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Fabrication and Optimization of Molecularly Imprinted Nanofibers in Assessment of Occupational Exposure to 5-Fluorouracil



Beigzadeh Z1 ; Golbabaei F1 ; Khadem M1 ; Shahtaheri SJ1
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Authors Affiliations
  1. 1. Department of Occupational Health Engineering, Faculty of Public Health, Tehran University of Medical Sciences, Tehran, Iran

Source: Journal of Mazandaran University of Medical Sciences Published:2019

Abstract

Background and purpose: Cytotoxic drugs are a group of chemicals that raise concerns over the health of healthcare professionals. Therefore, accurate methods are needed to investigate the traces of these drugs. This study was done to fabricate and optimize molecularly imprinted membrane as a specific absorbent in assessment of occupational exposure to 5-fluorouracil. Materials and methods: 5-FU molecularly imprinted microspheres were produced by precipitation polymerization and encapsulated into nanofibers using electrospinning. Optimization of electrospinning parameters (MIP value, electrospinning voltage, the distance between needle tip to collector, and flow rate) was performed using response surface methodology (RSM) and Experimental design software. Totally, 22 trials were done on the basis of study design. The diameter of the fiber was measured using SEM image analysis. The applicability of the synthesized membranes in absorbing 5-FU was evaluated. Results: In this study, MIP particles were successfully encapsulated into PET nanofibers. The optimization process showed that the molecularly imprinted nanofibers diameter of 276.38 nm could be obtained in 57%W MIP, 25 kV, 13 cm, and 0.55 ml/h. The efficacy of extracting 5-FU by synthesized membranes was 97.2±0.34. Conclusion: The experimental models presented in this study can be used in further experiments to create a uniform molecularly imprinted nanofibers for specific analyte absorption in occupational and environmental monitoring. © 2019, Mazandaran University of Medical Sciences. All rights reserved.
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