This study compares coseismic off-fault damage in a strike-slip (Sesia zone) and a thrust (Silvretta) tectonic setting to evaluate the different stress-strain histories. High-stress crystal plasticity at greenschist-facies conditions is recorded by mylonites from the Sesia zone and pseudotachylyte-bearing gneisses from the Silvretta basal thrust, European Alps. Twinned titanite occurring in both fault rocks highlights the similarities and differences in the recorded deformation. Fine-lamellar (< 1 µm) mechanical <110> twins in titanite from the Sesia mylonites with twin planes close to {221} show densities of 0.5 µm−1. Consistent with twinned jadeite, the differential stresses indicated are on the order of 0.5 GPa. In the Silvretta fault rocks, the twin density is higher with 2.5 µm−1 and additionally, twin planes close to {112} occur, indicating higher stress/strain-rate conditions, consistent with twinned amphibole and ilmenite as well as the presence of pseudotachylytes. The Silvretta fault rocks do not record subsequent creep, indicating rapidly decreasing stresses. In contrast, in the Sesia mylonites, subsequent creep of the surrounding quartz matrix at decreasing stresses resulted in sets of subparallel intragranular fractures in titanite, garnet, jadeite and zircon oriented at angles between 60° and 80° to the mylonitic foliation. The similarities of high-stress crystal plasticity in both settings with twinning at high differential stresses, as well as the differences with pseudotachylyte formation in the Silvretta fault rocks and creep at more slowly decreasing stresses in the Sesia zone mylonites, demonstrate the importance of deformation at transient high stresses for the subsequent stress-strain history.