrea,
  • Anca Butuca,
  • Adina Frum,
  • Claudiu Morgovan,
  • Felicia Gabriela Gligor,
  • Steliana Ghibu

DOI
https://doi.org/10.3390/biomedicines12102273
Journal volume & issue
Vol. 12, no. 10
p. 2273

Abstract

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Insulin is essential for treating type 1 diabetes and insulin-requiring type 2 diabetes. Background/Objectives: Diabetes is a widespread condition that can lead to multiple and severe complications. Rapid-acting insulin analogs (RAIAs) and long-acting insulin analogs are prescribed for the effective management of diabetes. RAIAs are expected to be associated with a higher number of dosing errors because of their rapid onset, short duration of action, and the need for frequent dosing, compared to other insulin analogs. There are three approved RAIAs on the market: insulin lispro (LIS), insulin aspart (ASP), and insulin glulisine (GLU). The aim of this study is to evaluate the real-world evidence on dosing errors reported for RAIAs in EudraVigilance (EV), an established pharmacovigilance database, in comparison to other insulin analogs and human insulins. Methods: A descriptive analysis and a disproportionality analysis were conducted. Results: ASP and LIS were associated with high percentages of adverse drug reactions (ADRs) (22% and 17%, respectively), with over 70% of the reports involving serious ADRs. A higher frequency of cardiac and eye disorder ADRs was observed for LIS compared with ASP and GLU. GLU showed a higher frequency of ADRs in the skin and subcutaneous tissue disorders category. LIS dosing errors accounted for 5% of the total number of cases, while dosing errors for ASP and GLU were less than 3%. The most frequently reported dosing errors involved improper dosing (49%). Conclusions: Although there were fewer dosing errors of RAIAs in comparison to other insulins, the severity of the potential outcome highlights the importance of precise dosing and timing. Improved the monitoring and reporting of these dosing errors could enhance diabetes patient care. Additionally, smart medical devices could improve therapeutic outcomes.

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