Hydrogels are water-swollen, cross-

Hydrogels are water-swollen, cross-linked polymeric structures that have received significant
attention because of their many applications in biomedical applications. Hydrogels
are prepared by cross-linking the polymer chains while in an aqueous solution by irradiation
or chemical methods to create a water-filled polymer network. The most widely used
hydrogel is cross-linked polyhydroxyethylmethacrylate (PHEMA). The PHEMA structure
has a water content similar to living tissue, has resistance to degradation, is not absorbed by
the body, withstands heat sterilization without damage, and can be prepared in a variety of
shapes and forms. Applications of hydrogels include contact lenses, drug delivery vehicles,
wound healing adhesives, sexual organ reconstruction materials, artificial kidney membranes,
and vocal cord replacement materials. The amount of cross-linking within hydrogels is a critical
parameter that affects swelling ratios and mechanical strength.
Quite a variety of techniques are employed in forming polymer medical devices. The
technique depends on several factors such as whether the material is thermosetting or thermoplastic,
and, if thermoplastic, the temperature at which it softens. Thermosetting polymers
must be prepared as a liquid linear polymer and then cured in a mold. They cannot
be molded after this step. Thermoplastic polymers can be molded repeatedly (by compression,
injection, extrusion, etc.), cast, and formed into fibers or films by extrusion followed
by drawing or rolling to improve properties such as strength. Later in this chapter many
methods will be described for forming three-dimensional porous structures from resorbable
polymers that are suitable for tissue engineering applications. The ability to form complex
shapes and control the structure at many length scales, as well as the fact they are degradable,
make polymers the number one biomaterial type of choice for tissue engineering.