Fig. 1. Brain weight 2 weeks after hypoxia–ischemia and subsequent hyperoxia exposure. ^#P<0.05 compared with control, **P < 0.05 compared with HI, and ^†P < 0.05 compared with both control and HI (ANOVA).

Fig. 2. Flat mounts of retinas of newborn rats exposed to hyperoxia at 1 atmosphere absolute (ATA), 1.5 ATA, or 3.0 ATA and age-matched controls. (A) One week after hyperoxia exposure. (B) Inversion of retinal images in A to provide a better look at the vasculature. (C) Two weeks after hyperoxia exposure. (D) Inversion of images in C. (E) Ten weeks after hyperoxia exposure. (F) Inversion of images in E. Scale BAR = 1 mm.

Fig. 3. Typical sections of the retinas taken from newborn rat pups 1, 2, and 10 weeks after exposure to hyperoxia. These are higher magnification (10×) images of those found in Fig. 1 and provide an image from which the retinal vascular density may be calculated. (A–C) Age-matched controls. (D) 1 ATA group, 1 week. (E) 1 ATA, 2 weeks. (F) 1 ATA group, 10 weeks. (G) 1.5 ATA group 1 week. (H) 1.5 ATA group, 2 weeks. (I) 1.5 ATA group, 10 weeks. (J) 3.0 ATA group, 1 week. (K) 3.0 ATA group, 2 weeks. (L) 3.0 ATA group, 10 weeks. Scale BAR = 50 μm.

Fig. 4. Retinal vasculature of newborn rat pups 2 weeks after exposure to 100% oxygen at 3 ATA for 10 h. (A) Retinal flat-mount of age-matched control. (B) Retinal flat-mount of pup from retinopathy of prematurity group. (C) Inversion of image in A. (D) Inversion of image in B. (E) Typical section of retina from an age-matched control pup at higher magnification (10×). (F) Typical section of retinal from a pup from retinopathy of prematurity group at higher magnification (10×). Note the increase in vasculature seen in the retina from the retinopathy of prematurity pup (B, D, and F). Scale BAR = 1 mm in A–D. Scale BAR = 50 μm in E–F.

Fig. 5. Hematoxylin and eosin staining of retinas from newborn rat pups 2 and 10 weeks after exposure to hyperoxia. (A–B) Age-matched controls. (C) 1 ATA group, 2 weeks. (D) 1 ATA group, 10 weeks. (E) 1.5 ATA group, 2 weeks. (F) 1.5 ATA group, 10 weeks. (G) 3.0 ATA group, 2 weeks. (H) 3.0 ATA, 10 weeks. (I) retinopathy of prematurity group, 2 weeks. Note the thinning of the OPL in the retina from the retinopathy of prematurity group (I, arrow). Abbreviations in panel A: INL, inner nuclear layer; ONL, outer nuclear layer; OPL, outer plexiform layer. Schematic in right lower corner shows regions analyzed for each section. Scale BAR = 20 μm.

Fig. 6. HIF-1α protein expression 24 h after hyperoxia exposure. (A) Age-matched control, arrow denotes positive HIF-1α staining. (B) 1 ATA group. (C) 1.5 ATA group. (D) 3.0 ATA group. (E) retinopathy of prematurity group, arrow denotes HIF-1α expression in the inner limiting membrane. 100×, Scale BAR = 10 μm.

Fig. 7. VEGF protein expression 24 h after hyperoxia exposure. (A) Age-matched control group, arrow denotes positive VEGF staining. (B) 1 ATA group. (C) 1.5 ATA group. (D) 3.0 ATA group. (E) Retinopathy of prematurity group, arrow denotes VEGF expression in the inner limiting membrane. 100×, Scale BAR = 10 μm.

Table 1. Structural assessment of retina after hyperoxia exposure

Data are represented as mean ± SEM. INL indicates inner nuclear layer; OPL, outer plexiform layer; ONL, outer nuclear layer; RVD, retinal vascular density.