Shaped cutter with peripheral cutting teeth and tapered open region

What is claimed is: 1. A shaped cutter for a wellbore forming tool, the shaped cutter comprising: a substrate, comprising: a proximal end; a distal end; and an outer diameter, wherein the substrate defines a cutter axis passing through the proximal end and the distal end; and a cutting table secured to the proximal end of the substrate at a cutter-substrate interface, comprising: a plurality of peripheral cutting teeth circumferentially arranged along a periphery of the cutting table equidistant from the cutter axis; and an open region spanning a portion of the cutting table radially inward of the plurality of peripheral cutting teeth, wherein the plurality of peripheral cutting teeth flare radially outward from the outer diameter to form a plurality of knuckles, respectively. 2. The shaped cutter of claim 1 , wherein the open region defines a transverse plane orthogonal to the cutter axis that fully spans the portion of the cutting table radially inward of the peripheral cutting teeth. 3. The shaped cutter of claim 1 , wherein the open region comprises a tapered portion having an internal back rake angle (φ) from the peripheral cutting teeth toward the cutter axis. 4. The shaped cutter of claim 3 , wherein the tapered portion extends fully from the peripheral cutting teeth to the cutter axis. 5. The shaped cutter of claim 3 , wherein the tapered portion extends partially from the peripheral cutting teeth toward the cutter axis, and wherein the open region further comprises a transverse plane orthogonal to the cutter axis radially inward of the tapered portion of the open region. 6. The shaped cutter of claim 3 , wherein the internal back rake angle (φ) is within a range of between 5 and 10 degrees. 7. The shaped cutter of claim 1 , wherein; the peripheral cutting teeth are arranged in a plurality of teeth groupings, there is an equal circumferential tooth spacing between the peripheral cutting teeth within each teeth grouping of the plurality of teeth groupings, there is a group spacing between adjacent teeth groupings of the plurality of teeth groupings, and the group spacing is greater than the equal circumferential tooth spacing within each of the teeth groupings of the plurality of teeth groupings. 8. The shaped cutter of claim 7 , wherein the teeth groupings comprise at least three teeth groupings of three peripheral cutting teeth per teeth grouping. 9. The shaped cutter of claim 7 , having four teeth groupings of five peripheral cutting teeth per teeth grouping. 10. The shaped cutter of claim 1 , wherein the periphery of the cutting table defines a generally cylindrical outer profile. 11. The shaped cutter of claim 10 , wherein the peripheral cutting teeth extend parallel to the cutter axis in an axial direction away from the cutter-substrate interface. 12. The shaped cutter of claim 1 , wherein outer cutting edges of the peripheral cutting teeth are angled radially inward. 13. The shaped cutter of claim 1 , wherein the plurality of knuckles forms a second outer diameter circumscribing the shaped cutter. 14. The shaped cutter of claim 13 , wherein the second outer diameter is greater than the outer diameter of the substrate. 15. The shaped cutter of claim 1 , wherein the plurality of peripheral cutting teeth each have a tooth taper. 16. The shaped cutter of claim 15 , wherein the tooth taper forms a ridge angle (Ψ) on each of the plurality of peripheral cutting teeth. 17. A drill bit comprising: a bit body; a blade disposed on the bit body; a cutter pocket disposed on the blade; a shaped cutters disposed in the cutter pocket, comprising: a substrate, comprising: a proximal end; a distal end; and an outer diameter, wherein the substrate defines a cutter axis passing through the proximal end and the distal end; and a cutting table secured to the proximal end of the substrate at a cutter-substrate interface, comprising: a plurality of peripheral cutting teeth circumferentially arranged along a periphery of the cutting table equidistant from the cutter axis; and an open region spanning a portion of the cutting table radially inward of the plurality of peripheral cutting teeth, wherein the plurality of peripheral cutting teeth flare radially outward from the outer diameter to form a plurality of knuckles, respectively. 18. The drill bit of claim 17 , wherein the bit body defines a bit axis about which the bit body rotates during drilling, and wherein at least one of the shaped cutters has an inwardly tapered surface defining an internal back rake angle (φ) and is secured to the bit body at an orientation that defines an actual back rake angle with the inwardly tapered surface of the cutting table. 19. The drill bit of claim 18 , wherein the internal back rake angle (φ) is between 5 and 10 degrees. 20. A drilling method, comprising: rotating the drill bit of claim 17 about a bit axis; and axially engaging a formation to be drilled with the drill bit while rotating the drill bit.