Immediate and cumulative effects of upper-body isometric exercise on the cornea and anterior segment of the human eye

Abstract

Objectives. The execution of isometric resistance training has demonstrated to cause changes in the ocular physiology. The morphology of the cornea and anterior chamber is of paramount importance in the prevention and management of several ocular diseases, and thus, understating the impact of performing isometric exercise on the eye physiology may allow a better management of these ocular conditions. We aimed to determine the short-term effects of 2-minutes upper-body isometric effort at two different intensities on corneal and anterior eye morphology. Methods. Eighteen healthy young adults performed a 2-minutes isometric bicepscurl exercise against two loads relative to their maximum strength capacity (highintensity and low-intensity) in a randomized manner. An Oculus Pentacam was used to measure the corneal morphology and anterior chamber parameters in both experimental conditions at baseline, during the isometric effort (after 30, 60, 90 and 120 seconds), and after 30 and 120 seconds of passive recovery. Results. We found that isometric effort causes an increase in pupil size (P <0:001), and a decrease in the iridocorneal angle (P D0:005), anterior chamber volume (P < 0:001) and K-flat (P < 0:001) during isometric effort, with these effects being more accentuated in high-intensity condition (P <0:005 in all cases).Performing 2-minutes upper-body isometric effort did not alter anterior chamber depth, central corneal thickness, corneal volume, and K-steep (P >0:05 in all cases). Conclusions. Our data exhibit that performing 2-minutes of upper-body isometric exercise modifies several parameters of the corneal morphology and anterior eye biometrics, with these changes being greater for the high-intensity exercise condition. The findings of this study may be of relevance for the prevention and management of corneal ectasias and glaucoma.