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[
  {
    "key": "9HT42LVL",
    "version": 0,
    "itemType": "journalArticle",
    "creators": [
      {
        "firstName": "Steven",
        "lastName": "Kim",
        "creatorType": "author"
      },
      {
        "firstName": "Shuvo",
        "lastName": "Roy",
        "creatorType": "author"
      }
    ],
    "tags": [
      {
        "tag": "Humans",
        "type": 1
      },
      {
        "tag": "Kidney Failure, Chronic",
        "type": 1
      },
      {
        "tag": "Micro-Electrical-Mechanical Systems",
        "type": 1
      },
      {
        "tag": "Microfluidics",
        "type": 1
      },
      {
        "tag": "Nephrology",
        "type": 1
      },
      {
        "tag": "Renal Replacement Therapy",
        "type": 1
      },
      {
        "tag": "MEMS",
        "type": 1
      },
      {
        "tag": "Microelectromechanical systems",
        "type": 1
      },
      {
        "tag": "Microfluidics",
        "type": 1
      },
      {
        "tag": "Microsystems",
        "type": 1
      },
      {
        "tag": "Sensors and Actuators",
        "type": 1
      }
    ],
    "title": "Microelectromechanical systems and nephrology: the next frontier in renal replacement technology",
    "pages": "516-535",
    "ISSN": "1548-5609",
    "journalAbbreviation": "Adv Chronic Kidney Dis",
    "publicationTitle": "Advances in Chronic Kidney Disease",
    "volume": "20",
    "issue": "6",
    "date": "Nov 2013",
    "language": "eng",
    "abstractNote": "Microelectromechanical systems (MEMS) are playing a prominent role in the development of many new and innovative biomedical devices, but they remain a relatively underused technology in nephrology. The future landscape of clinical medicine and research will only see further expansion of MEMS-based technologies in device designs and applications. This enthusiasm stems from the ability to create small-scale device features with high precision in a cost-effective manner. MEMS also offers the possibility to integrate multiple components into a single device. The adoption of MEMS has the potential to revolutionize how nephrologists manage kidney disease by improving the delivery of renal replacement therapies and enhancing the monitoring of physiologic parameters. To introduce nephrologists to MEMS, this review will first define relevant terms and describe the basic processes used to fabricate devices. Next, a survey of MEMS devices being developed for various biomedical applications will be illustrated with current examples. Finally, MEMS technology specific to nephrology will be highlighted and future applications will be examined. The adoption of MEMS offers novel avenues to improve the care of kidney disease patients and assist nephrologists in clinical practice. This review will serve as an introduction for nephrologists to the exciting world of MEMS.",
    "DOI": "10.1053\/j.ackd.2013.08.006",
    "extra": "PMID: 24206604\nPMCID: PMC3866020",
    "libraryCatalog": "PubMed",
    "shortTitle": "Microelectromechanical systems and nephrology"
  }
]