A medical device includes a sheath having a proximal end and a distal end, the sheath having an opening at both the proximal end and the distal end, and a removable dilator having a distal end and a proximal end, the dilator having at least one blood detector disposed on a tapered portion of the distal end of the dilator, the dilator positionable within the sheath such that the tapered portion of the distal end of the dilator extends through the opening in the distal end of the sheath, the proximal end of the dilator extends through the opening in the proximal end of the sheath, and at least a portion of the at least one blood detector is adjacent to the distal end of the sheath.

Medical devices for delivering a plug to a void within a patient. The medical device can include a fluid delivery device and a plug holder (e.g., a plug delivery device) coupled to a distal end of the fluid delivery device. The medical device may be configured such that the delivery of fluid from the fluid delivery device wets the plug, ejects the plug from the plug holder, and pushes the plug through a lumen of an elongate tube to a void within a patient.

Medical devices for delivering compositions or medical articles to a patient are disclosed. The medical plug delivery devices can include a fluid delivery device (e.g., a syringe), a frame, and a rotatable magazine. The rotatable magazine can include a plurality of chambers that each hold a composition or a medical article (e.g., a medical plug). By rotating the rotatable magazine relative to the frame, material within the chambers of the rotatable magazine can be sequentially deployed to a patient.

Methods and apparatus are disclosed for sealing a puncture or incision formed percutaneously in tissue separating two internal portions of the body of a living being with an anchor, a sealing plug and a filament connecting the anchor and sealing plug. The methods and apparatus provide for a compaction device or a tamping device that improves control of the amount of force exerted upon the sealing plug. Further, the compaction tube or tamping device can deform upon application of excessive compaction force, thereby reducing the possibility of damage to the sealing plug, anchor, or artery.

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.

A vessel locator apparatus (30) having a locator housing, and an elongated cavity defined in the locator housing, is described. The vessel locator apparatus include a superelastic wire (46) positioned at least partially in the elongated cavity, the superelastic having a proximal end and a distal end. The superelastic wire may have an elongated portion extending in a substantially longitudinal direction and a distal locator portion having an original shape configuration. The original shape configuration of distal locator portion may include a first curved segment, a second curved segment, an intermediate segment extending between the first curved segment and the second curved segment, and an end segment extending between the second curved segment and the distal end of the superelastic wire. A method of locating a vessel, such as a blood vessel, using a vessel locator apparatus is also described.

A method and apparatus for sealing a puncture or incision formed percutaneously in a tissue. The apparatus includes an anchor, a sealing plug, a suture, a compaction member assembly, a spool assembly, and a release member. The suture is positioned between the sealing plug and the anchor. The compaction member assembly is structured and arranged to apply an compressive force to compact the sealing plug toward the anchor. The spool assembly includes a plurality of post members, and the suture is wound about the post members to define a suture cam path. Unspooling the suture along the suture cam path provides driving of the compaction member assembly. The release member is operable to move the post members to release the suture member from the spool assembly.

An apparatus for sealing a puncture through a vessel wall including a positioning assembly, a sheath releasably engaged with the positioning assembly, and a support member axially advanceable through the sheath. The positioning assembly includes a positioning element positioned at a distal portion of the positioning assembly and a sealant disposed at a distal portion of the positioning assembly. The sheath guides the sealant and positioning assembly to the puncture in the vessel wall.

A device for sealing an aperture in a tissue includes: a foot including a distal portion configured to be disposed distal to the tissue when the device is implanted in a position to seal the aperture; and a flexible wing positionable against a distal surface of the tissue adjacent the aperture such that the flexible wing is disposed between the distal portion of the foot and the distal surface adjacent the aperture.

An apparatus for sealing a puncture through a vessel wall including a positioning assembly, a sheath releasably engaged with the positioning assembly, and a support member axially advanceable through the sheath. The positioning assembly includes a positioning element positioned at a distal portion of the positioning assembly and a sealant disposed at a distal portion of the positioning assembly. The sheath guides the sealant and positioning assembly to the puncture in the vessel wall.