Surgical saw blade and thermal management system

The invention claimed is: 1. A surgical saw blade comprising: a cutting edge including a plurality of teeth substantially entirely formed of a first material having a first thermal conductivity; a proximal portion including a blade hub; and a body portion disposed between and connecting the cutting edge and the proximal portion and including: a thermal transit core formed of a second material having a second thermal conductivity at least twice the first thermal conductivity and the core having at least two opposed longitudinally extending first core surfaces extending across a width of the core, and at least two opposed longitudinally extending first flanking members respectively disposed over the longitudinally extending first core surfaces. 2. The surgical saw blade of claim 1 wherein the cutting edge is formed of steel and the longitudinally extending first flanking members are formed of steel. 3. The surgical saw blade of claim 1 wherein the cutting edge is formed of steel and the proximal portion is formed substantially entirely of steel. 4. The surgical saw blade of claim 1 wherein the cutting edge is disposed at a distal end of the blade and the cutting edge is formed of steel. 5. The surgical saw blade of claim 1 wherein the cutting edge is disposed at a distal end of the blade and the saw blade is substantially symmetrical about a longitudinal axis extending from the blade hub to the teeth. 6. The surgical saw blade of claim 1 wherein steel sheets are disposed over the first core surfaces to provide the flanking members. 7. The surgical saw blade of claim 1 wherein the cutting edge is formed of steel and two opposed second flanking members are formed of steel and are connected to the first flanking members and extend along each of two opposed second core surfaces extending across a thickness of the thermal transit core. 8. The surgical saw blade of claim 1 , wherein: the cutting edge is located on a distal end of the saw blade opposite the blade hub, the body portion comprises more than half of a length of the saw blade, and the surgical saw blade, including the proximal portion and the cutting edge and the body portion, is substantially planar and of a substantially constant thickness. 9. The surgical saw blade of claim 1 wherein the thermal transit core substantially comprises copper. 10. The surgical saw blade of claim 1 wherein the thermal transit core substantially comprises aluminum. 11. A method of making a surgical saw blade comprising the steps of: forming layers of a blank sheet assembly, the layers including: a substantially planar first sheet of steel of a first thickness and having a first planar area, a substantially planar second sheet of steel having a second planar area substantially equal to the first planar area and having a second thickness substantially equal to the first thickness, and an intermediate layer disposed between the first sheet and the second sheet, the intermediate layer including both steel incorporated into cutting edges and a second material having a thermal conductivity greater by at least a factor of two than the thermal conductivity incorporated into a thermal transit core in blades formed; fixing the first and second sheets to opposite sides of the intermediate layer to form the blank sheet assembly; cutting a plurality of saw blade blanks from the blank sheet assembly with each blank having a thermal transit core formed of the second material and a cutting edge formed of steel; forming a blade hub in a proximal end of the blade blanks; and forming cutting teeth on the cutting edge of the blade blanks. 12. The method of claim 11 , wherein the steel of the intermediate layer is provided as a third sheet of steel including a plurality of regularly disposed pockets of a predetermined shape and size formed therein and the second material is provided as a plurality of thermal transit cores of substantially the same size and shape as the pockets, and further comprising the step of disposing the thermal transit cores in the pockets of the third sheet. 13. The method of claim 11 , wherein the steel of the intermediate layer also comprises at least part of the proximal end. 14. The method of claim 11 , wherein the first and second steel sheets are welded to the steel of the intermediate layer. 15. The method of claim 11 , wherein the second material substantially comprises copper. 16. A surgical saw blade comprising: a distal portion including a cutting edge with a plurality of teeth substantially entirely formed of a first material having a first thermal conductivity; a proximal portion including a blade hub; and a body portion disposed between and connecting the distal portion and the proximal portion and including: a thermal transit core formed of a second material having a second thermal conductivity at least twice the first thermal conductivity and the core having at least two opposed longitudinally extending first core surfaces extending across a width of the core, and a pair of opposed vertical flanking members made from a stiffer material than the second material of the thermal transit core, the vertical flanking members extending longitudinally from the proximal portion across the body portion to the distal portion. 17. The surgical saw blade of claim 16 , wherein vertical flanking members and inner parts of the proximal portion and the distal portion are formed as an integral unit. 18. The surgical saw blade of claim 16 , wherein the thermal transit core comprises a plurality of surfaces which include an upper horizontal surface, a lower horizontal surface, and two vertical surfaces. 19. The surgical saw blade of claim 18 , wherein the vertical flanking members extending longitudinally across one of the vertical surfaces of the thermal transit core. 20. The surgical saw blade of claim 18 , wherein one of the vertical flanking members is disposed across one of the vertical surfaces of the thermal transit core, and another of the vertical flanking members is disposed across the opposed vertical surface of the thermal transit core. 21. The surgical saw blade of claim 18 , further comprising horizontal flanking members, one of the horizontal flanking members disposed across the upper horizontal surface of the thermal transit core, and another of the horizontal flanking members disposed across the lower horizontal surface of the thermal transit core. 22. The surgical saw blade of claim 16 , wherein the vertical flanking members are formed from one of a series 300 or 400 stainless steel, tungsten carbide, or titanium. 23. The surgical saw blade of claim 16 , wherein the vertical flanking members are formed from a biocompatible material. 24. The surgical saw blade of claim 16 , wherein the thermal transit core substantially comprises one of copper or aluminum.