CN113456918A - Method for irrigating intestinal tract through intestinal tract stoma - Google Patents

Abstract

The invention belongs to the technical field of intestinal lavage equipment, in particular to a method for lavaging intestinal tracts through an intestinal stoma, which comprises the following steps of 1, preparing a lavage device, wherein the lavage device comprises a water injection pipe, the insertion section of the water injection pipe is provided with a water outlet, the front side of the water outlet is provided with at least two flexible bags, and each flexible bag is independently connected with a pump structure; step 2, operating the pump structure to enable the flexible bag to be in a contraction state, and then inserting the insertion section of the water injection pipe into the intestinal tract; step 3, controlling a water injection pipe to inject water, and simultaneously and continuously operating a pump structure in sequence to enable all the flexible bags to sequentially and continuously expand and contract, so that intestinal tract sections in contact with all the flexible bags form peristaltic fluctuation; and 4, after the intestinal tract segment irrigation in the step 3 is finished, the water injection pipe is pushed for a certain distance along the intestinal tract, and then the operation in the step 3 is repeated. This scheme has been solved among the prior art for a long time spaciously put the problem that the intestinal of useless usefulness can't carry out abundant lavage.

Description

Method for irrigating intestinal tract through intestinal tract stoma

Technical Field

The invention belongs to the technical field of intestinal tract lavage methods, and particularly relates to a method for lavaging intestinal tracts through an intestinal tract stoma.

Background

In colorectal surgery, a stoma is made in the small intestine to discharge stool in order to facilitate postoperative recovery of the colorectal. After the colorectal recovery (generally, half to one year after the operation), the stoma reduction operation is needed, and the continuity of the intestinal tract is recovered, so that the normal defecation through the anus is realized. Before performing stoma reduction, it is important to perform a stoma enema to prepare the intestine sufficiently. The existing clysis operation method mainly comprises the steps of directly inserting a water injection pipe into an intestinal tract from a stoma, then carrying out water injection and lavage, and slowly pushing the water injection pipe into the intestinal tract when carrying out the water injection and lavage until the lavage is finished, and taking out the water injection pipe. Because the long-term spacious useless usefulness of putting of the intestinal of stoma distal end, the intestinal intracavity is narrow because of having a large amount of mucus adhesion, and the resistance is big when the water injection pipe of lavage usefulness impels in the intestinal, can't thoroughly insert sometimes even to can't guarantee abundant lavage intestinal. Moreover, intestinal obstruction and anastomotic fistula frequently occur in the intestinal tract after the stoma reduction operation is performed, and the normal life of the patient is affected.

Disclosure of Invention

The invention aims to provide a method for irrigating an intestinal tract through an intestinal stoma, which aims to solve the problem that the intestinal tract which is used for a long time in the prior art cannot be sufficiently irrigated.

In order to achieve the above object, a basic aspect of the present invention provides a method of irrigating an intestine through an enterostomy, comprising the steps of,

step 1, preparing an irrigating device, wherein the irrigating device comprises a water injection pipe, a water outlet is formed in an insertion section of the water injection pipe, at least two flexible bags are arranged on the insertion section and positioned on the front side of the water outlet, and each flexible bag is independently connected with a pump structure;

step 2, operating the pump structure to enable the flexible bag to be in a contraction state, and then inserting the insertion section of the water injection pipe into the intestinal tract until the water outlet completely enters the intestinal tract;

step 3, controlling a water injection pipe to inject water, and simultaneously and continuously operating a pump structure in sequence to enable all the flexible bags to sequentially and continuously expand and contract, so that intestinal tract sections in contact with all the flexible bags form peristaltic fluctuation;

step 4, after the intestinal tract segment irrigation in the step 3 is finished, controlling a pump structure to enable all the flexible bags to be in a contraction state, then pushing the water injection pipe for a distance along the intestinal tract, and then repeating the operation in the step 3;

and 5, stopping water injection of the water injection pipe after the intestinal tract part needing lavage is lavaged, controlling the pump structure to enable all the flexible bags to be in a contraction state, and then removing the water injection pipe out of the intestinal tract from the stoma.

The principle and the beneficial effect of the basic scheme are as follows: the front side of the water outlet refers to the side of the water injection pipe which enters the intestinal tract before the water outlet in the process of inserting the water injection pipe into the intestinal tract. The intestinal tract forms peristaltic fluctuation through the step 3, the space of the intestinal cavity of the intestinal tract section which is contacted with the flexible bag is increased when the intestinal tract is in peristaltic fluctuation, so that the intestinal tract can be irrigated sufficiently by water injected by the water injection pipe, and meanwhile, the water injection pipe can be propelled in the intestinal tract after the space of the intestinal cavity is increased, so that the irrigating quality of the intestinal tract is improved; through the operation of step 3 and step 4, make the intestinal form the peristaltic fluctuation by the lavage in time, be favorable to taking exercise the peristaltic function of the intestinal of long-term spacious useless usefulness to be favorable to reducing the circumstances of ileus, anastomotic fistula when the intestinal resumes normal use and take place, be favorable to patient to resume normal life fast.

Further, in the step 1, four flexible bags are arranged, four pump structures are also arranged, and the four pump structures are arranged side by side; in the step 3, four pump structures arranged side by side are operated by four fingers except the thumb of a single hand. By adopting the arrangement mode, the medical staff can control the expansion and contraction of the four flexible bags by one hand, thereby facilitating the use and operation and being beneficial to improving the lavage efficiency.

Further, in the step 1, a check piece in an elastic sac-shaped structure is fixedly arranged on the rear side of the water outlet, and an operation piece for controlling the expansion and contraction of the check piece is connected to the check piece; in the step 2, the check piece is in a contraction state and is inserted into the intestinal tract along with the water injection pipe; in the step 3, before the water injection pipe injects water, the operating piece is controlled to enable the check piece to be in an expansion state; in the step 4, the operating piece is controlled to enable the check piece to be in a contraction state between the water injection pipe is pushed in the intestinal tract. By adopting the arrangement mode, the non-return piece can form a blocking effect when water entering the intestinal canal flows along the opposite direction of the insertion direction of the water injection pipe in the expansion state, thereby avoiding the phenomenon that the water in the intestinal canal overflows the human body to pollute clothes of patients and medical staff.

Drawings

FIG. 1 is a schematic view of an embodiment of an irrigation device for use in a method of irrigating an intestinal tract through an enterostomy according to the present invention;

fig. 2 is a schematic cross-sectional view of the sleeve, water injection tube and catheter of the irrigation device.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the water injection device comprises a water injection pipe 1, an operating part 2, a pump cavity 21 of the operating part, a buckle 3, a pump structure 4, a pump cavity 41, a sleeve 5, a check part 6, a water outlet 7, a flexible bag 8 and a guide pipe 9.

Example (b): a method of irrigating an intestine through an enterostomy, comprising the steps of:

step 1, preparing an irrigation device, as shown in fig. 1 and fig. 2, the irrigation device comprises a water injection pipe 1, a water inlet is arranged at one end of the water injection pipe 1, a section of the water injection pipe 1, which is far away from the water inlet, is an insertion section, and a water outlet 7 is arranged on the insertion section. The front side of delivery port 7 is provided with four flexible bags 8, and four flexible bags 8 set up side by side along the length direction of water injection pipe 1, and flexible bag 8 is made for silica gel and fixes on water injection pipe 1. The rear side of the water outlet 7 is provided with a check part 6, in the embodiment, the check part 6 is preferably an elastic sac-shaped structure made of silica gel, the check part 6 is fixedly bonded on the water injection pipe 1, and for convenience of manufacture, the structure of the check part 6 is the same as that of the flexible sac 8. The position, far away from the insertion section, of the water injection pipe 1 is provided with four pump structures 4 which are connected with the flexible bags 8 in a one-to-one correspondence manner, in the embodiment, each pump structure 4 comprises a pump body, a pump cavity 41 is arranged inside the pump body, a piston is connected in the pump cavity 41 in a sealing and sliding manner, a piston rod penetrating out of the pump body is connected onto the piston, and a spring is connected between one end, far away from the pump body, of the piston rod and the pump body; all pump structures 4 are arranged side by side and adjacent pump bodies are fixedly connected to each other. The pump cavity 41 of each pump structure 4 is communicated with the corresponding flexible bag 8 through the conduit 9, so that the pump cavity 41, the conduit 9 and the flexible bag 8 form a sealed space, and gas or liquid can be filled in the pump cavity 41, the conduit 9 and the flexible bag 8, so that the volume of the flexible bag 8 can be conveniently changed by the volume change of the pump cavity 41. An operating part 2 connected with a check part 6 is further arranged on the water injection pipe 1, for convenience of manufacture, the operating part 2 also adopts a pump structure 4, the operating part 2 is also communicated with the check part 6 through a guide pipe 9, and the operating part 2 is connected and fixed with the control part; the operating element 2 is provided with a locking member, the locking member of the embodiment is preferably a buckle 3 arranged on a pump body of the operating element 2, a clamping groove matched with the buckle 3 is arranged on a piston rod of the operating element 2, and after the piston rod of the operating element 2 pushes a piston to press gas or liquid in a pump cavity 21 of the operating element into the check element 6, the buckle 3 locks the piston rod of the operating element 2, so that the check element 6 is in an expansion state. The outer side of the position of the conduit 9 between the water outlet 7 and the control part is sleeved with a sleeve 5, and all the conduits 9 are distributed in the gap between the water injection pipe 1 and the sleeve 5.

And 2, enabling the check piece 6 and the four flexible bags 8 to be in a contraction state, and then inserting the insertion section of the water injection pipe 1 into the intestinal tract from the intestinal tract stoma of the human body, so that the water injection pipe 1 drives the flexible bags 8 and the check piece 6 to be inserted into the intestinal tract.

And 3, pushing the piston rod of the operating element 2 to enable the liquid in the pump cavity 21 of the piston compression operating element to enter the check piece 6, enabling the check piece 6 to expand and support the intestinal tract, and then locking the piston rod of the operating element 2 by using the buckle 3 to enable the check piece 6 to be in an expansion state. Then, the water is injected into the intestinal tract through the water inlet of the water injection pipe 1 and lavages, at the moment, the four pump structures are held by one hand, the piston rods of the four pump structures 4 are continuously and sequentially pressed by the other four thumbs except the thumb and then loosened, the piston reciprocates in the pump cavity 41, so that the liquid in the pump cavity 41 correspondingly communicated with the flexible bag 8 enters the corresponding flexible bag 8 through the guide pipe 9 and is sucked back into the pump cavity 41, the flexible bag 8 is expanded and contracted rhythmically, when the four flexible bags 8 are continuously and sequentially expanded and contracted, a peristaltic effect is formed in the intestinal tract, and when the water injected into the intestinal tract from the water outlet 7 passes through the intestinal tract corresponding to the flexible bag 8, the intestinal tract is fully expanded under the peristaltic action, so that the intestinal tract is fully lavaged, and the lavaging effect of the intestinal tract is improved; meanwhile, the intestinal tract peristalsis is realized through continuous expansion and contraction of the four flexible bags, the intestinal tract is stimulated to regenerate peristalsis waves, the peristalsis function of the intestinal tract is exercised, and the intestinal tract is pre-adapted to the stimulation of intestinal contents after stoma returning operation.

After the intestinal tract segment corresponding to the flexible bag 8 in the step 4 and the step 3 is irrigated, the check piece 6 of the adjusting operation piece 2 is in a contraction state, and the flexible bag 8 is also in the contraction state without pressing all the pump structures 4. Then, after the water injection tube 1 is advanced a distance along the intestinal tract, the operating member 2 is pressed to make the check member 6 in the expanded state, and the operation in step 3 is repeated, thereby irrigating the intestinal tract segment. So operate repeatedly, accomplish up to the whole lavages of the intestinal position of needs lavage to make the intestinal when the lavage, tempered the wriggling function of intestinal again, reduced the emergence of the condition of postoperative ileus, anastomotic stoma fistula.

And 5, stopping water injection of the water injection pipe 1, adjusting the operating piece 2 to enable the non-return piece to be in a contraction state, not pressing all the pump structures 4 to enable all the flexible bags 8 to be in the contraction state, and then moving the water injection pipe 1 out of the intestinal tract from the stoma.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (3)

1. A method of irrigating an intestine through an enterostomy, comprising: comprises the following steps of (a) carrying out,

step 1, preparing an irrigating device, wherein the irrigating device comprises a water injection pipe, a water outlet is formed in an insertion section of the water injection pipe, at least two flexible bags are arranged on the insertion section and positioned on the front side of the water outlet, and each flexible bag is independently connected with a pump structure;

step 2, operating the pump structure to enable the flexible bag to be in a contraction state, and then inserting the insertion section of the water injection pipe into the intestinal tract until the water outlet completely enters the intestinal tract;

step 3, controlling a water injection pipe to inject water, and simultaneously and continuously operating a pump structure in sequence to enable all the flexible bags to sequentially and continuously expand and contract, so that intestinal tract sections in contact with all the flexible bags form peristaltic fluctuation;

step 4, after the intestinal tract segment irrigation in the step 3 is finished, controlling a pump structure to enable all the flexible bags to be in a contraction state, then pushing the water injection pipe for a distance along the intestinal tract, and then repeating the operation in the step 3;

and 5, stopping water injection of the water injection pipe after the intestinal tract part needing lavage is lavaged, controlling the pump structure to enable all the flexible bags to be in a contraction state, and then removing the water injection pipe out of the intestinal tract from the stoma.

2. A method of irrigating a bowel through an enterostomy according to claim 1, wherein: in the step 1, four flexible bags are arranged, four pump structures are also arranged, and the four pump structures are arranged side by side; in the step 3, four pump structures arranged side by side are operated by four fingers except the thumb of a single hand.

3. A method of irrigating a bowel through an enterostomy according to claim 2, wherein: in the step 1, a check piece in an elastic sac-shaped structure is fixedly arranged on the rear side of the water outlet, and an operating piece for controlling the expansion and contraction of the check piece is connected to the check piece; in the step 2, the check piece is in a contraction state and is inserted into the intestinal tract along with the water injection pipe; in the step 3, before the water injection pipe injects water, the operating piece is controlled to enable the check piece to be in an expansion state; in the step 4, the operating piece is controlled to enable the check piece to be in a contraction state between the water injection pipe is pushed in the intestinal tract.

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