Surgical forceps

What is claimed is: 1. A method of preparing a tissue sealing instrument for reuse, comprising: obtaining a tissue sealing instrument that has previously been used, the tissue sealing instrument including: an end effector assembly including first and second jaw members each defining a tissue-contacting surface and a longitudinally-extending knife channel defined through the tissue-contacting surface, at least one of the first or second jaw members configured to move relative to the other between a spaced-apart position and an approximated position to grasp tissue between the tissue-contacting surfaces; a movable trigger; and a knife assembly having at least one proximal component and a first knife blade engaged to one another, wherein in the previous use of the tissue sealing instrument, the first knife blade was configured to translate through the longitudinally-extending knife channels in response to actuation of the movable trigger to cut tissue grasped between the tissue-contacting surfaces; disengaging the at least one proximal component from the first knife blade; discarding the first knife blade; at least one of cleaning or sterilizing the at least one proximal component, the end effector assembly, and the movable trigger; and engaging the at least one proximal component to a second knife blade such that, in a subsequent use of the tissue sealing instrument, the second knife blade is configured to translate through the longitudinally-extending knife channels in response to actuation of the movable trigger to cut tissue grasped between the tissue-contacting surfaces. 2. The method according to claim 1 , wherein disengaging the at least one proximal component from the first knife blade includes removing at least one pin coupling the at least one proximal component and the first knife blade. 3. The method according to claim 1 , wherein engaging the at least one proximal component to the second knife blade includes positioning at least one pin to couple the at least one proximal component and the second knife blade to one another. 4. The method according to claim 1 , wherein disengaging the at least one proximal component from the first knife blade includes disconnecting at least one snap-fit engagement. 5. The method according to claim 1 , wherein engaging the at least one proximal component to the second knife blade includes connecting at least one snap-fit engagement. 6. The method according to claim 1 , wherein disengaging the at least one proximal component from the first knife blade includes removing a portion of the first knife blade from within the at least one proximal component. 7. The method according to claim 1 , wherein engaging the at least one proximal component to the second knife blade includes inserting a portion of the second knife blade into the at least one proximal component. 8. The method according to claim 1 , wherein the tissue sealing instrument that has previously been used further includes: a housing; a shaft; and a movable handle, and wherein the method further includes at least one of cleaning or sterilizing the housing, the shaft, or the movable handle. 9. A method of preparing a tissue sealing instrument for reuse, comprising: obtaining a tissue sealing instrument that has been used to seal and cut tissue, the tissue sealing instrument including a plurality of reusable parts including a housing, a shaft, first and second jaw members each defining a tissue-contacting surface and a longitudinally-extending knife channel defined through the tissue-contacting surface, a movable handle, a movable trigger, and at least one proximal component of a knife assembly, the tissue sealing instrument including at least one disposable part including a first knife blade of the knife assembly, the tissue sealing instrument obtained in an assembled state wherein the shaft extends distally from the housing and supports the first and second jaw members at a distal end thereof, the movable handle extends from the housing and is operably coupled to the first and second jaw members to enable selective movement of at least one of the tissue-contacting surfaces relative to the other, the trigger extends from the housing and is operably coupled to the at least one proximal component, and the first knife blade is engaged to the at least one proximal component and slidably disposed within the shaft, the first knife blade, in the assembled state, configured for selective translation through the longitudinally-extending knife channels in response to actuation of the movable trigger; disassembling the at least one disposable part from the plurality of reusable parts; at least one of cleaning or sterilizing the plurality of reusable parts; discarding the at least one disposable part; obtaining a replacement part for each of the at least one disposable parts, wherein the replacement part for the first knife blade is a second knife blade; and reassembling the at least one replacement part with the plurality of reusable parts such that, in a reassembled state, the second knife blade is configured for selective translation through the longitudinally-extending knife channels in response to actuation of the movable trigger. 10. The method according to claim 9 , wherein disassembling includes removing at least one pin of the knife assembly, and wherein reassembling includes positioning at least one pin of the knife assembly. 11. The method according to claim 9 , wherein disassembling includes disconnecting at least one snap-fit engagement associated with the knife assembly, and wherein reassembling includes connecting at least one snap-fit engagement associated with the knife assembly. 12. The method according to claim 9 , wherein disassembling includes slidably withdrawing the at least one disposable part, and wherein reassembling includes slidably inserting the at least one disposable part. 13. The method according to claim 12 , wherein disassembling includes slidably withdrawing the first knife blade, and wherein reassembling includes slidably inserting the second knife blade.