CN216797730U - Long-time-limit fixed intra-intestinal cavity device - Google Patents

Abstract

The utility model relates to a long-time-limit fixed intra-intestinal cavity device, which comprises an intra-cavity device, a device accessory latex sleeve and an extra-intestinal fixed hollow tube, wherein the intra-cavity device is provided with a rubber sleeve; the intracavity device is constructed by 87.5 percent of polyglycolic acid and 12.5 percent of barium sulfate, the wall thickness of the device is 0.3-0.5cm, the intracavity device has a hollow annular structure and various diameter specifications, the collection part of the head section is horn-shaped, the diameter of the inner cavity is smaller than that of the head part, the inner side surface of the intracavity device is smooth, and an anti-degradation coating is attached; the device is provided with a latex sleeve main body which is integrated with the outer surface of the intracavity device, the horn part extends outwards, the damage to intestinal mucosa is reduced, and the length of the latex sleeve at the tail side of the device has various specifications; the hollow tube material for external fixation of the intestines is composed of 93 percent of collagen, 3 percent of elastin and 4 percent of fat, is derived from tendon tissues of specific animals, is a natural raw material and is prepared by adopting a biological principle. Its advantages are: can stably fix the intestinal device in the intestinal cavity for a long time, can isolate dangerous focus and intestinal content, and has multiple medical purposes.

Description

Long time limit fixed intra-intestinal cavity device

Technical Field

The utility model relates to the technical field of medical equipment and application, in particular to a long-time-limit fixed intra-intestinal cavity device.

Background

Intestinal perforation and obstruction caused by digestive tract diseases (such as diverticulosis, foreign body compression and tumor) need to be increased year by operation patients, and temporary stoma is needed in part of the patients. Aiming at the patients with middle-low rectal cancer for surgical treatment, the anastomotic fistula, as a serious postoperative complication, not only affects the perioperative mortality, but also possibly increases the risk of local recurrence and affects the long-term survival of the patients. With the improvement of the treatment concept and the operation technology of the middle-low rectal cancer, the anus protection rate is improved, and the incidence rate of the anastomotic fistula after the operation is increased. The protective enterostomy is the best method for preventing anastomotic fistula, has definite curative effect, but also increases the occurrence of related complications, and is stricken by enterostomy complications, secondary reduction surgery and the like to patients. The theoretical basis of the protective enterostomy lies in that the diversion of intestinal contents is realized through various operation modes, namely, the near-end intestinal contents are discharged out of the body, the intestinal contents are prevented from entering a far-end intestinal canal, and an anastomotic stoma is kept in a relatively clean and low-tension state without the intestinal contents passing through, so that the occurrence of symptomatic anastomotic fistula is expected to be reduced. It is essential to isolate the dangerous lesions (anastomotic stoma, puncture repair site) from the intestinal contents to facilitate their healing! At present, the relatively wide degradation time of the degradable anastomosis ring is about two weeks after an operation, the healing time of the fistula is about four weeks, and if the anastomotic fistula occurs, the anastomotic ring is degraded and shifted before the fistula is closed, so that the complete diversion effect is lost; the anastomotic ring is fixed in a manner that the occluded part of the anastomotic ring is occluded and connected with the intestinal walls at two ends, but due to the squeezing effect of the occluded part, the local intestinal wall gradually generates ischemic necrosis and is healed again at the same time, so that the anastomotic ring gradually cuts the intestinal wall and moves into the intestinal cavity, the anastomotic ring deflects, a gap is formed between the anastomotic ring and the intestinal wall, and the complete diversion effect is lost. In the clinical practice of our people at present, the joint of the two parts of the anastomotic ring is added with the mode of using suture for binding and fixing, but due to the cutting effect of the suture, the local intestinal wall generally has the processes of necrosis and healing again around two weeks, so that the anastomotic ring deflects and shifts, and the complete diversion effect is lost. And by adopting a fixing mode of the catheter hollow catheter, the anastomosis ring is still fixed in place around the anastomosis ring, so that the hollow catheter fixing intracavity device is designed and used by using biological materials which can be used in a human body.

Chinese patent documents: CN201010567165.9, application date 2010.11.30, patent names: a biodegradable enterostomy device. The utility model discloses a biodegradable enterostomy device, which comprises a head-side anastomosis mechanism, a tail-side drainage mechanism and a feces collection mechanism, wherein the head-side anastomosis mechanism can be arranged in an intestinal cavity, the tail-side drainage mechanism is connected outside the body, the front end of the tail-side drainage mechanism is connected with the head-side anastomosis mechanism, and the rear end of the tail-side drainage mechanism is connected with the feces collection mechanism.

Chinese patent documents: CN201520464786.2, application date 2015.07.02, patent names: a flow diverter in a large intestine cavity. Discloses a flow diverter in a large intestine cavity, which comprises a spiral coil, wherein the spiral coil is in a spring coil shape formed by an elastic spiral strip, a thin film sheet is arranged on the inner side edge of the upper edge of the spiral strip, and the thin film sheet is coiled into a concentric multi-layer thin film circular tube structure along the spiral trend of the spiral strip; the lower edge of the spiral ring is connected with a thin film flow guide pipe, the upper end of the thin film flow guide pipe is in a bell mouth shape, a concentric circle-shaped multilayer thin film circular pipe structure extends into the bell mouth shape, and the lower end of the thin film flow guide pipe is connected with an external drainage or negative pressure device; the thin drainage tube is arranged in the cavity of the thin film flow guide tube, the upper end of the thin drainage tube penetrates through the side wall of the bell mouth at the upper end of the thin film flow guide tube and is arranged outside the cavity of the thin film flow guide tube, and the lower end of the thin drainage tube is connected with an external suction device.

Compared with the prior art, the biodegradable enterostomy device disclosed in the patent document CN201010567165.9 is applied to a primary protective ostomy operation, the operation effect is completely equal to that of the traditional ileum tail end or transverse colon ostomy, but the secondary operation is not needed, so that the physiological, psychological and economic burdens of a patient are reduced, and in addition, the use method of surgical instruments is simple and easy to learn and is convenient to popularize; however, the device in the patent document is found to have certain disadvantages in clinical practice: when the diversion device is placed, the intestinal canal needs to be cut, and one wound has one risk; when the degradable anastomotic ring is used for the low position colorectal, as the excrement is mostly formed, the central hole of the degradable anastomotic ring is very easy to be blocked by the formed excrement, thereby losing the function of diversion and even causing colonic obstruction; in addition, the degradable anastomosis ring is usually cracked for 2-3 weeks, degradation products are discharged out of the body along with excrement, and the mechanism of fixing the anastomosis ring in the intestinal cavity is squeezing contact anastomosis. Research shows that the fixation time of the anastomotic ring is about 10-14 days, and the intestinal continuity recovery does not depend on the degradation time of the anastomotic ring but depends on the healing time of the intestinal wall at the anastomotic ring. After the anastomotic intestinal wall is healed, the intestinal wall clamped on the anastomotic ring can be separated from the anastomotic ring, although the anastomotic ring is not degraded, the continuity of the intestinal tract can be recovered, partial intestinal contents flow to the far end from the side over the anastomotic ring, and the fixing mode can not achieve the purpose of complete diversion due to insufficient effective detention time;

and a flow diverter in the large intestine chamber in patent document CN201520464786.2, then adopt the spiral circle to constitute the spring circle form by an elasticity spiral strip spiral, the inboard side of the upper edge of spiral strip is equipped with the film piece, and the film piece moves towards to roll into concentric circles form multilayer film pipe structure along with the spiral of spiral strip, and this utility model can realize the intracavity advection of large intestine, decompression, can be used for the prevention and the treatment of the identical oral fistula of large intestine postoperative, and the treatment after the perforation takes place for the iatrogenic source nature damage of large intestine. However, the fixation of the shunt in the patent document depends on elastic expansion force, and long-term fixation also generates additional mechanical pressure on the intestinal wall, so that the focus is possibly expanded when the shunt is applied to perforation, and the shunt is difficult to take out and has narrow application spectrum.

In summary, there is a need for a fixing method that can isolate the dangerous focus from the intestinal content, can be stably fixed in the intestinal lumen for a long time without causing side damage, ensure the sufficient healing of the dangerous focus, and reduce the pain and medical burden of the patient.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a device which can be stably fixed in an intestinal cavity for a long time, can isolate dangerous focus from intestinal contents and relieve the pain and medical burden of a patient.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the long-time-limit fixed intra-intestinal cavity device comprises an intra-cavity device, an attached latex sleeve and an extra-intestinal fixed hollow tube; the intracavity device is constructed by composite material B, the wall thickness of the intracavity device is 0.3-0.5cm, the intracavity device is of a hollow annular structure and has various diameter specifications, the head section collecting part is horn-shaped, the diameter of the inner cavity is smaller than that of the head part, the inner side surface is smooth, and an anti-degradation coating is attached to the intracavity device; the latex sleeve attached to the device is made of latex materials, the wall thickness is 0.01-0.03mm, the latex sleeve is integrated with the outer surface of the device, the horn part is slightly thickened and extended outwards to reduce the damage to intestinal mucosa, and the latex sleeve on the tail side of the device has various specifications of 20cm, 30cm, 40cm and 50 cm; the external fixed hollow tube is made of composite material A, is derived from tendon tissue of special animals, and is a biological material which has the highest body strength and can be used for human bodies at present; the tension in the body is maintained for a long time, the effective supporting time can reach 8 weeks, the effective supporting time is increased along the line diameter, the absorption time is gradually prolonged and can reach more than 120 days, the absorption time is controllable, and the artificial bone is safe and nontoxic and can be used for a human body.

As a preferred technical scheme, the composite material B is constructed by 87.5 percent of polyglycolic acid and 12.5 percent of barium sulfate, the upper layer and the lower layer of the device are connected with latex sleeves, and the inner layer is attached with an anti-degradation coating, so that the degradation time limit can be delayed; the head latex sleeve and the tail latex sleeve are made of latex materials, have various specifications, can cross the focus and completely divert intestinal contents to protect dangerous focus.

As a preferred technical scheme, the composite material A consists of 93 percent of collagen, 3 percent of elastin and 4 percent of fat, is derived from tendon tissues of special animals, has high strength in a body, is safe and nontoxic and can be used for a human body; the tension in the body is maintained for a long time, so that the effective supporting time and the absorption time can be controlled, and the dangerous focus can be protected for enough time to fully heal.

The utility model has the advantages that:

1. breaking through the theoretical bottleneck of the previous protective enterostomy, a set of brand new fixed hollow tubes for stably fixing the intra-intestinal cavity device for a long time are designed; by applying the new technology, on one hand, the effective retention time of the intracavity device is prolonged, dangerous focus is protected, and side injuries such as local intestinal canal scar stenosis and the like are reduced; on the other hand, Eras (oral ingestion) can be performed earlier and more securely, which is beneficial to the recovery of patients; can replace a protective stoma to avoid the secondary operation and reduce the pain and the medical burden of a patient; the theory is based on integrated innovation in surgical theory, Eras, material science, and molecular biology.

Drawings

FIG. 1 is a schematic plan view of a long duration fixed intraluminal device of the present invention.

FIG. 2 is a schematic view of a long term fixed intraluminal device of the present invention in use.

Detailed Description

The utility model will be further described with reference to the following examples and figures.

The reference numerals and components referred to in the drawings are as follows:

1. intracavity device 2, intestinal external fixed hollow tube 3, device with latex sleeve

Example 1

Referring to fig. 1-2, fig. 1 is a schematic plan view of an intraluminal device with long duration fixation according to the present invention, and fig. 2 is a schematic use view of an intraluminal device with long duration fixation according to the present invention. A long-time-limit fixed intra-cavity device comprises an intra-cavity device 1, an extra-intestinal fixed hollow tube 2 and a latex sleeve 3 attached to the surface of the intra-cavity device 1, wherein the intra-cavity device 1 is of a hollow annular structure, a head section collecting part is horn-shaped, the wall thickness of the device is 0.3-0.5cm, the diameter of an inner cavity is slightly smaller than that of a head part, the inner side surface is smooth, the surface tension is small, and an anti-degradation coating is attached to the inner wall; the external fixed hollow tube 2 is made of a composite material A, wherein the composite material A consists of 93 percent of collagen, 3 percent of elastin and 4 percent of fat, is derived from tendon tissues of specific animals and is made by adopting a biological principle; the head and tail collecting device (the latex sleeve 3 attached to the surface) of the intracavity device 1 is made of a composite material B, the wall thickness is 0.01-0.03mm, the head and tail collecting device is integrated with the outer surface of the intracavity device 1, the horn part is thickened and extended a little to reduce the damage to intestinal mucosa, and the latex sleeve at the tail side of the device is in various specifications of 20cm, 30cm, 40cm and 50 cm.

It should be noted that: successful placement of the intestinal shunt device must address two basic issues: 1. the endoluminal device 1 ensures the passage of the intestinal contents and the effective residence time must be after the complete healing of the dangerous lesions; 2. how the device is fixed to the intestinal wall without moving: not only ensures the effective detention time, but also does not cause side damage to the intestinal wall.

The composite material B is constructed by 87.5 percent of polyglycolic acid and 12.5 percent of barium sulfate, the barium sulfate is radiopaque, and can be developed after anti-degradation treatment and postoperative reexamination, the polyglycolic acid is decomposed into fragments after a period of time (6 weeks after operation) and is discharged out of the body along with excrement, and no foreign body residue exists at the anastomotic part; the head end collecting part is horn-shaped, the diameter of an inner cavity is slightly smaller than that of the head part, the inner side surface is smooth, the surface tension is small, and the outflow of intestinal contents is facilitated; the material of the hollow tube 2 for external fixation of the intestines is composed of 93 percent of collagen, 3 percent of elastin and 4 percent of fat, is derived from tendon tissues of specific animals, is a natural forming material, is prepared by adopting a biological principle, and has the excellent characteristics of complete absorption, no scar, convenient use, good biocompatibility, no tissue rejection reaction and proper absorption time through clinical tests and scientific detections; the absorption time is closely related to the thickness of the suture, the thicker the suture is, the longer the absorption time is, and the thinner the suture is, the shorter the absorption time is; the absorption period is 8-60 days generally, and the absorption period can reach 120 days for the long, so that the effective retention time of the fixing device is reached; the latex sleeve 3 attached to the outer layer of the intracavity device 1 is made of latex materials, the wall thickness is 0.01-0.03mm, the latex sleeve and the outer surface of the intracavity device 1 are integrated into a whole, the horn part is thickened and extended a little to reduce the damage to intestinal mucosa, and the length of the latex sleeve on the tail side of the device is various specifications of 20cm, 30cm, 40cm and 50 cm; ensuring that intestinal contents are completely diverted across the anastomotic stoma;

in order to understand the purpose of the protective stoma of the device, a specific operation step of the device is described by taking an example of a laparoscopic low-level rectal cancer operation as an example:

1. the method comprises the following operation steps: before the intestinal canal is anastomosed by laparoscopic low rectal cancer radical surgery (Dixon surgery), an intestinal device matched with the diameter of the intestinal canal is selected, an extra-intestinal fixed hollow tube with the size of the circumference of the intestinal device is intercepted, and a No. 7 silk thread is threaded through the hollow tube for later use; from the position 5-7cm away from the anastomotic stoma of the proximal intestinal canal, lubricating oil is put into the intestine to smear the intestinal shunt device 1, the intestine is fixedly ligated by the prepared hollow tube 2 at the groove of the shunt device, the intestinal canal anastomosis is completed, the attached latex sleeve 3 is dragged out to cross the anastomotic stoma to the outside of the anus, and the protective stoma of the degradable shunt device is completed.

2.2. Postoperative abdominal plain examination was performed weekly to dynamically observe device fixation, anal care.

The innovation points and advantages of the utility model are as follows:

(1) breaking through the theoretical bottleneck of the previous protective enterostomy, a set of brand new fixed hollow tubes for stably fixing the intra-intestinal cavity device for a long time are designed; by applying the new technology, on one hand, the effective retention time of the intracavity device is prolonged, dangerous focus is protected, and side injuries such as local intestinal canal scar stenosis and the like are reduced; on the other hand, Eras (oral ingestion) can be performed earlier and more securely, which is beneficial to the recovery of patients; can replace a protective stoma to avoid the secondary operation and reduce the pain and the medical burden of a patient; the theory is based on integrated innovation in surgical theory, Eras, material science, and molecular biology.

(2) A series of diversion devices fixed in the intestinal cavity for a long time are developed: the disposable intestinal canal fixing device is composed of three parts, namely a degradable intracavity diversion device, an outer layer diversion latex sleeve and an absorbable intestinal canal fixing hollow sleeve, and is the original invention;

(3) provides a device which can be stably fixed in an intestinal cavity for a long time, can isolate dangerous focus from intestinal contents, and can relieve the pain and medical burden of a patient.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and additions can be made without departing from the principle of the present invention, and these modifications and additions should also be regarded as the protection scope of the present invention.

Claims (2)

1. The long-time-limit fixed intra-intestinal cavity device is characterized by comprising an intra-cavity device, a device attached latex sleeve and an extra-intestinal fixed hollow tube; the intracavity device is constructed by composite material B, the wall thickness of the intracavity device is 0.3-0.5cm, the intracavity device is of a hollow annular structure and has various diameter specifications, the head section collecting part is horn-shaped, the diameter of the inner cavity is smaller than that of the head part, the inner side surface is smooth, and an anti-degradation coating is attached to the intracavity device; the device is provided with a latex sleeve which is made of latex material, the wall thickness is 0.01-0.03mm, the main body and the outer surface of the intracavity device are integrated, the horn part thickens and extends outwards, and the latex sleeve at the tail side of the intracavity device is also lengthened; the hollow tube for external fixation of the intestines is made of a composite material A, is derived from tendon tissues of specific animals, is a natural raw material and is made by adopting a biological principle.

2. The long term fixed intraluminal device of claim 1, wherein the intraluminal device caudal condom has a length of more than 20cm, 30cm, 40cm or 50 cm.

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