The mean elevation of the Qinghai-Tibet Plateau (QTP) exceeds 4000 m. Lake levels in the QTP are less affected by human activities than elsewhere, and may better reflect the state of contemporary climate change. Here ground-based lake level measurements are rare. Repeat altimeter missions, particularly TOPEX and ERS series of altimetry, have provided long-term observations of lake levels in the QTP, but their large cross-track distances allow only few lakes to be monitored. In contrast, the Cryosat-2 altimeter, equipped with the new sensor SIRAL (interferometric / synthetic aperture radar altimeter), provides a much finer spatial coverage than repeated missions, and can detect water level changes over a large number of lakes in the QTP. In this study, Cryosat-2 data are used to determine lake level changes in the QTP (75˚E-100˚E, 28˚N-37.5˚N), where Cryosat-2 provides data over 60 lakes and SARAL / AltiKa over 32 lakes from 2013 to 2016. Over a lake, Cryosat-2 in different cycles can pass through different spots, making the numbers of observations non-uniform and requiring corrections for lateral variations in geoidal undulation. Four cases are used to cope with these: (1) neglecting inconsistency in data volume and geoid-based lake slope (2) considering data volume, (3) considering lake slope only, (4) considering both data volume and lake slope. Because Cryosat-2 is available only from 2010 to 2016, Jason-2 data are used to fill gaps between the time series of Cryosat-2 and ICESat (2003-2009) to obtain >10 years of lake level changes.The Cryosat-2 result is then compared with the result from the SARAL to determine the best case. The Cryosat-2 result shows dramatic lake level changes in Lakes Kusai, Zhuoaihu and Salt in 2011.Landsat satellite imagery is used to assist the determination of volume changes over these lakes..