Permafrost is sensitive to temperature change. As the global temperature rises, permafrost is likely to thaw, and the thawing will induce land subsidence. Monitoring surface elevation changes in global permafrost regions is an important issue in dealing with the impacts of global warming. In this study, we determine surface elevation changes in the permafrost region of the northern Alaska using radar altimeter data from the satellite missions Envisat (2003-2010) and SARAL/AltiKa (2013-2015). Monitoring elevation changes in this region by conventional methods is difficult because of its inaccessibility. We use the subwaveform retracking to improve the accuracies of height measurements from these two missions. Satellite altimeter waveforms here are affected by topographic variations, and we find that a threshold value of 0.1 is the optimal choice when retracking subwaveforms using the threshold method.A data pre-processing procedure is carried out before calculating surface elevation changes caused by permafrost thawing. At each of the along-track bins, we least-squares fit the time series of elevation changes by a function containing a rate and annual changes. The resulting rates are mostly negative, indicating land subsidence caused by permafrost thawing. The subsidence rates in the southern part of the study area are larger than the rates in the northern part. The southern part has a steeper terrain than the norther part.