A hemostatic system includes a first tube defining a first lumen configured to channel a fluid therethrough, a second tube housing at least a portion of the first tube and at least partially defining a second lumen configured to channel a hemocoagulant agent therethrough, a hopper coupled to the sec
A hemostatic system includes a first tube defining a first lumen configured to channel a fluid therethrough, a second tube housing at least a portion of the first tube and at least partially defining a second lumen configured to channel a hemocoagulant agent therethrough, a hopper coupled to the second tube, and an injection device. The hopper defines a cavity in fluid communication with the second lumen and is configured to retain the hemocoagulant agent therein. The injection device is selectively positionable within the second lumen and/or the cavity to facilitate channeling the hemocoagulant agent from the cavity through the second lumen.
대표청구항▼
1. A method for sealing a puncture of a vessel using a hemostatic system that includes (i) a first tube including a first sidewall and a first side opening extending through the first sidewall, the first sidewall defining a first lumen, (ii) a second tube housing at least a portion of the first tube
1. A method for sealing a puncture of a vessel using a hemostatic system that includes (i) a first tube including a first sidewall and a first side opening extending through the first sidewall, the first sidewall defining a first lumen, (ii) a second tube housing at least a portion of the first tube and at least partially defining a second lumen, the second tube including a second opening in fluid communication with the second lumen, (iii) a hopper coupled to the second tube and defining a cavity in fluid communication with the second lumen, (iv) an injection device, and (v) a plug that at least partially circumscribes the first tube, said method comprising: retaining a hemocoagulant agent in the cavity defined by the hopper;advancing the first tube into the vessel until a fluid is channeled into the first side opening and through the first lumen defined by the first tube, wherein the plug is spaced proximally from the first side opening such that the plug is substantially adjacent the vessel when the first side opening is positioned within a lumen of the vessel, and wherein the second opening is spaced proximally from the first side opening such that the second opening is outside the vessel when the fluid is channeled into the first side opening; andselectively positioning the injection device within at least one of the cavity and the second lumen such that a hemocoagulant agent is channeled from the cavity through the second lumen and out the second opening. 2. A method in accordance with claim 1 further comprising loading the hemocoagulant into the cavity through an opening extending through a sidewall of the hopper. 3. A method in accordance with claim 1, wherein the step of advancing the first tube further comprises: advancing a guidewire towards the vessel;advancing the first tube along the guidewire towards the vessel until an opening extending through a sidewall of the first tube is positioned within the vessel such that the fluid is channeled through the opening; andmoving a valve to selectively restrict the fluid from being channeled through the first lumen. 4. A method in accordance with claim 1, wherein selectively positioning an injection device further comprises rotating the injection device within the second lumen to facilitate channeling the hemocoagulant agent from the cavity through the second lumen. 5. A method in accordance with claim 1, wherein the step of selectively positioning the injection device further comprises translating the injection device within at least one of the second lumen and the cavity to facilitate channeling the hemocoagulant agent from the cavity through the second lumen. 6. A method in accordance with claim 1 further comprising: separating at least some of the hemocoagulant agent using a separating mechanism within the second lumen; anddischarging the hemocoaaulant agent through a plurality of side openings that extend through a sidewall of the second tube. 7. A method in accordance with claim 1, wherein the step of advancing the first tube further comprises: advancing a third tube into the vessel until a fluid is channeled through a third lumen at least partially defined by the third tube; andwithdrawing the third tube until the fluid is not channeled through the third lumen. 8. A hemostatic system for sealing a puncture of a vessel, said hemostatic system comprising: a first tube comprising a first sidewall and a first side opening extending through said first sidewall, said first sidewall defining a first lumen configured to channel a fluid therethrough, said first side opening in flow communication with said first lumen;a second tube housing at least a portion of said first tube and at least partially defining a second lumen configured to channel a hemocoagulant agent therethrough, said second tube comprising a second opening in fluid communication with said second lumen, said second opening is spaced proximally from said first side opening such that said second opening is positionable outside and substantially adjacent the vessel when said first side opening is positioned within a lumen of the vessel;a hopper coupled to said second tube, said hopper defining a cavity in fluid communication with said second lumen and configured to retain the hemocoagulant agent therein;an injection device selectively positionable within at least one of said second lumen and said cavity to facilitate channeling the hemocoagulant agent from said cavity through said second lumen and out said second opening; anda plug that at least partially circumscribes said first tube, said plug is spaced proximally from said first side opening such that said plug is positionable substantially adjacent the vessel when said first side opening is positioned within a lumen of the vessel. 9. A hemostatic system in accordance with claim 8, wherein said first tube further comprises a distal opening at a distal end of said first lumen and a proximal opening at a proximal end of said first lumen, said first sidewall extends from said distal end to said proximal end. 10. A hemostatic system in accordance with claim 9 further comprising a valve proximate to said proximal opening, said valve selectively movable between an open configuration and a closed configuration. 11. A hemostatic system in accordance with claim 8, wherein said second opening comprises a plurality of second openings, said system further comprising a separating mechanism proximate to the plurality of side openings. 12. A hemostatic system in accordance with claim 8, wherein said hopper includes a sidewall and a hopper side opening extending through said sidewall, said hopper side opening in communication with said second lumen. 13. A hemostatic system in accordance with claim 8, wherein said injection device comprises: an auger extending through said second lumen; anda wheel coupled to said auger to facilitate rotating said auger within said second lumen. 14. A hemostatic system in accordance with claim 8, wherein said injection device comprises: a plunger positionable within at least one of said second lumen and said cavity; anda handle coupled to said plunger to facilitate translating said plunger within at least one of said second lumen and said cavity. 15. A hemostatic system in accordance with claim 8, further comprising a third tube positioned radially between said first tube and said second tube, said third tube at least partially defining a third lumen configured to channel the fluid therethrough, said third lumen is in fluid communication with a third opening extending through said plug, said third opening is positioned between said first side opening and said second opening.
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