Establishing a protocol for the compatibilities of closed-system transfer devices with multiple chemotherapy drugs under simulated clinical conditions.

Shao-Chin Chiang,Hui-Ping Chang,Mandy Shen,Chen-Chia Lin

doi:10.1371/journal.pone.0257873

Abstract

Closed-system drug transfer devices (CSTDs) are used to prevent occupational exposure to hazardous drugs in health care providers. They are considered Class II medical devices by the US FDA and are cleared but not approved before marketing. While compatibility tests are conducted by CSTD manufacturers, the procuring institution needs to consider performing its own studies before buying these devices. Herein we tested the compatibility of the components of the Needleless® DualGuard CSTD system (vial access clips, vial access spikes, and administration adaptors) with 10 antineoplastic drugs, under simulated clinical conditions, including compounding and administration, and examined drug potency maintenance, plasticizer migration, and device functionality. All drugs maintained potency within 5%. Diisononyl phthalate leakage was observed from the administration adaptors for paclitaxel and concentrated etoposide solution. In addition, white particles were discovered in CSTDs storing busulfan solution and small cracks were observed on devices which stored melphalan. Thus, it was concluded that even in simulated clinical conditions, instead of extreme conditions, there are still concerns regarding the efficacy and safety of CSTD components. The methodology may be used to implement and detect possible interactions between antineoplastic agents and CSTD components before procurement.

Highlights

Closed-system drug transfer devices (CSTDs) are designed to ensure that hazardous drugs (HDs) are handled in an airtight and leakproof manner [1]
Since the release of the US Pharmacopeia (USP) Chapter , the regulatory board has mandated the use of CSTDs for the administration of HD and has recommended their use for preparation of HD [1]
In the plasticizer migration test, while no plasticizer leakage was detected in the 0.4 mg/mL etoposide samples, significant diisononyl phthalate (DINP) leakage was observed in high-concentration etoposide infusion solution (1.2 mg/mL)

Summary

Introduction

Closed-system drug transfer devices (CSTDs) are designed to ensure that hazardous drugs (HDs) are handled in an airtight and leakproof manner [1]. Several peer-reviewed studies have demonstrated effective control of surface contamination and reduction in personnel exposure with the use of CSTDs [2,3,4]. Since the release of the US Pharmacopeia (USP) Chapter , the regulatory board has mandated the use of CSTDs for the administration of HD and has recommended their use for preparation of HD [1]. Protocol for the compatibilities of closed-system transfer devices under simulated clinical conditions

Methods

Results

Discussion

Conclusion