Development and Application of Automatic Dosing and Mixing System of Intravenous Infusion in PIVAS of Our Hospital
- VernacularTitle:静脉输液自动加药混合调配系统在我院静脉用药调配中心的开发与应用
- Author:
Guorong SHEN
1
;
Yong WANG
1
;
Tanghui JIN
1
;
Xiao HONG
1
;
Jian’an BAO
1
;
Liyan MIAO
1
Author Information
1. Dept. of Pharmacy,the First Affiliated Hospital of Soochow University,Jiangsu Suzhou 215006,China
- Publication Type:Journal Article
- Keywords:
Automatic dosing and mixing system of intravenous infusion;
PIVAS;
Mixed disepnsing;
Automatic;
Efficiency of
- From:
China Pharmacy
2020;31(3):364-367
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:To introduce the development and application of automatic dosing and mixing system of intravenous infusion in PIVAS of our hospital. METHODS :Based on the bar code management system in PIVAS ,combined with automatic mixing equipment ,our hospital developed and designed automatic dosing and mixing system of intravenous infusion which could realize real-time scanning and charging of drugs ,setting parameters of mixed dispensing and automatic dosing and mixed dispensing of intravenous infusion. Compared with manual dispensing model ,work efficiency of 5 staff who dispensed Coenzyme complex for injection and Carbazochrome sodium s ulfonate for injection 300 bags each as well as the amount of drug residues in empty bottle were investigated to evaluate the effects of the system. RESULTS :The system realized automatic mixing of intravenous infusion. In manual dispensing model and automatic dispensing model ,the mixing efficiency of Coenzyme complex for injection were (96.6±10.0)and(195.2±10.7)bag/h(P<0.001);mixing efficiency of Carbazochrome sodium sulfonate for injection were (83.8±12.9)and(118.8±6.7)bag/h(P<0.001). The amount of residual liquid in Coenzyme complex for injection empty bottle were (0.09±0.02)and(0.11±0.01)mL;Carbazochrome sodium sulfonate for injection empty bottle were (0.08± 0.02)and(0.12±0.01)mL,which were all lower than the internal control requirements that injected solvent volume was no more than 5% (0.15 mL). CONCLUSIONS :The automatic dosing and mixing system of intravenous infusion could improve the efficiency of intravenous infusion dispensing and reduce the labor intensity of the staff .
