Orthopedic system for immobilizing and supporting body parts

The invention claimed is: 1. A cast system for supporting a body part, said cast system comprising: a composite support shell comprising: a middle polymer layer moldable within and above a target temperature range and generally rigid below the target temperature range; a flexible inner foam layer configured to conform to the middle layer and moldable either within and above the target temperature range or above a molding temperature, the molding temperature being above the target temperature range; and a flexible outer foam layer configured to stretch to conform to the middle layer and moldable above the molding temperature, wherein the composite support shell comprises a relief pattern extending through the inner foam layer, middle polymer layer, and outer foam layer formed in the composite support shell when heated above the molding temperature, the relief pattern configured to at least partially conform the support shell to the body part, and wherein the composite support shell is configured to maintain the relief pattern at temperatures below the molding temperature. 2. The cast system of claim 1 , wherein the composite support shell is a generally flat sheet. 3. The cast system of claim 2 , wherein the relief pattern comprises a curved portion in the generally flat sheet. 4. The cast system of claim 3 , wherein the composite support shell comprises an aperture positioned in the curved portion. 5. The cast system of claim 4 , wherein the aperture is configured to receive a thumb. 6. The cast system of claim 1 , wherein the inner foam layer is moldable within and above the target temperature range. 7. A cast system for supporting a body part, said cast system comprising a polymeric foam support shell moldable within a target temperature range for conforming to the body part and comprising air cells dispersed throughout, the polymeric foam support shell further comprising: a middle stratum for providing rigid support to the body part, the middle stratum having a first density of air cells; an inner stratum for providing insulation and cushioning, the inner stratum having a second density of air cells; and an outer stratum for providing insulation, the outer stratum having a third density of air cells, wherein the second density and third density are each higher than the first density such that the middle stratum is more rigid than the inner stratum and the outer stratum and such that air encapsulated in the air cells of the inner stratum and the outer stratum insulates the middle stratum so that the middle stratum remains within the target temperature range for a longer period of time than the outer stratum and the inner stratum when the polymeric foam support shell is heated to a temperature within or above the target temperature range. 8. The cast system of claim 7 , wherein the middle stratum has no air cells. 9. The cast system of claim 7 , wherein the second density is approximately the same as the third density. 10. The cast system of claim 7 , wherein the air cells are closed cells. 11. The cast system of claim 7 , wherein the air cells are open cells. 12. The cast system of claim 7 , wherein the polymeric foam support shell is formed of a material selected from the group consisting of: amorphous polyethylene terephthalate, recycled polyethylene terephthalate, polyvinyl chloride, polyvinyl chloride foam, polycaprolactone, caprilactone, polyethylene, and derivatives of those materials. 13. The cast system of claim 7 , further comprising an additional layer of material coupled to an inner surface or an outer surface of the polymeric foam support shell. 14. A cast system for supporting a body part, said cast system comprising a composite support shell having an inner surface and an outer surface comprising: a middle layer moldable within a target temperature range so that the composite shell may be conformed to the body part and generally rigid below the target temperature range to support the body part; a flexible inner layer configured to conform to the middle layer; and a flexible outer layer configured to stretch to conform to the middle layer, a plurality of ventilation holes spaced generally uniformly across the composite support shell and extending from the inner surface to the outer surface, the ventilation holes each having an open cross-section passing through the inner layer, the middle layer, and the outer layer, wherein the ventilation holes are configured to allow the middle layer to expand into the open cross-section of the ventilation hole when the middle layer is molded to the body part and to provide ventilation to the body part. 15. The cast system of claim 14 , wherein one or more of the ventilation holes provides a forming feature for conforming the composite support shell to the body part. 16. The cast system of claim 15 , wherein the forming feature is an area of higher flexibility. 17. The cast system of claim 14 , wherein one or more of the ventilation holes is sized and configured to provide access to a wound. 18. The cast system of claim 14 , wherein one or more of the ventilation holes is sized and configured to allow a catheter to access the body part through the composite support shell. 19. The cast system of claim 14 , wherein the plurality of ventilation holes comprises ventilation holes of different shapes. 20. The cast system of claim 14 , wherein the plurality of ventilation holes comprises ventilation holes of different sizes.