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Computational and experimental analyses of anticancer and antibiotic drug adsorption on inner surfaces of infusion tubing

Authors
Kang, RyunHa, JuchanLee, SolpaKang, Ju-SeopKim, HyunsooJang, Yongwoo
Issue Date
Feb-2026
Publisher
SPRINGER HEIDELBERG
Keywords
Polymer; Adsorption; Predictive; Computation/computing; Infrared (IR) spectroscopy
Citation
MRS COMMUNICATIONS, v.16, no.1, pp 68 - 77
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
MRS COMMUNICATIONS
Volume
16
Number
1
Start Page
68
End Page
77
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212113
DOI
10.1557/s43579-025-00876-w
ISSN
2159-6859
2159-6867
Abstract
Intravenous drug administration is frequently compromised by therapeutic adsorption onto polyvinyl chloride (PVC), polyurethane (PU), or polyolefin (PO) infusion lines, leading to inaccurate dosing and reduced efficacy. However, there is a notable lack of studies investigating the specific interactions between drugs and polymers at the molecular level. We employed a dual approach using molecular dynamics (MD) simulations to predict the binding energies between four key drugs (docetaxel, etoposide, vancomycin, and meropenem) and three polymer surfaces (PVC, PU, and PO). These computational predictions were experimentally verified by quantifying drug retention on the internal surfaces of the corresponding intravenous lines using Fourier-transform infrared (FT-IR) spectroscopy. MD simulations consistently predicted the lowest binding energies and thus the least adsorption for all the tested drugs on the PO surface. FT-IR analysis directly confirmed these findings, revealing significant drug-specific peaks on the PVC and PU surfaces, but negligible evidence of adsorption on PO. This combined methodology validated PO as an optimal material for minimizing drug loss during infusion. Our approach provides a powerful framework for assessing drug-material compatibility, paving the way for advanced infusion systems that ensure greater accuracy in drug delivery and improved patient outcomes.
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서울 의과대학 (DEPARTMENT OF PHARMACOLOGY)
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