| Abstract |
Myodocopid ostracods are small crustaceans varying from 1 to 32 mm. Their shrimp-like bodies are flattened from side to side and protected by a relatively thin, two-part shell or "carapace" made from the polysaccharide chitin coupled with proteins, often with the incorporation of calcium. The two valves of the carapace are connected by a hinge, and can open and close while retaining their rigidity. Most myodocopids can be distinguished from other ostracods by their well-developed compound eyes; some occupying a third of their total body size. Indeed, they use visual signals in the form of iridescence or bioluminescence for courtship. In one group - "Macrocypridina" (about 8mm long) - the carapace is heavily pigmented except for a round, clear transparent window directly covering the eye, through which the animal can see. These windows have some interesting properties; they are very thin yet rigid, and prevent crack formation and propagation, avoid scratches, allow oxygen to pass through them, and appear resistant to the buildup of surface contamination. Our proposal is to understand the biophysical and structural basis of the properties of these ostracod windows, and consequently to mimic these structures on a larger scale to develop very thin, hard contact lenses suitable for humans. These lenses will act as eye shields in military applications but will also be beneficial for the treatment of eye-related problems in the general population. |
