Soft tissue coring biospy devices and methods

The invention claimed is: 1. An excisional device, comprising: a handle portion comprising a distal end and a proximal end; an articulable beak assembly configured to rotate, core through tissue and part-off pieces of a tissue from surrounding tissue, the articulable beak assembly comprising a single hypo tube comprising cuts configured to form a first articulable cutting element comprising a first beak and a second articulable cutting element comprising a second beak, each of the first and second beaks comprising a first tendon forming one outermost open edge thereof and a second tendon forming another outermost open edge thereof; a proximal sheath, coupled to the articulable beak assembly and configured to both rotate and move in axial proximal and distal directions; a distal sheath fitted at least partially over the proximal sheath and configured to move in the axial proximal and distal directions independently of the proximal sheath, wherein axial movement of the proximal sheath relative to the distal sheath opens and closes the beak assembly by pushing and pulling on, respectively, the first and second tendons of the first and second beaks. 2. The excisional device of claim 1 , further comprising a twin gear cam and cam elements within the handle portion, collectively configured to differentially drive respective movements of the proximal sheath and of the distal sheath. 3. The excisional device of claim 1 , further comprising a first carrier coupled to the distal sheath and a second carrier coupled to the proximal sheath, the distal and proximal sheaths being configured to slide in the axial proximal direction and in the axial distal direction in response to respective axial movement of the first and second carriers, each of the first and second carriers being resiliently biased toward the proximal end of the handle portion. 4. The excisional device of claim 3 , wherein an axial distance over which the second carrier slides is related to a length of the pieces of the tissue parted-off by the beak assembly. 5. The excisional device of claim 1 , wherein the beak assembly, the proximal sheath and the distal sheath are configured and/or operated to at least one of: penetrate the tissue with the beak assembly in an open or closed configuration while rotating or not rotating; carry out semi-automatic tissue parting-off or fully automatic tissue parting-off; and manually part-off the pieces of the tissue at manually selectable lengths. 6. The excisional device of claim 1 , further comprising a transport assembly tube, disposed at least partially within the handle portion and configured to receive the parted-off pieces of the tissue and transport them, under a force of vacuum drawn within the transport assembly tube, in the axial proximal direction. 7. The excisional device of claim 6 , further comprising a tissue storing magazine coupled to the proximal end of the handle portion and configured to receive and store the parted-off pieces of the tissue transported by the transport assembly tube. 8. The excisional device of claim 7 , wherein the articulable beak assembly is configured, during a single insertion thereof into the tissue, to rotate, core through the tissue and part-off the pieces of the tissue while the transport assembly tube transports the parted-off pieces of the tissue and while the tissue storing magazine receives and stores the transported pieces of the tissue. 9. The excisional device of claim 7 , further comprising at least one gear cam driven in rotation within the handle portion and configured to enable an automatic mode of operation in which same-length pieces of the tissue are repeatedly parted-off, transported and stored. 10. The excisional device of claim 7 , further comprising at least one gear cam driven in rotation within the handle portion and configured to enable a semi-automatic mode of operation in which a single piece of the tissue is parted-off, transported and stored each time an actuator on the handle portion is actuated. 11. The excisional device of claim 1 , configured, in a manual mode of operation, to part-off one or more pieces of the tissue of selectable length upon actuation of a manual part-off mechanism on the handle portion. 12. The excisional device of claim 1 , configured to part-off the pieces of the tissue at a selectable rate. 13. The excisional device of claim 1 , configured to part-off the pieces of the tissue having a selectable length. 14. The excisional device of claim 1 , wherein the articulable beak assembly is configured to selectively assume an open configuration suitable for coring and a closed configuration suitable for at least one of parting-off the pieces of the tissue, tissue penetration and tissue dissection. 15. The excisional device of claim 1 , wherein the articulable beak assembly is configured to move, while coring, in the axial distal direction by a selectable excursion distance. 16. The excisional device of claim 1 , further comprising: a gear cam driven in rotation with the handle portion; a first pin disposed against the gear cam and configured to act upon the proximal sheath, and a second pin configured to be disposed away from the first pin against the rotating gear cam and configured to act upon both the proximal sheath and the distal sheath to drive the axial movements of the proximal sheath and of the distal sheath. 17. The excisional device of claim 16 , wherein the first and second pins are configured to be driven against the rotating gear cam together or in a lead/lag relationship. 18. The excisional device of claim 16 , wherein a time between successive pieces of the tissue parted-off from the surrounding tissue is related to a speed of rotation of the gear cam. 19. The excisional device of claim 16 , wherein an axial distance between the first and second pins is related to a length of the pieces of the tissue parted -off by the articulable beak assembly. 20. A method of excising tissue, comprising: providing an excisional device comprising: a handle portion; an articulable beak assembly comprising a single hypo tube comprising cuts configured to form a first articulable cutting element comprising a first beak and a second articulable cutting element comprising a second beak, each of the first and second beaks comprising a first tendon forming one outermost open edge thereof and a second tendon forming another outermost open edge thereof; a proximal sheath coupled to the beak assembly; and a distal sheath fitted at least partially over the proximal sheath; inserting at least the articulable beak assembly into tissue; rotating the articulable beak assembly; and differentially moving the proximal sheath relative to the distal sheath to selectively open the articulable beak assembly to core through the tissue and to close the articulable beak assembly to part-off the cored tissue from surrounding tissue by axially pushing and pulling on, respectively, the first and second tendons of the first and second beaks. 21. The method of excising tissue of claim 20 , wherein the providing step is carried out with the proximal sheath being configured to both rotate and move axially in axial proximal and distal directions. 22. The method of excising tissue of claim 21 , wherein the providing step is carried out with the distal sheath being configured to move axially in the axial proximal and distal directions independently of the proximal sheath. 23. The method of excising t