| File | |
| language |
eng
|
| Author |
Ase, Tomonobu
Medical Division, Daicen Membrane-Systems Ltd.
Watabe, Tomoichi
R&D Center, Daicen Membrane-Systems Ltd.
Sato, Toshio
Faculty of Life and Environmental Science, Shimane University
|
| Description | Water for haemodialysis (WFH), which is manufactured on-site in haemodialysis hospitals, is indispensable for haemodialysis therapy. Water treatment systems for manufacturing WFH primarily consist of membrane separation technologies: reverse osmosis (for chemical contaminants) and ultrafiltration (for microbial contaminants). To further improve the quality of WFH, we successfully apply adsorption technology, namely electrodeionization (EDI), after reverse osmosis to remove additional chemical contaminants and microbial contaminants from WFH. When the DC current was supplied to the EDI system, we found that single-stranded bacterial DNA could also be removed by the EDI, as well as viable bacteria and endotoxins.
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| Subject | Bacterial DNA
dialysis therapy
electrodeionization (EDI)
online HDF
water for haemodialysis
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| Journal Title |
Separation Science and Technology
|
| Volume | 52
|
| Issue | 2
|
| Start Page | 332
|
| End Page | 343
|
| ISSN | 01496395
|
| Published Date | 2017-01-22
|
| DOI | |
| DOI Date | 2017-10-02
|
| NCID | AA00840583
|
| Publisher | Taylor & Francis
|
| NII Type |
Journal Article
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| Format |
PDF
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| Rights | This is an Accepted Manuscript of an article published by Taylor & Francis in "Separation Science and Technology" on 22 Jul 2016, available online: http://www.tandfonline.com/doi/full/10.1080/01496395.2016.1215332.
The full-text file will be made open to the public on January 23, 2018 in accordance with publisher's 'Terms and Conditions for Self-Archiving'
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| Text Version |
著者版
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| Gyoseki ID | e31492
|
| OAI-PMH Set |
Faculty of Life and Environmental Science
|
