Tissue thickness compensator comprising resilient members

What is claimed is: 1. A fastener cartridge assembly for a surgical instrument, the fastener cartridge assembly comprising: a cartridge body comprising a first longitudinal side and a second longitudinal side; a tissue thickness compensator comprising a plurality of discrete severable tubular lattices, wherein said plurality of discrete severable tubular lattices are laterally arranged intermediate said first longitudinal side and said second longitudinal side; and a fastener moveable between an initial position and a fired position, wherein said fastener is configured to engage a portion of said tissue thickness compensator when said fastener is moved between said initial position and said fired position. 2. The fastener cartridge assembly of claim 1 , wherein at least one severable tubular lattice of said plurality of discrete severable tubular lattices comprises a hydrophilic material, and wherein said hydrophilic material expands after said at least one severable tubular lattice is severed. 3. The fastener cartridge assembly of claim 1 , wherein said fastener is configured to puncture at least one severable tubular lattice of said plurality of discrete severable tubular lattices when said fastener is moved to said fired position, and wherein said fastener does not puncture a second severable tubular lattice of said plurality of discrete severable tubular lattices when said fastener is moved to said fired position. 4. The fastener cartridge assembly of claim 1 , wherein said plurality of discrete severable tubular lattices are at least partially filled with a material selected from a group comprising a haemostatic agent, an antimicrobial agent, an anti-inflammatory agent, an anticoagulant agent, and an antibiotic agent. 5. An end effector assembly for a surgical instrument, the end effector assembly comprising: said fastener cartridge assembly of claim 1 ; an anvil; and a cutting element configured to translate along a longitudinal path intermediate said first longitudinal side and said second longitudinal side of said cartridge body, wherein said cutting element is configured to sever at least one severable tubular lattice of said plurality of discrete severable tubular lattices as said cutting element translates along said longitudinal path, and wherein said cutting element does not sever a severable tubular lattice of said plurality of discrete severable tubular lattices as said cutting element translates along said longitudinal path. 6. The end effector assembly of claim 5 , wherein a firing member is configured to eject said fastener from a fastener cavity, wherein said anvil is configured to deform said ejected fastener such that a portion of said tissue thickness compensator is captured within said deformed fastener. 7. The end effector assembly of claim 5 , wherein at least one severable tubular lattice of said plurality of discrete severable tubular lattices comprises a hydrophilic material, and wherein said hydrophilic material expands after said at least one severable tubular lattice is severed. 8. The end effector assembly of claim 5 , wherein said fastener is configured to puncture at least one said severable tubular lattice of said plurality of discrete severable tubular lattices when said fastener is moved to said fired position, and wherein said fastener does not puncture a severable tubular lattice of said plurality of discrete severable tubular lattices when said fastener is moved to said fired position. 9. The end effector assembly of claim 5 , wherein said plurality of discrete severable tubular lattices are at least partially filled with a material selected from a group comprising a haemostatic agent, an antimicrobial agent, an anti-inflammatory agent, an anticoagulant agent, and an antibiotic agent. 10. A fastener cartridge assembly for a surgical instrument, the fastener cartridge assembly comprising: a cartridge body comprising a first longitudinal portion, a second longitudinal portion, and a longitudinal slot positioned between said first longitudinal portion and said second longitudinal portion; a tissue thickness compensator comprising a plurality of discrete severable tubular lattices, wherein said plurality of discrete severable tubular lattices are laterally arranged intermediate said first longitudinal portion and said second longitudinal portion; and a fastener moveable between an initial position and a fired position, wherein said fastener is configured to engage a portion of said tissue thickness compensator when said fastener is moved between said initial position and said fired position. 11. The fastener cartridge assembly of claim 10 , wherein at least one severable tubular lattice of said plurality of discrete severable tubular lattices comprises a hydrophilic material, and wherein said hydrophilic material expands after said at least one severable tubular lattice is severed. 12. The fastener cartridge assembly of claim 10 , wherein said fastener is configured to puncture at least one severable tubular lattice of said plurality of discrete severable tubular lattices when said fastener is moved to said fired position, and wherein said fastener does not puncture a severable tubular lattice of said plurality of discrete severable tubular lattices when said fastener is moved to said fired position. 13. The fastener cartridge assembly of claim 10 , wherein said plurality of discrete severable tubular lattices are at least partially filled with a material selected from a group comprising a haemostatic agent, an antimicrobial agent, an anti-inflammatory agent, an anticoagulant agent, and an antibiotic agent. 14. An end effector assembly for a surgical instrument, the end effector assembly comprising: said fastener cartridge assembly of claim 10 ; an anvil; and a cutting element configured to translate along said longitudinal slot intermediate said first longitudinal portion and said second longitudinal portion of said cartridge body, wherein said cutting element is configured to sever at least one severable tubular lattice of said plurality of discrete severable tubular lattices as said cutting element translates along said longitudinal slot, and wherein said cutting element does not sever a severable tubular lattice of said plurality of discrete severable tubular lattices as said cutting element translates along said longitudinal slot. 15. An end effector assembly for use with a surgical instrument, the end effector assembly comprising: a fastener cartridge assembly, the fastener cartridge assembly comprising: a cartridge body comprising a first longitudinal portion and a second longitudinal portion; a tissue thickness compensator comprising a plurality of discrete severable tubular lattices, wherein said plurality of discrete severable tubular lattices are laterally arranged intermediate said first longitudinal portion and said second longitudinal portion; and a fastener moveable between an initial position and a fired position, wherein said fastener is configured to engage a portion of said tissue thickness compensator when said fastener is moved between said initial position and said fired position; and an anvil. 16. The end effector assembly of claim 15 , further comprising a cutting element configured to translate along a longitudinal slot intermediate said first longitudinal portion and said second longitudinal portion of said cartridge body, wherein said cutting element is configured to sever at least one severable tubular lattice of said plurality of discrete severable tubular lattices as said cutting element translates along said longitudinal s