Abstract
Background
Regular human insulin 100 units added to a sufficient quantity of 0.9% sodium chloride, to yield a total volume of 100 mL within a polyvinylchloride bag, is accepted to be stable for 24 hours due to physical denaturation and chemical modification. The objective of this study was to evaluate the extended stability of such extemporaneously prepared regular human insulin, stored under refrigeration, to the maximum beyond-use-date allowed by United States Pharmacopeia chapter 797.
Methods
At time “0” three admixtures of regular human insulin were prepared by withdrawing 1 mL of regular human insulin with a concentration of 100 units/mL and adding it to a sufficient quantity of 0.9% sodium chloride for injection in a polyvinylchloride bag to yield a total volume of 100 mL. The three admixtures were stored under refrigeration (2°C–8°C [36°F–46°F]), and one sample of each admixture was withdrawn and tested in duplicate at 0, 6, 24, 48, 72, 144, 168, 192, 216, 240, 312, and 336 hours. Utilizing high performance liquid chromatography, each sample underwent immediate testing. The time points were stable if the mean concentration of the samples exceeded 90% of the equilibrium concentration at 6 hours.
Results
The equilibrium concentration was 0.89 units/mL. Time points were stable if the mean concentration was at least 0.80 units/mL. All time points retained at least 90% of the equilibrium concentration, with the exception of hour 168 (0.79 ± 0.03 units/mL). At 192 hours the mean concentration was 0.88 ± 0.03 units/mL. At 336 hours the mean concentration was 0.91 ± 0.02 units/mL.
Conclusion
Based on these results, regular human insulin 100 units added to 0.9% sodium chloride for injection in a polyvinylchloride bag to yield a total volume of 100 mL is stable for up to 336 hours when stored at 2°C–8°C (36°F–46°F).
Introduction
In the hospital setting, patients often require continuous infusions of intravenous (IV) regular human insulin. Our standard preparation of IV insulin for infusion consists of 100 units regular human insulin added to a sufficient quantity of 0.9% sodium chloride to yield a total volume of 100 mL. Due to the physical denaturation and chemical modification occurring during insulin admixture within a polyvinylchloride (PVC) bag, a concentration of 100 units/100 mL is accepted to be stable for 24 hours.Citation1–Citation3 A recent pilot analysis demonstrates insulin stability for up to 7 days when stored under refrigeration.Citation4
In regulations set forth by the United States Pharmacopeia chapter 797 (USP 797) guidelines, all extemporaneous admixtures must be manufactured in a certified clean room.Citation5 This decreases the risk of contaminants and increases the uniformity of the products produced. The maximum beyond use date allowed in the absence of end-product sterility testing is 14 days (336 hours) for a given product.Citation5
The purpose of this study was to evaluate the extended stability of extemporaneously prepared regular human insulin 100 units in 0.9% sodium chloride at a total volume of 100 mL under refrigeration to the maximum beyond-use-date USP 797 allows.
Methods
Preparation of insulin admixtures
From an unopened vial of regular human insulin, 1 mL was withdrawn and added to a sufficient quantity of 0.9% sodium chloride for injection in a PVC bag to yield a total volume of 100 mL. A total of 8 mL of overfill was removed from each PVC bag prior to the addition of insulin to account for the additional volume (7 mL of overfill plus 1 mL of insulin). This process was repeated using new, unopened insulin vials to provide a total of three IV insulin admixtures. Since USP allows ±10% error on all US Food and Drug Administration-approved products, we used different vials for each admixture to account for variance. Once completed, all admixtures were affixed with labels with instructions to store under refrigeration at 2°C–8°C ().
Figure 1 Sample label.
Sampling analysis of insulin admixtures
Sampling from each of the three admixtures occurred at 0, 6, 24, 48, 72, 144, 168, 192, 216, 240, 312, and 336 hours. All samples were analyzed by the process of high performance liquid chromatography, which was completed by DYNALABS (Saint Louis, MO, USA). Each sample underwent immediate testing in duplicate.Citation6
Statistical analysis
The average of all samples from all three admixtures at each time point yielded the overall mean concentration. A time point was considered stable if the mean concentration of the samples exceeded 90% of the equilibrium concentration at 6 hours.Citation7–Citation10
Results
At 6 hours, the equilibrium concentration was determined to be 0.89 units/mL (). Based on our definition of stability, admixtures were stable at each time point if the concentration of insulin was greater than 0.8 units/mL. All time points retained at least 90% of the equilibrium concentration with the exception of the 168-hour sample (0.79 ± 0.03 units/mL), but at the next time point, 192 hours, the mean concentration was 0.88 ± 0.03 units/mL. At 336 hours, the concentration was 0.91 ± 0.02 units/mL ().
Table 1 Mean insulin concentrations of triplicate insulin samples in 0.9% sodium chloride stored at 2°C–8°C
Figure 2 Mean concentration of insulin 100 units prepared in a total volume of 100 ml 0.9% sodium chloride stored at 2°C–8°C.
Discussion
To our knowledge, this is the only analysis to suggest extemporaneously prepared regular human insulin 100 units added to a sufficient quantity of 0.9% sodium chloride to yield a total volume of 100 mL is stable for up to 336 hours under refrigeration. In our recent pilot analysis, we showed stability for up to 168 hours.Citation4 In response to the critique of that pilot analysis, the current analysis had three modifications: (1) high performance liquid chromatography was utilized for stability testing, (2) the samples were never frozen, and (3) each sample was tested in duplicate.Citation4 The current analysis samples extended to 336 hours, which is the maximum beyond-use-dating allowed by USP 797.
All samples underwent high performance liquid chromatography testing, which is the standard method to ensure product stability. All samples underwent immediate testing in duplicate to provide inter-sample accuracy as well as ensure precision of the values obtained, and all samples were stored under refrigeration, not frozen.
Previously, all IV insulin admixtures at our institution had a 7-day expiration date.Citation4 Based on these results, we have extended the expiration date of all extemporaneously prepared bags of regular human insulin to 14 days under refrigeration.
There are approximately 400,000 admixtures prepared annually within our pharmacy sterile products room. The ability to prepare and stock common medications saves time by reducing the need to prepare patient-specific medications on demand, decreasing waste from products that readily expire, and allowing for ease of availability of emergent medications. This extended stability data provides not only improved operational management, but also increased availability of medication for immediate use and urgent patient care.
Conclusion
Based on these results, regular human insulin 100 units added to 0.9% sodium chloride for injection in a PVC bag to yield a total volume of 100 mL is stable for up to 336 hours when stored at 2°C–8°C (36°F–46°F).
Disclosure
The authors report no conflicts of interest in this work.
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