Prosthetic joint component with rotation-regulating structure

Having described the invention, we claim: 1. A prosthetic joint component, comprising: an elongate, longitudinally oriented outer sleeve including an outer sleeve surface configured for implantation into native bone of a patient and having a sleeve body extending between longitudinally separated proximal and distal sleeve ends, a stem-receiving cavity extending from the distal sleeve end into the sleeve body substantially in a first longitudinal direction, the sleeve including a sleeve interference protrusion extending from the distal sleeve end away from the sleeve body substantially in a second longitudinal direction opposite the first longitudinal direction; and a joint articulating member including an elongate, longitudinally oriented stem with longitudinally spaced proximal and distal stem ends separated by a stem body, the proximal stem end being configured for selective insertion into the stem-receiving cavity, the joint articulating member including a joint articulating surface spaced apart from the distal stem end by an angularly extending connector neck; wherein when the stem is inserted into the stem-receiving cavity with the outer sleeve and joint articulating member implanted within the patient's body, the stem and the outer sleeve are configured for selective relative rotation, impelled by action of the patient, about a shared longitudinal axis, and the connector neck impinges upon the sleeve interference protrusion responsive to a predetermined amount of relative rotation between the stem and the outer sleeve to prevent relative rotation between the stem and the outer sleeve outside a predetermined range of allowable rotation. 2. The prosthetic joint component of claim 1 , wherein the joint articulating surface forms a portion of at least one of a prosthetic hip joint, a prosthetic shoulder joint, a prosthetic ankle joint, a prosthetic knee joint, a prosthetic elbow joint, a prosthetic wrist joint, a prosthetic finger joint, a prosthetic toe joint, and a prosthetic spine component. 3. The prosthetic joint component of claim 1 , wherein the sleeve interference protrusion extends longitudinally from a majority of the distal sleeve end. 4. The prosthetic joint component of claim 1 , wherein the sleeve interference protrusion defines a radially oriented allowable rotation region longitudinally adjacent to the distal sleeve end, the allowable rotation region defining the predetermined range of allowable rotation. 5. The prosthetic joint component of claim 1 , wherein the predetermined range of allowable rotation is in the range of 30-60° of a full 360° relative rotation of the stem and the outer sleeve. 6. The prosthetic joint component of claim 1 , wherein the connector neck impinges upon the sleeve interference protrusion responsive to a predetermined amount of relative rotation between the stem and the outer sleeve to alter longitudinal insertion of the stem into the outer sleeve when the relative rotation between the stem and the outer sleeve is within a predetermined range of altered rotation. 7. The prosthetic joint component of claim 6 , wherein the sleeve interference protrusion defines at least one radially oriented altered rotation region longitudinally adjacent to the distal sleeve end and radially adjacent to an allowable rotation region, the allowable rotation region defining the predetermined range of allowable rotation and the altered rotation region defining the predetermined range of altered rotation. 8. A prosthetic joint component, comprising: a joint articulating member including a joint articulating surface; an anchor member configured for implantation into a native bone of a patient; a chosen one of the joint articulating member and the anchor member including a stem, the stem configured for insertion into a stem-receiving cavity in the other one of the joint articulating member and the anchor member; and at least one of the joint articulating member and the anchor member including a sleeve interference projection extending longitudinally therefrom; wherein when the stem is inserted into the stem-receiving cavity with the joint articulating member implanted within the patient's body, the joint articulating member and the anchor member are configured for selective relative rotation about a shared longitudinal axis impelled by action of the patient, a portion of at least one of the joint articulating member and the anchor member impinges upon the sleeve interference protrusion responsive to a predetermined amount of relative rotation between the joint articulating member and the anchor member to prevent relative rotation between the joint articulating member and the anchor member outside a predetermined range of allowable rotation, and to alter longitudinal insertion of the stem into the stem-receiving cavity when the relative rotation between the joint articulating member and the anchor member is within a predetermined range of altered rotation. 9. The prosthetic joint component of claim 8 , wherein the anchor member is an outer sleeve, the stem-receiving cavity is located in the outer sleeve, and the joint articulating member includes the stem. 10. The prosthetic joint component of claim 9 , wherein the sleeve interference protrusion extends longitudinally from the anchor member. 11. The prosthetic joint component of claim 10 , wherein the joint articulating member includes a joint articulating surface forming a portion of a prosthetic joint, the joint articulating surface being spaced from the stem by a connector neck, and the connector neck impinges upon the sleeve interference protrusion responsive to the predetermined amount of relative rotation between the joint articulating member and the anchor member. 12. The prosthetic joint component of claim 11 , wherein the joint articulating surface forms a portion of at least one of a prosthetic hip joint, a prosthetic shoulder joint, a prosthetic ankle joint, a prosthetic knee joint, a prosthetic elbow joint, a prosthetic wrist joint, a prosthetic finger joint, a prosthetic toe joint, and a prosthetic spine component. 13. The prosthetic joint component of claim 8 , wherein the sleeve interference protrusion defines a radially oriented allowable rotation region, the allowable rotation region defining the predetermined range of allowable rotation. 14. The prosthetic joint component of claim 8 , wherein the predetermined range of permissible rotation is in the range of 30-60° of a full 360° relative rotation of the joint articulating member and the anchor member. 15. The prosthetic joint component of claim 8 , wherein the sleeve interference protrusion defines at least one radially oriented altered rotation region radially adjacent to an allowable rotation region, the allowable rotation region defining the predetermined range of allowable rotation and the altered rotation region defining the predetermined range of altered rotation. 16. A method of regulating rotation of a prosthetic joint component, the method comprising the steps of: providing an elongate, longitudinally oriented outer sleeve including an outer sleeve surface configured for implantation into native bone of a patient and having a sleeve body extending between longitudinally separated proximal and distal sleeve ends, a stem-receiving cavity extending from the distal sleeve end into the sleeve body substantially in a first longitudinal direction, the sleeve including a sleeve interference protrusion extending from the distal sleeve end away from the sleeve body substantially in a second longitudinal direction opposite the first longitudinal direction; providing a jo