Abstract: A PTMC-based intestinal anastomosis stent of a bioabsorbable flexible elastomer and a preparation method therefor. The intestinal anastomosis stent that uses PTMC as a base material is prepared by using an electrospinning method, and an appropriate range suitable for being implanted into the body is screened out according to a degradation rate and a mechanical property. The stent is loaded with TCS having a bactericidal effect, so that the stent has a tissue repair adjustment function, enabling a wound to heal more quickly in a severe multi-bacterial intestinal environment, and for adjusting postoperative tissue healing and functional repair. An in-vivo animal intestinal anastomosis experiment is carried out, thus verifying the practical effects and the feasibility of the method.

Abstract: A flexible intestinal anastomosis stent which sucks secretions on an inner wall of an intestinal tract and at a suture site into a horn-shaped channel through a through-hole. The secretion is discharged to an inside of the stent body through a liquid-inlet hole after being squeezed by intestinal tract contents, thereby reducing a risk of infection at the suture site. A lower edge of the outlet end of the stent body has a concave polygonal structure, each reflex angle at a lower edge of the concave polygonal structure being formed with one inwardly folded wrinkle structure on a side wall of the stent body, and the wrinkle structure also able to accommodate the secretions. The lower edge is stressed and deformed by the intestinal tract contents to reduce a reflex angle, so that secretions in the wrinkle structure are discharged downwardly, such that risk of complications is reduced.

Abstract: A bioflexible elastomer intestinal anastomosis stent based on a PTMC-b-PEG-b-PTMC copolymer, and a preparation method. Biocompatible degradable polymer medical materials, i.e., PTMC and PEG, are selected, an electrostatic spinning method is used for preparation, the size of an anastomosis tube can be adjusted according to the size of a human lumen, and the anastomosis tube is designed to not only be suitable for an anastomat of the small intestines and large intestines, but also suitable for an anastomotic and pre-supported lumen anastomat of an esophagus, artery, vein, etc. The anastomosis tube prepared has a thin wall and excellent elasticity, and in order to facilitate suturing by a doctor during a clinical surgical operation, the anastomosis tube is innovatively and seamlessly sleeved outside a plant cellulose tube having high hardness.

Abstract: A flexible intestinal anastomosis stent which sucks secretions on an inner wall of an intestinal tract and at a suture site into a horn-shaped channel through a through-hole. The secretion is discharged to an inside of the stent body through a liquid-inlet hole after being squeezed by intestinal tract contents, thereby reducing a risk of infection at the suture site. A lower edge of the outlet end of the stent body has a concave polygonal structure, each reflex angle at a lower edge of the concave polygonal structure being formed with one inwardly folded wrinkle structure on a side wall of the stent body, and the wrinkle structure also able to accommodate the secretions. The lower edge is stressed and deformed by the intestinal tract contents to reduce a reflex angle, so that secretions in the wrinkle structure are discharged downwardly, such that risk of complications is reduced.