Why does corneal bleb formation occur?

• A. Accumulation of carbon dioxide after wear begins at 60 minutes
• B. Accumulation of carbon dioxide after 10 minutes, peaking at 30 minutes, subsiding after 60 minutes
• C. Oxygen deficiency due to lens tightness
• D. Bacterial infection of the cornea

Answer: (B)

Corneal blebs from contact lens wear are driven by gas exchange under the lens, particularly carbon dioxide buildup in the tear film. When a lens sits on the eye, carbon dioxide produced by the cornea can accumulate because tear turnover beneath the lens is limited, leading to localized edema of the corneal surface and the appearance of bleb-like fluid pockets. This rise in CO2 happens relatively quickly after wear starts, reaching a peak around about 30 minutes, and then tends to decline by around an hour as tear exchange and diffusion gradually restore balance. This time course—early CO2 accumulation with a mid-interval peak and subsequent subsidence—is why it best explains bleb formation during soft lens wear.

The other scenarios don’t fit this specific pattern. CO2 buildup beginning only at 60 minutes would be too late to cause the early bleb changes. Oxygen deficiency from lens tightness is a broader cause of corneal swelling but doesn’t account for the characteristic CO2-driven, time-bound bleb pattern. Bacterial infection would present with additional signs such as redness, discharge, or pain and does not describe this transient, gas-exchange–related change.