Biopsy apparatus having integrated thumbwheel mechanism for manual rotation of biopsy cannula

1. A biopsy apparatus, comprising:

• a driver assembly having a housing configured to be grasped by a user;
  
  a biopsy probe mechanism drivably coupled to said driver assembly, said biopsy probe mechanism including a biopsy cannula having a cylindrical side wall, a proximal end, a distal end, and a longitudinal axis extending between said proximal end and said distal end, said cylindrical side wall defining a lumen and having a side port located near said distal end that extends through said side wall to said lumen;
  
  a thumbwheel mechanism interposed between the driver assembly and the biopsy probe mechanism, said thumbwheel mechanism including;
  
  a thumbwheel drivably coupled to said biopsy cannula and configured to rotatably position said side port of said biopsy cannula at a desired rotational position about said longitudinal axis relative to said driver assembly;
  
  a detent wheel mounted to said biopsy cannula configured for coaxial rotation with said biopsy cannula about said longitudinal axis, said detent wheel having a circumferential surface and a plurality of detent recesses formed through said circumferential surface and extending radially toward said longitudinal axis, said plurality of detent recesses being positioned about said longitudinal axis at a set of predetermined angular positions; and
  
  an engagement device having an engagement element biased in constant engagement with said detent wheel, and configured such that as said biopsy cannula is rotated said engagement element rides along said circumferential surface of said detent wheel and produces at least one of a tactile and an aural feedback each time said engagement element engages one of said plurality of detent recesses; and
  
  a lock mechanism having a locking pin that is configured for linear movement relative to said circumferential surface for selective locking engagement with one of said plurality of detent recesses of said detent wheel to prevent a rotation of said biopsy cannula from a current angular position of said side port of said biopsy cannula relative to said driver assembly,said locking pin including an engagement end having a tapered portion and a non-tapered portion angularly offset from said tapered portion about a locking axis,configured such that when said locking pin is positioned in a first rotational position relative to said locking axis, said engagement end rides along said circumferential surface of said detent wheel and said tapered portion sequentially passes into and out of a respective detent recess of said plurality of detent recesses of said detent wheel as said biopsy cannula is rotated thereby providing at least one of aural, visual and tactile feedback of a progressive rotation of said biopsy cannula, andconfigured such that when said locking pin is positioned in a second rotational position relative to said locking axis, said engagement end rides along said circumferential surface of said detent wheel and said non-tapered portion lockably engages a next detent recess of said plurality of detent recesses of said detent wheel as said biopsy cannula is rotated to lock said biopsy cannula from further rotation.