Interventional catheter assemblies, control systems and operating methods

We claim: 1. An interventional catheter assembly comprising: a catheter system forming at least one passageway and being sized and configured for introduction to and navigation through a body lumen or cavity to a target site; an operating head positioned at or near a distal end of the catheter system and coupled to a drive shaft and a drive system for rotation; a guidewire brake operable to clamp a guidewire in a stationary position when engaged and to allow translation and/or rotation of the guidewire through the brake when released; a guidewire brake control system interrupt that prevents the drive system from being actuated when the guidewire brake is in a release position; and a selectable guidewire brake interrupt override control that, when actuated, permits an operator to translate and/or rotate the drive shall and operating head while the guidewire is simultaneously moved. 2. The interventional catheter assembly of claim 1 , additionally comprising an aspiration lumen that communicates with a vacuum source during operation and provides aspiration of materials from the target site. 3. The interventional catheter assembly of claim 1 , additionally comprising one or more material removal ports in proximity to the operating head. 4. The interventional catheter assembly of claim 1 , additionally comprising an infusion lumen that communicates with an infusate source during operation and provides infusion of liquid to the target site. 5. The interventional catheter assembly of claim 1 , additionally comprising control circuitry providing a delay between the time the drive system and an aspiration system are inactivated, such that the drive system may be inactivated immediately upon actuation of a switch, while the aspiration system may be inactivated after a delay period following actuation of the drive system. 6. The interventional catheter assembly of claim 1 , wherein the operating head has advanceable, rotatable cutter surfaces at or near as distal end. 7. The interventional catheter assembly of claim 1 , wherein the rotational output of the drive system is bidirectional. 8. The interventional catheter assembly of claim 1 , additionally comprising a selection switch allowing an operator to change the direction of rotational output of the drive system. 9. The interventional catheter assembly of claim 1 , wherein the drive system comprises a variable speed drive motor that delivers a constant voltage for any specified rotational output. 10. The interventional catheter assembly of claim 1 , wherein the current delivered to the drive system is adjusted, under load conditions, if the voltage for any specified rotational output is insufficient to produce the specified rotational output. 11. The interventional catheter assembly of claim 1 , provided as a sterile, disposable kit. 12. A method for operating an interventional catheter having an advanceable operating head positioned at or near a distal end of a catheter system sized for insertion into and navigation through a body lumen or cavity, comprising: inserting a flexible guidewire into and navigating the guidewire through a body lumen or cavity to a target site; inserting and navigating the advanceable operating head and a portion of the catheter system over the guidewire to the target site; actuating the operating head remotely and advancing it to separate and break down Undesired occlusive material at the target site; and withdrawing the operating head from the target site by simultaneously moving the guidewire and the operating head while rotating the operating head. 13. The method of claim 12 , addition comprising clamping the guidewire in a position in which it is prevented from moving axially or rotatably after the guidewire is positioned at the target site. 14. The method of claim 12 , wherein the body lumen or cavity is selected from the group consisting of: blood vessels and vascular cavities; gastrointestinal cavities; lumens or cavities in male and female reproductive organs, gas exchange cavities, a spinal canal, and nasal and sinus cavities. 15. The method of claim 12 , additionally comprising aspirating the undesired occlusive material from the target site. 16. The method of claim 12 , additionally comprising infusing liquid in proximity to the target site during actuation of the operating head. 17. The method of claim 12 , additionally comprising sensing whether the guidewire is in a clamped or a released position. 18. The method of claim 17 , additionally comprising providing a control system feature that permits rotation and advancement of the operating head when the guidewire is in a clamped condition and that prevents actuation of the operating head when the guidewire brake is in a released position. 19. A method for operating an interventional catheter having an advanceable, rotatable operating head positioned at or near a distal end of a catheter system sized for insertion into and navigation through a body lumen or cavity, comprising: inserting a flexible guidewire into and navigating the guidewire through a body lumen or cavity to a target site; inserting and navigating the advanceable operating head and a portion of the catheter system over the guidewire to the target site; clamping the guidewire prior to actuating the operating head and advancing the operating head over the guidewire at the target site while rotating the operating head; and withdrawing the operating head from the target site by translating and rotating the operating head while the guidewire is simultaneously moved.