Apparatus and methods for sealing a vascular puncture

We claim: 1. A sealant for sealing a puncture through tissue, comprising: an elongate first section including a proximal end, a distal end, and a cross-section sized for delivery into a puncture through tissue, wherein the first section is formed from a freeze-dried hydrogel that expands when exposed to physiological fluid within the puncture; and a second section extending from the distal end of the first section, the second section comprising PEG-precursors comprising PEG-ester and PEG-amine precursors in a ratio of active group sites of PEG-ester/PEG-amine of greater than one-to-one (1:1), at least some of the precursors remaining in an unreactive state until exposed to an aqueous physiological environment, whereupon the precursors undergo in-situ cross-linking with one another to provide adhesion to tissue adjacent the puncture. 2. The sealant of claim 1 , wherein the ratio of active group sites of PEG-ester/PEG-amine is between about 65/35 and 55/45. 3. The sealant of claim 1 , wherein the ratio of active group sites of PEG-ester/PEG-amine is about 60/40. 4. The sealant of claim 1 , wherein the PEG-amine precursors of the second section comprise both a free amine form of PEG-amine precursors and a salt form of PEG-amine precursors. 5. The sealant of claim 4 , wherein a ratio of active group sites of PEG-ester precursors/salt form of PEG-amine precursors/free amine form of PEG-amine precursors is between about 50/42/8 and 50/48/2. 6. The sealant of claim 4 , wherein a ratio of active group sites of PEG-ester precursors/salt form of PEG-amine precursors/free amine form of PEG-amine precursors is between about 60/32/8 and 60/38/2. 7. The sealant of claim 4 , wherein a ratio of active group sites of PEG-ester precursors/salt form of PEG-amine precursors/free amine form of PEG-amine precursors is between about 50/45/5 and 70/25/5. 8. The sealant of claim 4 , wherein a ratio of active group sites of PEG-ester precursors/salt form of PEG-amine precursors/free amine form of PEG-amine precursors is about 60/35/5. 9. The sealant of claim 4 , wherein the free amine form of PEG-amine precursors are at least partially cross-linked with the PEG-ester precursors, and the salt form of PEG-amine precursors remain in the unreactive state until exposed to an aqueous physiological environment, whereupon the salt form of PEG-amine precursors undergo in-situ cross-linking with the PEG-ester precursors to provide adhesion to tissue adjacent the puncture. 10. The sealant of claim 1 , wherein the precursors of the second section permeate into the distal end of the first section to create a transition zone between the first and second sections. 11. The sealant of claim 1 , wherein the second section comprises a solid mass of non-cross-linked precursors. 12. The sealant of claim 11 , wherein the solid mass comprises a substantially uniform solid plug of the non-cross-linked precursors. 13. The sealant of claim 1 , wherein the first section comprises a sheet rolled into a tubular shape, thereby defining a lumen extending between the proximal and distal ends, and wherein the second section comprises a passage there through aligned with the lumen. 14. The sealant of claim 1 , wherein the first section has a length between the proximal and distal ends between about one and twenty millimeters (1-20 mm), and the second section has a length extending from the distal end that is substantially shorter than the length of the first section. 15. The sealant of claim 1 , wherein the first and second sections have a substantially uniform outer cross-section along their lengths between about one and eight millimeters (1-8 mm). 16. A sealant for sealing a puncture through tissue, comprising: an elongate first section including a proximal end, a distal end, and a cross-section sized for delivery into a puncture through tissue, the first section formed from a freeze-dried hydrogel that expands when exposed to physiological fluid within a puncture; and a second section extending from the distal end of the first section, the second section comprising PEG-precursors comprising PEG-ester and PEG-amine precursors in a ratio of active group sites of PEG-ester/PEG-amine of greater than one-to-one (1:1), the PEG-amine precursors including both a free amine form of PEG-amine precursors that are at least partially cross-linked with the PEG-ester precursors and a salt form of PEG-amine precursors that remain in an unreactive state until exposed to an aqueous physiological environment, whereupon the salt form of PEG-amine precursors undergo in-situ cross-linking with the PEG-ester precursors to provide adhesion to tissue adjacent the puncture. 17. A method for making a sealant for sealing a puncture through tissue, comprising: forming an elongate first section including a proximal end, a distal end, and a cross-section sized for delivery into a puncture through tissue, wherein the first section is formed from a freeze-dried hydrogel that expands when exposed to physiological fluid within a puncture; melting PEG-amine and PEG-ester powders into a liquid mixture comprising non-cross-linked PEG precursors, wherein a ratio of active group sites of the PEG-ester precursors to the PEG-amine precursors is greater than one-to-one (1:1); and fusing a solid mass of the mixed PEG precursors onto the distal end, at least some of the PEG precursors remaining in an unreactive state until exposed to an aqueous physiological, whereupon the precursors undergo in-situ cross-linking with one another to provide an adhesive layer bonded to the first section. 18. An apparatus for sealing a puncture extending through tissue, comprising: a tubular member comprising a proximal end, a distal end sized for insertion into a puncture, a lumen extending between the proximal and distal ends, and a distal opening in communication with the lumen; and a sealant comprising an elongate first section including proximal and distal ends, wherein the first section is formed from a freeze-dried hydrogel that expands when exposed to physiological fluid within a puncture, and a second section fused to and extending from the distal end, the sealant disposed within the lumen such that the second section is disposed closer to the distal opening than the first section, the second section comprising PEG-precursors comprising PEG-ester and PEG-amine precursors in a ratio of active group sites of PEG-ester/PEG-amine of greater than one-to-one (1:1), at least some of the precursors remaining in an unreactive state until exposed to an aqueous physiological environment, whereupon the precursors undergo in-situ cross-linking with one another to provide adhesion to tissue adjacent the puncture. 19. A method for sealing a puncture extending through tissue of a patient, comprising: providing a sealant comprising a first section including proximal and distal ends, wherein the first section is formed from a freeze-dried hydrogel that expands when exposed to physiological fluid within a puncture, and a second section extending from the distal end, the second section comprising PEG-precursors comprising PEG-ester and PEG-amine precursors in a ratio of active group sites of PEG-ester/PEG-amine of greater than one-to-one (1:1), at least some of the PEG precursors in an unreactive state; introducing the sealant into a puncture through tissue with the second section entering the puncture before the first section; and exposing the sealant to fluid within the puncture, whereupon the at least some of the PEG precursors of the second section undergo in-situ cros