Rotational atherectomy device

The invention claimed is: 1 . A rotational atherectomy device for cutting or abrading tissue, the atherectomy device comprising: a rotatable drive shaft having a longitudinal axis and comprising one or more internal guiding tracks extending along the length of the drive shaft; one or more flexible shafts arranged to be longitudinally moveable along a respective internal guiding track; and an abrasive head disposed at the distal end of the one or more flexible shafts, the abrasive head comprising one or more abrasive elements, each abrasive element connected to a respective flexible shaft; wherein a distal end of the one or more guiding tracks bends at least partly in a radially outward direction such that distal movement of the one or more flexible shafts causes the abrasive head to move from a radially contracted configuration to a radially expanded configuration. 2 . The rotational atherectomy device of claim 1 , wherein the one or more abrasive elements comprises a cutting surface and/or an abrasive surface. 3 . The rotational atherectomy device of claim 1 , comprising: two internal guiding tracks; and two flexible shafts, wherein the abrasive head comprises a first abrasive element and a second abrasive element. 4 . The rotational atherectomy device of claim 3 , wherein the first abrasive element and the second abrasive element are disposed on opposite sides of the longitudinal axis. 5 . The rotational atherectomy device of claim 3 , wherein both the first and second abrasive elements have a greater radial extent in the radially expanded configuration than in the radially contracted configuration. 6 . The rotational atherectomy device of claim 1 , wherein the one or more abrasive elements extend distally from the drive shaft in the radially contracted position and the radially expanded position. 7 . The rotational atherectomy device of claim 1 , wherein the drive shaft further comprises a guidewire lumen for accommodating a guidewire. 8 . The rotational atherectomy device of claim 1 , further comprising a rotational motor for providing rotation to the drive shaft and the abrasive head. 9 . The rotational atherectomy device of claim 8 , wherein a proximal section of the one or more flexible shafts forms a single inner shaft, and the rotational motor is coupled to the inner shaft. 10 . The rotational atherectomy device of claim 8 , wherein the rotational motor is coupled to the drive shaft. 11 . The rotational atherectomy device of claim 1 , further comprising a control unit for controlling the speed of rotation of the drive shaft. 12 . The rotational atherectomy device of claim 1 , wherein the cross-sectional shape of the one or more internal guiding tracks and the cross-sectional shape of the respective one or more flexible shafts prevent the one or more flexible shafts from rotating with respect to the drive shaft. 13 . The rotational atherectomy device of claim 1 , wherein the one or more internal guiding tracks have a T-shaped cross-section. 14 . The rotational atherectomy device of claim 13 , wherein the one or more flexible shafts have a corresponding T-shaped cross-section. 15 . The rotational atherectomy device of claim 1 , further comprising an expansion control mechanism for moving the one or more flexible shafts longitudinally with respect to the drive shaft to thereby move the abrasive head between the radially contracted configuration and the radially expanded configuration. 16 . The rotational atherectomy device of claim 15 , wherein the expansion control mechanism is disposed at the proximal end of the drive shaft. 17 . The rotational atherectomy device of claim 15 , wherein a proximal section of the one or more flexible shafts forms a single inner shaft and wherein the rotational motor is connected to the inner shaft. 18 . The rotational atherectomy device of claim 15 , wherein the expansion control mechanism is a rack and pinion mechanism configured to move the motor in a longitudinal direction. 19 . The rotational atherectomy device of claim 15 , wherein the expansion control mechanism comprises a screw mechanism for moving the motor in a longitudinal direction. 20 . The rotational atherectomy device of claim 1 , further comprising a catheter shaft, wherein the rotatable drive shaft is disposed within the catheter shaft. 21 . A method of cutting or abrading tissue using an atherectomy device comprising a rotatable drive shaft having one or more internal guiding tracks, one or more flexible shafts arranged to be longitudinally moveable along a respective internal guiding track, and an abrasive head having one or more abrasive elements disposed at the distal end of the one or more flexible shafts, wherein a distal end of the one or more guiding tracks bends at least partly in a radially outward direction such that distal movement of the one or more flexible shafts causes the abrasive head to move from a radially contracted configuration to a radially expanded configuration, the method comprising: introducing the atherectomy device into a blood vessel; advancing the atherectomy device to a position in the blood vessel where tissue is to be cut or abraded; rotating the abrasive head to cut or abrade the tissue; and expanding the abrasive head by distally moving the one or more flexible shafts to move the abrasive head to from a radially contracted configuration to a radially expanded configuration.