Abstract Objective To measure strain values and their association with intraocular pressure (IOP) change across five posterior eye regions in glaucoma patients. Design Cohort study. Participants Glaucoma patients who were imaged with optical coherence tomography (OCT) prior to and after laser suturelysis following trabeculectomy surgery (29 image pairs, 26 persons) Intervention Noninvasive imaging of the eye. Main Outcomes Strain values in eye regions. Results Mean strains were lowest in the retina and highest in the prelaminar neural tissue (PLNT) for E max , Γ max , and E zz . The values of E max in the anterior lamina cribrosa (ALC) and sclera were significantly related (P=0.0094, linear regression). Higher axial strain ( E zz ) was significantly associated with greater IOP decrease in the ALC, PLNT, and retina (P<0.05). Higher Γ max and E max strains were significantly associated with greater IOP decreases across all 5 eye regions. ALC and PLNT had negative median radial ( E rr ) compliance, while sclera had positive E rr compliance (P=0.017). E max and Γ max strains of the ALC were significantly and positively associated with these strains in the other 4 regions (P<0.005). Likewise, the E zz of ALC had a significant positive relationship with the other 4 regions (P<0.05). Conclusions Regional strains in the optic nerve head zone can be effectively measured using OCT and are related to the magnitude of IOP change. Strains were largest in PLNT and ALC and were smallest in retina. The sclera and choroid on average expand radially and circumferentially indicating a volume increase with IOP lowering.