A very different picture was seen in the presence of sustained pellet FGF2 treatment (
Figs. 6,
7). The one-way ANOVA for the 1-month time period was significant (1 month,
P < 0.0132; F = 7.27); thus, a post hoc Tukey's multiple comparison test was performed. After 1 month of sustained FGF2 pellet treatment, the mean cross-sectional areas of both the orbital and global layers were significantly decreased compared with the naïve control superior rectus muscles (
Figs. 6,
7), with a 40.7% decrease in the orbital layers and a 58.0% decrease in the global layers (
P < 0.0074 and
P < 0.0001, respectively). The mean cross-sectional areas of the global fibers on the contralateral side to the FGF2 treatment were also significantly smaller than the naïve control fibers, showing an 18% decrease (
P < 0.02). The global layer fibers of the FGF2-treated superior rectus muscles were also significantly smaller than those in the superior rectus muscle on the contralateral side, showing a 29.2% decrease (
P < 0.0085). After 2 months of FGF2 pellet treatment, the mean cross-sectional areas of only the global layers were significantly decreased compared with the naïve control superior rectus muscles, with a 15.4% decrease (
P < 0.02) (
Fig. 7), and the mean cross-sectional areas on the contralateral side were also significantly decreased compared with the naïve control fibers at a 21.3% decrease (
P < 0.003). In contrast with 1 month after treatment, there was no significant difference between the treated and contralateral myofiber cross-sectional areas. The one-way ANOVA for the 3-month time period was significant (3 months,
P < 0.0001; F = 30.16); thus, a post hoc Tukey's multiple comparison test was performed. After 3 months of FGF2 pellet treatment, both the orbital and global layer myofiber cross-sectional areas were significantly smaller than both the naïve control muscles and the fibers on the contralateral side (
Figs. 6,
7). After the 3 months of pellet treatment, the orbital layer fibers were 55.4% (
P < 0.0001) smaller than the naïve fiber areas and 22.3% (
P < 0.012) smaller than the orbital myofibers on the contralateral side. The orbital fiber areas on the side contralateral to treatment were not significantly different from those in the naïve control muscles (
P < 0.067). A similar picture was seen for the global layer fibers, which were significantly 52.9% smaller than the naïve control fibers (
P < 0.0001) and significantly 34.2% smaller than the global fibers on the contralateral side (
P < 0.024). In addition, the global layer fibers on the side contralateral to the FGF2 treatment were 28.4% smaller than those in the naïve control muscles (
P < 0.005). To summarize, prolonged FGF2 treatment—particularly after either 1 month or 3 months—resulted in an imbalance in the mean myofiber cross-sectional areas on the treated side compared with the side contralateral to the treatment.