Tissue thickness compensator comprising tissue ingrowth features
First Claim
1. A compensator attachable to an anvil of a fastening instrument, wherein the anvil includes a forming surface and a longitudinal slot configured to receive a cutting member, wherein the cutting member is configured to travel between a proximal end and a distal end of the anvil, wherein the forming surface is configured to deform a plurality of fasteners to fasten tissue, and wherein said compensator comprises:
- a support layer configured to be attached to the anvil;
a scaffold attached to said support layer, said scaffold comprising;
a plurality of collapsible scaffold layers comprised of a biocompatible material, said collapsible scaffold layers comprising;
a first layer comprising a first pattern of fibers oriented in a direction at least substantially parallel to said longitudinal slot and extending between the proximal end and the distal end of the anvil; and
a second layer comprising a second pattern of fibers interwoven with said first layer; and
a plurality of cavities, wherein said support layer, said scaffold layers, and said cavities define a matrix favorable to tissue and cellular ingrowth, and wherein said collapsible scaffold layers are configured to adapt to the thickness of tissue captured within the fasteners.
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Accused Products
Abstract
In various embodiments, a compensator can be attachable to an anvil of a fastening instrument. The compensator can comprise a support layer configured to be attached to the anvil and a scaffold attached to the support layer. In at least one embodiment, the scaffold can comprise a plurality of scaffold layers comprised of a biocompatible material and a plurality of cavities, wherein the layers and the cavities can define a matrix favorable to tissue and cellular ingrowth.
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Citations
15 Claims
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1. A compensator attachable to an anvil of a fastening instrument, wherein the anvil includes a forming surface and a longitudinal slot configured to receive a cutting member, wherein the cutting member is configured to travel between a proximal end and a distal end of the anvil, wherein the forming surface is configured to deform a plurality of fasteners to fasten tissue, and wherein said compensator comprises:
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a support layer configured to be attached to the anvil; a scaffold attached to said support layer, said scaffold comprising; a plurality of collapsible scaffold layers comprised of a biocompatible material, said collapsible scaffold layers comprising; a first layer comprising a first pattern of fibers oriented in a direction at least substantially parallel to said longitudinal slot and extending between the proximal end and the distal end of the anvil; and a second layer comprising a second pattern of fibers interwoven with said first layer; and a plurality of cavities, wherein said support layer, said scaffold layers, and said cavities define a matrix favorable to tissue and cellular ingrowth, and wherein said collapsible scaffold layers are configured to adapt to the thickness of tissue captured within the fasteners. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A compensator attachable to an anvil of a fastening instrument, wherein the anvil includes a forming surface configured to deform a plurality of fasteners to fasten tissue, and wherein said compensator comprises:
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an attachment layer configured to be attached to the anvil; a structural matrix attached to said attachment layer, said structural matrix comprising; a plurality of collapsible matrix layers comprised of biocompatible material, said collapsible matrix layers comprising; a first layer comprising a first material; and a second layer comprising a second material different than said first material; and a plurality of wells, wherein said matrix layers and said wells define a structural support favorable to tissue and cellular ingrowth, wherein said first material and said second material are configured to induce a biologic response such that tissue is encouraged toward said wells upon the interaction of said first material and said second material, and wherein said collapsible matrix layers are configured to adapt to the thickness of tissue captured within the fasteners. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A stapling assembly for use with a fastening instrument and is configured to deform a plurality of fasteners to fasten tissue, said stapling assembly comprising:
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an anvil comprising a forming surface and a longitudinal slot configured to receive a cutting member; a compensator comprising; a support layer attached to said anvil; a scaffold attached to said support layer, said scaffold comprising; a plurality of collapsible scaffold layers comprised of a biocompatible material, said collapsible scaffold layers comprising; a first layer comprising a first medicament and a first array of fibers, wherein said first array of fibers is oriented at least substantially parallel to said longitudinal slot; and a second layer comprising a second medicament and a second array of fibers; a medicament embedded in said scaffold layers; and a plurality of cavities, wherein said scaffold layers and said cavities define a matrix favorable to tissue and cellular ingrowth, wherein said first medicament and said second medicament are configured to interact with each other generating a biological reaction to encourage cellular migration into said cavities, and wherein said collapsible scaffold layers are configured to adapt to the thickness of tissue captured within the fasteners.
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Specification