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Ravagli E, Severi S. Optical and Electrical Characterization of Biocompatible Polymeric Lines for Hemodialysis Applications. Materials (Basel). 2018;11(3)doi: 10.3390/ma11030438.
Ravagli, E., & Severi, S. (2018). Optical and Electrical Characterization of Biocompatible Polymeric Lines for Hemodialysis Applications. Materials (Basel, Switzerland), 11(3), . https://doi.org/10.3390/ma11030438
Ravagli, Enrico, and Severi, Stefano. "Optical and Electrical Characterization of Biocompatible Polymeric Lines for Hemodialysis Applications." Materials (Basel, Switzerland) vol. 11,3 (2018). doi: https://doi.org/10.3390/ma11030438
Ravagli E, Severi S. Optical and Electrical Characterization of Biocompatible Polymeric Lines for Hemodialysis Applications. Materials (Basel). 2018 Mar 16;11(3). doi: 10.3390/ma11030438. PMID: 29547575; PMCID: PMC5873017.
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Materials (Basel). 2018 Mar 16;11(3). doi: 10.3390/ma11030438.

Optical and Electrical Characterization of Biocompatible Polymeric Lines for Hemodialysis Applications.

Materials (Basel, Switzerland)

Enrico Ravagli, Stefano Severi

Affiliations

  1. Department of Electrical, Electronic and Information Engineering "Guglielmo Marconi", University of Bologna, 47521 Cesena, Italy. [email protected].
  2. Department of Electrical, Electronic and Information Engineering "Guglielmo Marconi", University of Bologna, 47521 Cesena, Italy. [email protected].
  3. Health Sciences and Technologies-Interdepartmental Center for Industrial Research, University of Bologna, 47521 Cesena, Italy. [email protected].

PMID: 29547575 PMCID: PMC5873017 DOI: 10.3390/ma11030438

Abstract

During hemodialysis (HD), blood is circulated through an extracorporeal tubing system (bloodline) made of medical-grade polymeric material. Sensors of various types that do not come into contact with blood (optical, electromagnetic, etc.) are applied directly across the bloodline for clinical purposes and for therapy customization. Thus, a detailed knowledge of the bloodline's physical properties is useful for the development of next-generation HD sensors. In this work, we performed a novel comparative analysis of the materials used by the manufacturers of the bloodlines. We focused on signals and characterization techniques matching those of the abovementioned sensors; consequently, this is an application-specific study of the optical and electrical characterization of bloodline material. Such properties are analyzed and compared for bloodlines from seven different manufacturers by optical absorbance spectroscopy and electrical impedance spectroscopy (EIS). Absorbance spectrum measurements are carried out in the VIS-NIR range. Absorbance spectra are pre-processed and data from both types of analyses are normalized with respect to sample thickness. Optical analysis shows that all bloodlines except one have similarly shaped spectra with slight quantitative differences. In all optical spectra, we find a decreasing trend of specific absorption from 0.14 mm

Keywords: biopolymer; bloodline; electrical impedance; hemodialysis; optical absorbance

Conflict of interest statement

The authors declare no conflict of interest. The authors have past and present collaborations with some of the companies whose disposable material is analyzed in the present work (Baxter, Bellco, and

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