Tissue removal system

What is claimed is: 1. A tissue removal system, comprising: an outer tubular member having a closed distal end and a tissue resection window proximal to the distal end; an inner tubular member disposed within the outer tubular member and configured to translate axially relative to the outer tubular member, wherein the tissue resection window is closed-off by the inner tubular member when the inner tubular member is in a distal position relative to the outer tubular member; a housing coupled to a proximal end of the outer tubular member; a reversible motor operatively coupled to the inner tubular member, such that activation of the motor causes the inner tubular member to translate axially relative to the outer tubular member; a motor control switch disposed within the housing, wherein a structure coupled to the inner tubular member contacts the motor control switch when the inner tubular member translates axially to the distal position relative to the housing; and motor control circuitry operatively coupled to the motor control switch and the motor, the motor control circuitry including an impedance monitor that monitors an impedance of a circuit including the motor control switch and detects when the motor control switch is contacted by detecting a change in impedance not caused by a presence of saline in the circuit, and wherein the motor control circuitry is configured for causing the motor to reverse when the impedance monitor detects that the motor control switch is contacted. 2. The tissue removal system of claim 1 , the motor comprising a rotatable output shaft, and the system further comprising a translational shaft operatively coupled to the respective motor output shaft and inner tubular member, wherein the translational shaft comprises a helical groove, and wherein rotation of the output shaft causes rotation of the translational shaft. 3. The tissue removal system of claim 2 , the structure coupled to the inner tubular member comprising a carriage configured to engage the helical groove on the translational shaft and to oscillate axially relative to the translational shaft when the translational shaft is rotating, such that the inner tubular member oscillates axially with the carriage. 4. The tissue removal system of claim 2 , the helical groove comprising a variable pitch, wherein windings in a first portion of the helical groove are closer together than windings in a second portion of the helical groove. 5. The tissue removal system of claim 1 , further comprising a second motor control switch operatively coupled with the motor that is contacted by the structure when the inner tubular member translates axially to a proximal position relative to the housing in which the tissue resection window is not blocked by the inner tubular member, wherein contacting the second motor control switch reverses the motor. 6. A tissue removal system, comprising: an outer tubular member having a closed distal end and a tissue resection window proximal to the distal end; an inner tubular member disposed within the outer tubular member and configured to translate axially relative to the outer tubular member, wherein the tissue resection window is closed-off by the inner tubular member when the inner tubular member is in a distal position relative to the outer tubular member; a housing coupled to a proximal end of the outer tubular member, wherein a proximal end of the inner tubular member is disposed within, and configured to reciprocate axially relative to, the housing; a motor operatively coupled to the inner tubular member, such that activation of the motor causes the inner tubular member to reciprocate axially relative to the outer tubular member; a first motor control switch disposed within the housing, wherein a structure coupled to the inner tubular member contacts the first motor control switch when the inner tubular member reaches the distal position relative to the housing; and a second motor control switch disposed external to the housing and configured for being actuated by a user, wherein the first and second motor control switches are operatively coupled to motor control circuitry that is operatively coupled to the motor, the motor control circuitry including an impedance monitor that monitors impedance of a circuit including the motor control switch and detects when the first motor control switch is contacted by detecting a change in impedance not caused by a presence of saline in the circuit, the motor control circuitry configured to deactivate the motor when the impedance monitor detects that the first motor control switch is contacted when the second motor control switch is not actuated. 7. The tissue removal system of claim 6 , wherein the second motor control switch comprises a foot pedal. 8. The tissue removal system of claim 6 , the motor comprising a rotatable output shaft, and the system further comprising a translational shaft coupled to and between the motor output shaft and the inner tubular member, the translational shaft comprising a helical groove, wherein rotation of the output shaft causes rotation of the translational shaft. 9. The tissue removal system of claim 8 , the structure coupled to the inner tubular member comprising a carriage configured to engage the helical groove on the translational shaft and to oscillate axially relative to the translational shaft when the translational shaft is rotating, such that the inner tubular member oscillates axially with the carriage. 10. The tissue removal system of claim 6 , the motor comprising a reversible motor with a rotatable output shaft, the system further comprising a translational shaft operatively coupled to the respective motor output shaft and inner tubular member, wherein the respective motor output shaft and translational shaft are configured such that rotation of the motor output shaft in a first direction causes the inner tubular member to translate axially in a distal direction, and wherein rotation of the output shaft in a second direction opposite to the first direction causes the inner tubular member to translate axially in a proximal direction. 11. A tissue removal system, comprising: an outer tubular member having a closed distal end and a tissue resection window proximal to the distal end; an inner tubular member disposed within the outer tubular member and configured to rotate and translate axially relative to the outer tubular member, wherein the tissue resection window is closed-off by the inner tubular member when the inner tubular member is in a distal position relative to the outer tubular member; a housing coupled to a proximal end of the outer tubular member, wherein a proximal end of the inner tubular member is disposed within, and configured to rotate and translate axially relative to, the housing; a reversible motor comprising a rotatable output shaft operatively coupled to the inner tubular member, such that rotation of the output shaft in a first direction causes the inner tubular member to translate axially in a distal direction, and wherein rotation of the output shaft in a second direction opposite to the first direction causes the inner tubular member to translate axially in a proximal direction, wherein the inner tubular member automatically oscillates axially relative to the outer tubular member during operation of the tissue removal system; an internal motor control switch disposed within the housing and operatively coupled to the motor, wherein the internal motor control switch is contacted when the inner tubular member is in the distal position relative to the housing; and an external motor control switch disposed external to the housing and operatively coupled to the moto