Disclosed is a device (100) for treatment of anal fistula. The device comprises a hollow wire (110) comprising a first end (112) and a second end (114) opposite to the first end, the hollow wire is operable to be received by a fistula track with both first and second ends projecting out of the fistula track. The device also comprises an insert (120) operable to be partially inserted into the first end of the hollow wire and to project out of the first end. The device further comprises an applicator (130) operable to be removably arranged on the second end of the hollow wire when the hollow wire is placed in the fistula track. The applicator is operable to be held for enabling the projected out insert to be inserted into second end for detachably coupling the first and second ends to form a closed loop around the fistula track.

Devices for approximating multiple tissue edges internal to a body are disclosed.

The present disclosure provides a device and methods for acquiring tissue within a lumen or for closure of bodily openings.

Devices for approximating multiple tissue edges internal to a body are disclosed.

A biodegradable scaffold for wound closure including a central rod and two spaced-apart plates. The central rod may have an engagement block on top for stabilizing an implanting tool. The two spaced-apart plates include an upper plate connected to the central rod and a lower plate connected to the central rod. Each of the upper and lower plates may include perforations which may be useful for detachably connecting an implanting tool and which encourage ingrowth of the tissue. The biodegradable scaffold allows tension free anatomic alignment of tissue within the plates and facilitates wound healing. The upper and lower plate may have a helical portion, in which each plate may extend around the central rod. The helical portion serves to draw or pull tissue around the wound defect into the scaffold in the course of deploying the scaffold.

Collapsible tube embodiments may be used to promote hemostasis at surgical sites or any other suitable location. In some cases, vascular closure device embodiments may include collapsible tube embodiments in order to promote hemostasis at a surgical site during a vascular closure procedure.

A fistula treatment system comprises a guide such as a guide coil 1101 which is adapted to extend partially around a tissue tract and an implant element 1102. The implant element 1102 is activated to draw tissue surrounding the tract inwardly.

Apparatus and associated methods relate to closure of a stoma with a structure continuously formed in vivo. In an illustrative example, a stoma closure tool (SCT) may include a drive module, a phase transition inducement module (PTIM), and a conduit that defines a lumen. A distal end of the conduit may, for example, be inserted through a first tissue and into a second tissue that together at least partially define a stoma. A flow rate of a fluid biomaterial through the lumen and discharged at the distal end of the conduit may, for example, be controlled by the drive module. A fluid to solid phase transition in the biomaterial may, for example, be controllably induced by the PTIM. Various embodiments may, for example, advantageously form a continuous structure extending directly across the stoma between a proximal anchor in the first tissue and a distal anchor in the second tissue.

A device for inserting a medical apparatus into a living body includes a handle and an elongated sheath extending from the handle to a distal end configured for insertion to a target location in the living body in combination with a clasp positioned within a distal portion of the elongated sheath and configured to temporarily attach to an endoscopic device and a spring retention mechanism movable from a first resting configuration maintaining a first closed position of the clasp to a second compressed configuration moving the clasp to an open position. A withdrawal mechanism is movable from a first resting configuration in which the distal end of the elongated sheath extends distally over a distal end of the endoscopic device to a second retracted configuration in which the distal end of the elongated sheath is moved proximally of the distal end of the endoscopic device.

Devices for approximating multiple tissue edges internal to a body are disclosed.