Tomoya Abe1,2, Kazumasa Matsuzaka3, Toshiaki Nakayama3, Masanobu Otsuka3, Atsunobu Sagara4, Fumiaki Sato4, Tetsuro Yumoto4. 1. Department of Pharmacy, Saitama Cancer Center, 780 Komuro, Inamachi, Saitama, Japan. abe.tomoya@cancer-c.pref.saitama.jp. 2. Division of Pharmacy Professional Development and Research, Hoshi University School of Pharmacy and Pharmaceutical Sciences, 2-4-41 Ebara, Shinagawa-ku, Tokyo, Japan. abe.tomoya@cancer-c.pref.saitama.jp. 3. Department of Pharmacy, Saitama Cancer Center, 780 Komuro, Inamachi, Saitama, Japan. 4. Division of Pharmacy Professional Development and Research, Hoshi University School of Pharmacy and Pharmaceutical Sciences, 2-4-41 Ebara, Shinagawa-ku, Tokyo, Japan.
Abstract
BACKGROUND: Elastomeric pumps (EPs) are devices that allow quantitative and continuous drug administration without the need for electronic control, and they are used by being filled with anticancer agents. Although the package inserts of several manufacturers that provide EPs describe the relationship between the flow rate per unit time and temperature, the solution is only saline solution or 5% glucose solution, and data on anticancer drugs have not been published. In this study, we focused on 5-fluorouracil (5-FU), a drug frequently used in cancer chemotherapy, and examined the effect of changes in standard of EPs and temperature on drug emission. METHODS: We evaluated the EP data of patients treated with Baxter Infusor® LV5 and SV2.5 in terms of emission rate, relationship between 5-FU prescription amount and emission rate, and relationship between emission rate and monthly air temperature in LV5 and SV2.5. The number of EPs sampled in the study was N = 5708 (n = 2988 for LV5 and n = 2720 for SV2.5). RESULTS: In LV5, the emission rate varied from 88 to 97% (median 94.0%), whereas in SV2.5, the emission rate was observed as 97 to 98% (median 97.4%). The 5-FU prescription amount and the emission rate were not correlated in LV5 and SV2.5, respectively (LV5; y = - 0.0015x + 97.305, R2 = 0.0226, SV2.5; y = - 0.001x + 100.25, R2 = 0.0466). LV5 showed a higher emission rate in the months with higher air temperature and a lower emission rate in the month with lower air temperature. In addition, LV5 showed a significant reduction in emission rate compared with SV2.5 in all months (P < 0.001). CONCLUSIONS: In this study, we clarified that air temperature is an important factor that affects the drug emission of EPs. Therefore, it is necessary to examine the conditions for total fluid volume suitable for the air temperature in each region and to provide sufficient information to patients.
BACKGROUND: Elastomeric pumps (EPs) are devices that allow quantitative and continuous drug administration without the need for electronic control, and they are used by being filled with anticancer agents. Although the package inserts of several manufacturers that provide EPs describe the relationship between the flow rate per unit time and temperature, the solution is only saline solution or 5% glucose solution, and data on anticancer drugs have not been published. In this study, we focused on 5-fluorouracil (5-FU), a drug frequently used in cancer chemotherapy, and examined the effect of changes in standard of EPs and temperature on drug emission. METHODS: We evaluated the EP data of patients treated with Baxter Infusor® LV5 and SV2.5 in terms of emission rate, relationship between 5-FU prescription amount and emission rate, and relationship between emission rate and monthly air temperature in LV5 and SV2.5. The number of EPs sampled in the study was N = 5708 (n = 2988 for LV5 and n = 2720 for SV2.5). RESULTS: In LV5, the emission rate varied from 88 to 97% (median 94.0%), whereas in SV2.5, the emission rate was observed as 97 to 98% (median 97.4%). The 5-FU prescription amount and the emission rate were not correlated in LV5 and SV2.5, respectively (LV5; y = - 0.0015x + 97.305, R2 = 0.0226, SV2.5; y = - 0.001x + 100.25, R2 = 0.0466). LV5 showed a higher emission rate in the months with higher air temperature and a lower emission rate in the month with lower air temperature. In addition, LV5 showed a significant reduction in emission rate compared with SV2.5 in all months (P < 0.001). CONCLUSIONS: In this study, we clarified that air temperature is an important factor that affects the drug emission of EPs. Therefore, it is necessary to examine the conditions for total fluid volume suitable for the air temperature in each region and to provide sufficient information to patients.
Entities:
Keywords:
5-fluorouracil; Air temperature; Chemotherapy; Elastomeric pumps; Emission rate; Viscosity
Authors: Beatriz Fernández-Rubio; Paula Del Valle-Moreno; Laura Herrera-Hidalgo; Alicia Gutiérrez-Valencia; Rafael Luque-Márquez; Luis E López-Cortés; José María Gutiérrez-Urbón; Sonia Luque-Pardos; Aurora Fernández-Polo; María V Gil-Navarro Journal: Antibiotics (Basel) Date: 2021-12-30