Devices, systems, and methods facilitating access to and mapping of target tissue

What is claimed is: 1. A surgical access system, comprising: a cannula including a proximal base and an elongated cannula body extending distally from the proximal base; a mapping spacer configured to releasably engage the proximal base of the cannula, the mapping spacer including first and second uprights defining a slot therebetween; and a trocar including a proximal handle and an elongated trocar body extending distally from the proximal handle to a distal cutting tip, the elongated trocar body configured for insertion through the mapping spacer and the cannula such that the distal cutting tip extends distally from the elongated cannula body, wherein, in a first orientation of the trocar relative to the mapping spacer, the proximal handle is configured to abut the first and second uprights to inhibit extension of the distal cutting tip from the proximal base beyond an initial position, and wherein, in a second orientation of the trocar relative to the mapping spacer, the proximal handle is configured to slide through the slot of the mapping spacer to enable extension of the distal cutting tip distally from the initial position towards an extended position. 2. The surgical access system according to claim 1 , wherein the mapping spacer includes markings disposed on at least one of the first or second uprights to enable determination of a depth of extension of the distal cutting tip from the initial position towards the extended position. 3. The surgical access system according to claim 2 , wherein the proximal handle of the trocar includes a reference point for comparison with the markings to enable determination of the depth of extension. 4. The surgical access system according to claim 1 , wherein the trocar is rotatable 90 degrees relative to the mapping spacer to transition between the first and second orientations. 5. The surgical access system according to claim 1 , wherein the proximal handle includes first and second shoulders extending outwardly therefrom, wherein, in the first orientation of the trocar, the first and second shoulders are substantially aligned with the first and second uprights, respectively, and wherein, in the second orientation, the first and second shoulders are substantially perpendicular relative to the first and second uprights. 6. The surgical access system according to claim 1 , wherein the proximal base of the cannula defines a coupler configured to releasably engage a coupler of the mapping spacer. 7. The surgical access system according to claim 6 , wherein the couplers define complementary threading to enable threaded engagement of the mapping spacer with the proximal base of the cannula. 8. The surgical access system according to claim 1 , wherein the proximal base of the cannula and a distal face of the mapping spacer include at least one of complementary alignment features or complementary engagement features to enable alignment or engagement, respectively, of the proximal base of the cannula and the mapping spacer with one another. 9. The surgical access system according to claim 1 , wherein a proximal face of the mapping spacer and the proximal handle of the trocar include at least one of complementary alignment features or complementary engagement features to enable alignment or engagement, respectively, of the mapping spacer and the proximal handle of the trocar in the first orientation of the trocar. 10. The surgical access system according to claim 1 , further comprising an ablation device including an ablation probe configured for insertion through the elongated cannula body in the absence of the elongated trocar body. 11. The surgical access system according to claim 1 , wherein the elongated cannula body includes markings disposed thereon to enable determination of insertion thereof. 12. The surgical access system according to claim 1 , wherein the elongated cannula body includes a proximal section defining a first diameter, a distal section defining a second, smaller diameter, and a transition section extending between and interconnecting the proximal and distal sections. 13. A method of surgery, comprising: engaging a mapping spacer with a proximal base of a cannula, the cannula including an elongated cannula body extending distally from the proximal base; inserting a trocar, in a first orientation, through the mapping spacer and the cannula until a proximal handle of the trocar abuts the mapping spacer to define an initial position wherein a distal cutting tip of the trocar extends distally an initial distance from the elongated cannula body; advancing the cannula, the mapping spacer, and the trocar together with one another such that the distal cutting tip of the trocar is advanced distally through tissue; rotating the proximal handle of the trocar from the first orientation to a second orientation such that the proximal handle is aligned with a slot defined through the mapping spacer; and advancing the trocar distally relative to the cannula and the mapping spacer such that the proximal handle slides distally through the slot of the mapping spacer and such that the distal cutting tip is advanced further distally through tissue from the initial position towards an extended position. 14. The method according to claim 13 , further comprising determining a distance the distal cutting tip is advanced from the initial position towards the extended position using markings on the mapping spacer. 15. The method according to claim 13 , wherein advancing the cannula, the mapping spacer, and the trocar together with one another includes advancing the distal cutting tip of the trocar to a proximal side of target tissue. 16. The method according to claim 15 , wherein advancing the trocar distally relative to the cannula and the mapping spacer includes advancing the distal cutting tip of the trocar through the target tissue to a distal side of the target tissue. 17. The method according to claim 16 , further comprising determining a dimension of the target tissue using markings on the mapping spacer. 18. The method according to claim 13 , further comprising: withdrawing the trocar; disengaging the mapping spacer from the proximal base of the cannula; inserting an ablation probe through the cannula such that a distal portion of the ablation probe extends distally from the elongated cannula body into target tissue; and energizing the ablation probe to ablate the target tissue.