Extraction devices configued to extract chronically implanted medical devices

What is claimed is: 1. An extraction system for removing a chronically implanted Leadless Cardiac Pacemaker (LCP), the system comprising: a chronically implanted Leadless Cardiac Pacemaker (LCP), the LCP including a retrieval feature disposed on a proximal region of the LCP; and an extraction device having a proximal region and a distal region, the extraction device comprising: a retrieval cavity at the distal region of the extraction device that is configured to be sized to accommodate at least part of the LCP therein once the LCP is extracted; a retrieval loop including first and second control wires, the retrieval loop is configured to be extendable beyond the retrieval cavity by moving the first and/or second control wires and around the LCP and any ingrowth tissue that extends over the LCP as a result of the LCP having been chronically implanted, the first and second control wires of the retrieval loop configured to be manipulatable from the proximal region by an operator of the extraction device; with the retrieval loop configured to be manipulated around the LCP and any ingrowth tissue that extends over the LCP as a result of the LCP having been chronically implanted, the retrieval loop is configured along an inside surface of the retrieval loop to cut through any ingrowth tissue that extends over the LCP as a result of the LCP having been chronically implanted by moving the first and/or second control wires to thereby expose the retrieval feature of the LCP; and the retrieval loop is further configured to then grasp the exposed retrieval feature and pull the LCP into the retrieval cavity of the extraction device by moving the first and/or second control wires. 2. The extraction system of claim 1 , wherein the retrieval loop forms at least part of a loop with a first surface on an inner side of the loop and a second surface on an outer side of the loop, wherein the first surface is configured to cut tissue better than the second surface. 3. The extraction system of claim 2 , wherein the first surface comprises an abrasive material and the second surface does not include the abrasive material. 4. The extraction system of claim 2 , wherein the first surface comprises a cutting edge and the second surface is smooth. 5. The extraction system of claim 4 , wherein the cutting edge includes a plurality of teeth. 6. The extraction system of claim 1 , wherein at least a portion of the inside surface of the retrieval loop is electrically exposed to conduct RF energy to cut through any ingrowth tissue. 7. The extraction system of claim 1 , further comprising an extendable funnel that is configured to be extended relative to the retrieval cavity. 8. The extraction system of claim 7 , wherein the extendable funnel is configured to be rotatable and includes a cutting surface on an interior of the extendable funnel in order to cut through ingrowth tissue covering the retrieval feature of the implanted LCP. 9. An extraction system for removing a chronically implanted Leadless Cardiac Pacemaker (LCP), the system comprising: a chronically implanted Leadless Cardiac Pacemaker (LCP), the LCP including a retrieval feature disposed on a proximal region of the LCP, wherein as a result of the LCP having been chronically implanted, there is ingrowth tissue extending over at least part of the retrieval feature; and an extraction device having a proximal region and a distal region, the extraction device comprising: a retrieval cavity at the distal region of the extraction device that is configured to be sized to accommodate at least part of the LCP therein once the LCP is extracted; and an extractor member comprising: a hollow needle that is configured to be extendable beyond the retrieval cavity; and a deflectable probe that is configured to be extendable through the hollow needle and is further configured to cut through the ingrowth tissue that extends over the retrieval feature of the LCP in order to expose the retrieval feature of the LCP. 10. The extraction system of claim 9 , wherein the hollow needle is fluidly coupled with a fluid source in order to inject a fluid in a space between the implanted LCP and the ingrowth tissue. 11. The extraction system of claim 10 , wherein the deflectable probe comprises a preshaped cutting stylet. 12. The extraction system of claim 9 , further comprising a retrieval loop that is configured to be extendable out from and beyond the retrieval cavity and is further configured to be manipulatable from the proximal region by an operator of the extraction system, wherein the retrieval loop is configured to be manipulatable by the operator to grasp the retrieval feature of the implanted LCP and pull the implanted LCP into the retrieval cavity. 13. An assembly for removing a chronically implanted Leadless Cardiac Pacemaker (LCP), the assembly comprising: a chronically implanted Leadless Cardiac Pacemaker (LCP) having a retrieval feature, wherein as a result of the LCP having been chronically implanted, there is ingrowth tissue extending over at least part of the retrieval feature; a garage that is configured to be sized to accommodate at least part of the LCP therein once the LCP is extracted; and a retrieval loop including a first control wire and a second control wire, the retrieval loop configured to selectively extend out of and beyond the garage by moving the first and/or second control wires, the retrieval loop comprising a first surface and an opposing second surface, wherein the first surface is configured to cut tissue better than the opposing second surface, and by moving the first and/or second control wires, cut away the ingrowth tissue to expose the retrieval feature of the LCP; wherein the retrieval loop is further configured to selectively grasp the exposed retrieval feature and pull the LCP at least partially into the garage by moving the first and/or second control wires. 14. The assembly of claim 13 , wherein the retrieval loop forms at least part of a loop with the first surface on an inner side of the loop and the second surface on an outer side of the loop, wherein the first surface includes one or more cutting features and the second surface is free from cutting features. 15. The assembly of claim 14 , wherein the first surface comprises an abrasive material and the second surface does not include the abrasive material. 16. The assembly of claim 14 , wherein the first surface comprises a cutting edge and the second surface is free from a cutting edge. 17. The assembly of claim 14 , wherein at least a portion of the first surface is electrically exposed to conduct applied RF energy to the ingrowth tissue to cut through the ingrowth tissue, and the second surface is not electrically exposed so as to insulate surrounding tissue from the applied RF energy.