Abstract: Minimally invasive endoscopic cutting instruments having improved efficiency, access and reduced manufacturing costs are described herein. In particular, the present invention describes means for eliminating or modifying the distal end axial bearing surfaces so as to reduce manufacturing costs as well as the opportunity for galling and metal shedding. The present invention further describes an improved hub attachment method that may further or alternatively reduce overall manufacturing costs. The present invention yet further describes means and methods for improved bendability in the field, which, in turn, enables improved access to remote surgical targets.
Abstract: An arthroscopic sealing cannula having improved efficiency, access and reduced manufacturing costs is described herein. In particular, the present invention describes arthroscopic sealing cannulae in which the conventional thermal and chemical bonding means are eliminated and replaced with a mechanical joining system that utilizes mating fastener pairs integrally molded into the distal and proximal elements of a cannula so as to thereby provide a strong reliable joining of the elements. Such a mechanical system eliminates the need for costly capital equipment and specializing tooling as well as the material and environmental handling problems associated with conventional bonding techniques. Furthermore, in that the join may be readily confirmed through simple visual examination, the present invention also eliminates the need for complex, costly, and time-consuming validation procedures mandated by regulations in place to ensure proper integrity, strength, and reliability of the bond.
Abstract: Minimally invasive endoscopic cutting instruments having improved efficiency, access and reduced manufacturing costs are described herein. In particular, the present invention describes means for eliminating or modifying the distal end axial bearing surfaces so as to reduce manufacturing costs as well as the opportunity for galling and metal shedding. The present invention further describes an improved hub attachment method that may further or alternatively reduce overall manufacturing costs. The present invention yet further describes means and methods for improved bendability in the field, which, in turn, enables improved access to remote surgical targets.