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Urine Concentration of Cartilage Degradation Marker CTX-II is Sensitive to MicrogravityMechanical and gravitation load are both important regulators of articular cartilage metabolism. Immobilization and the absence of gravity likely change tissue characteristics that can result in atrophy and softening of cartilage. Type II collagen is the most abundant cartilage matrix protein. Assessing urinary excretion of crosslinked C-telopeptide (uCTX-II) provides an index of total type II collagen degradation. We hypothesized that reduced mechanical and gravitational loading during a 4 – 6 months International Space Station (ISS) mission will result in increased uCTX-II levels.
Document ID
20210022954
Acquisition Source
Johnson Space Center
Document Type
Conference Paper
Authors
Anna-maria Liphardt (Friedrich-Alexander-University Paris, France)
Nadja Djalal (Friedrich-Alexander-University)
Scott M Smith (Johnson Space Center Houston, Texas, United States)
Anne Mündermann (University Hospital of Basel Basel, Switzerland)
Frank Zaucke (University Hospital Frankfurt Frankfurt am Main, Germany)
Georg Schett (Friedrich-Alexander-University)
Anja Niehoff (University of Cologne Cologne, Germany)
Date Acquired
October 18, 2021
Subject Category
Aerospace Medicine
Meeting Information
Meeting: 2022 Human Research Program Investigators’ Workshop (HRP IWS 2022)
Location: Virtual
Country: US
Start Date: February 7, 2022
End Date: February 10, 2021
Sponsors: National Aeronautics and Space Administration
Funding Number(s)
WBS: 516724.01.04.10
PROJECT: DLR 50WB091
PROJECT: DLR 50WB1217
PROJECT: DLR 50WB1719
PROJECT: DLR 50WB1520
PROJECT: DLR 50WB2021
PROJECT: DLR 50WB2022
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
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