JP2011087790A - Intragastric swelling capsule - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an intragastric swelling capsule that a patient swallows and allows it to swell within his/her stomach. <P>SOLUTION: The intragastric swelling capsule includes a capsule 6 in a contracted form to be swallowed by a patient when he/she is hungry, and a capsule swelling means to obtain a capsule 6' in a swollen form by swelling the contracted capsule 6 in the patient's stomach, so that the capsule 6 can increase its occupation area within the stomach, give the patient the feeling of fullness, and restrict the quantity of his/her meals. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a gastric dilatation capsule, and in particular, in a pathological condition requiring weight control such as diabetes, metabolic syndrome, hypertension, morbid obesity, etc., when swallowed, it expands in the stomach and heals a patient's hunger and gives fullness. In particular, the present invention relates to a gastric dilatation capsule that can reduce appetite and reduce food intake.

  Conventionally, as a treatment for the above-mentioned pathological conditions, bariatric surgery such as diet restriction or surgical gastric resection has been performed (see Non-Patent Documents 1 and 2 below). However, with regard to dietary restrictions, there are many patients who cannot be protected, and some patients have a negative philosophy in teaching from the viewpoint of “quality of life”. Thus, for morbid obesity, many surgical reductions and gastrectomy have been attempted in Europe and the United States (see Non-Patent Document 1), but due to the nature of surgery, the risk of complications is zero. Can't be. After the operation, if the contents flow out due to suture failure, there may be a risk of death due to peritonitis. In addition, a balloon that is endoscopically placed in the stomach has been developed, but insertion of the endoscope naturally involves patient pain (see Patent Document 1).

JP 2009-131641 A JP 2007-082898 A JP 2002-315209 A

Laparoscopic sleeve gastricity with dueno-jejunal bypass: a new surgical procedure for weight control. Feasibility and safety study in a porcine model. Del Genio G, Gagner M, Cuenca-Avente F, Nocca D, Biertho L, Del Genio F, Assalia A, Del Genio A. Obes Surg. 2008 Oct; 18 (10): 1263-7 Vegetarian diets, chronic diseases and longevity. Ginter E. Bratisl Lek Listy. 2008; 109 (10): 463-6. Review.

In Japan as well, the increase in obese patients is directly linked to changes in the national disease structure, such as an increase in cardiovascular events, with the increase in metabolic syndrome, pressing the medical economy. Bariatric surgery is becoming the standard treatment for morbid obesity in the West, but it has not yet spread in Japan, and invasive surgical treatment is debated.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a gastric dilatation capsule that can be swallowed by a patient and that can be dilated in the stomach.

In order to achieve the above object, the present invention provides
[1] In the gastric expandable capsule, the contracted shape capsule that the user drinks on an empty stomach, and the contracted shape capsule is expanded in the stomach to increase the occupied volume of the capsule in the stomach, Capsule inflating means for obtaining an inflated capsule for limiting food intake by giving the user a feeling of fullness.

[2] The expandable intragastric capsule according to [1], wherein the capsule is made of a shape memory alloy having a high biocompatibility and safety, a soft and stretchable silicon material, and a surface coated. It is a gastric inflation capsule with a built-in inflation mechanism.
[3] The intragastric expansion capsule described in [1] above, wherein the capsule is an expansion mechanism built-in intragastric expansion capsule having an expansion mechanism inside the outer membrane.

[4] The intragastric expansion capsule according to [3] above, wherein the expansion mechanism is an expansion mechanism using an arm.
[5] The intragastric expansion capsule according to [3] above, wherein the expansion mechanism is a pneumatic operation mechanism by releasing compressed air from a compressed air tank.
[6] In the gastric dilatation capsule according to [2] or [3], the gastric dilatation capsule with a built-in dilation mechanism operates by power transportation via a noninvasive transcutaneous energy transmission system from outside the body. It is characterized by that.

[7] In the gastric inflatable capsule according to [2] or [3], after the capsule is inflated, the inflated capsule is contracted to the original state by peristaltic energy transmission system and peristalizes in the digestive tract. The capsule is moved by movement and discharged from the body simultaneously with defecation, so that the contracted capsule can be collected.
[8] The gastric expandable capsule according to [1], wherein the capsule is a gastric expandable capsule whose surface is coated with a material that is dissolved with gastric juice and that automatically expands simultaneously with the dissolution of the surface. And

[9] In the intragastric expandable capsule described in [8] above, the expansion mechanism by the superelastic stent made of a shape memory alloy mounted in the capsule spontaneously expands to maintain a large occupied volume in the stomach It is characterized by.
[10] The expandable intragastric capsule described in [2] or [9] above, wherein the shape memory alloy is nickel / titanium alloy or titanium / zirconium / niobium alloy having high biocompatibility. .

[11] In the gastric dilatation capsule according to [8] or [9], after the capsule is inflated, the dilated capsule is contracted to an original size by power transportation using a transdermal energy transmission system. It is made to return and the contracted state is maintained until the time of defecation.
[12] In the gastric inflatable capsule according to [1], the capsule is greatly inflated by energy input by a system using a built-in battery, and the user's fullness can be freely controlled from outside the body. Features.

[13] In the gastric indwelling capsule according to [12] above, the capsule is inflated so that it does not pass through the pyloric part, so that the capsule is placed in the gastric body part, and the dietary intake of the user is suppressed. It is characterized by.
That is, when a patient feels hungry, he can take a capsule, operate the transcutaneous energy transmission unit from outside the body, and expand the capsule in the stomach, thereby suppressing dietary intake and dieting. Alternatively, an automatic capsule expansion system may be introduced. After use, it is discharged simultaneously with defecation.

  According to the present invention, since the patient can inflate the intragastric expansion capsule in the stomach himself, appetite can be suppressed and obesity can be treated.

It is a mimetic diagram showing the state where the stomach expansion capsule of the present invention was swallowed in the stomach. It is a schematic diagram which shows the operation | movement in the stomach of the gastric expansion capsule of this invention. It is a figure which shows the gastric dilatation capsule which shows 1st Example of this invention. It is a drawing substitute photograph which shows the gastric dilatation capsule which shows 2nd Example of this invention. It is a figure which shows the gastric expansion capsule which shows 3rd Example of this invention. It is a figure which shows the stomach expansion capsule which shows 4th Example of this invention.

  The expandable intragastric capsule of the present invention is a capsule in a contracted shape that a user drinks on an empty stomach, and expands the contracted capsule in the stomach to increase the occupied volume of the capsule in the stomach, Capsule expansion means for obtaining an expanded capsule for limiting the amount of food intake by giving the user a feeling of fullness.

Hereinafter, embodiments of the present invention will be described in detail.
FIG. 1 is a schematic diagram showing a state where the gastric dilatation capsule of the present invention is swallowed in the stomach, FIG. 2 is a schematic diagram showing the operation of the gastric dilatation capsule in the stomach, and FIG. It is a schematic diagram which shows the gastric dilatation capsule which shows an Example, FIG. 3 (a) is a figure which shows the gastric dilatation capsule which shrink | contracted, FIG.3 (b) is a figure which shows the dilatation dips in the gastric capsule.

  In these figures, 1 is the stomach body part, 2 is the esophagus, 3 is the cardia part, and this cardia part 3 opens only when food enters the stomach at the entrance from the esophagus 2 to the stomach. Reference numeral 4 denotes a pyloric part. This pyloric part 4 is an exit from the stomach to the duodenum 5 and has a sphincter gate, which opens when food becomes neutral or weakly acidic. Reference numeral 6 denotes an expandable capsule in the stomach swallowed into the stomach body part 1, and 7 denotes a primary coil of a transcutaneous energy transmission system for bringing the stomach body part 1 into contact with the stomach body 1 from outside the body.

  As shown in FIG. 2 (a), the contracted intragastric expansion capsule 6 is first swallowed into the stomach body part 1 from the cardia part 3 through the esophagus 2. Next, as shown in FIG. 2 (b), the contracted gastric dilatation capsule 6 enters the gastric body part 1, and as shown in FIG. It expands to become an expanded gastric expansion capsule 6 '. After use, the expanded intragastric expansion capsule 6 ′ contracts as shown in FIG. 2 (d), and the contracted intragastric expansion capsule 6 comes out of the stomach from the pyloric region 4 and simultaneously with defecation. It is discharged outside the body.

  That is, the gastric dilatation capsule 6 has a small size when it enters the stomach body part 1 as shown in FIG. 3A, but it remains in the stomach body part 1 as shown in FIG. Inflates to larger dimensions. More specifically, the intragastric inflatable capsule 6 has a built-in inflating mechanism made of a shape memory alloy 6B having a surface that is covered with a silicon material 6A that has high biocompatibility and safety, is flexible, and can be extended. Intragastric capsule. The intragastric expansion capsule 6 is greatly expanded by noninvasive energy input by the primary coil 7 of the transdermal energy transmission system from outside the body, and can occupy a large volume in the stomach body part 1. The primary coil 7 is fixed outside the body. For example, you may make it fix with a stomach band. When the volume in the stomach body part 1 is largely occupied by the intragastric expansion capsule 6, the stomach wall receives an extension stimulus and suppresses the appetite center, so that the feeling of hunger can be healed. Therefore, the amount of meal intake can be suppressed.

  The gastric dilatation capsule 6 ′ after use contracts to its original state by stopping the noninvasive energy input by the primary coil 7 of the transdermal energy transmission system. Alternatively, the gastric body part 1 is cooled from outside the body by a cooling device (not shown), and the intragastric expansion capsule 6 'is contracted to the original state. The contracted intragastric expansion capsule 6 'can be moved in the digestive tract by peristaltic movement and discharged outside the body simultaneously with defecation.

In this embodiment, energy input by the transcutaneous energy transmission system has been described. However, energy is input by a system using a built-in battery provided in the user's body to greatly expand the capsule, so that the user's fullness can be felt from outside the body. It can be controlled freely.
In addition, by enlarging the capsule by energizing the system using the built-in battery and making the size so as not to pass through the pylorus, the capsule can be placed in the stomach and the amount of food intake can be suppressed.

Furthermore, the intragastric expansion capsule in the stomach may be expanded from outside the body using a heater or a warmer.
FIG. 4 is a drawing-substituting photograph showing a gastric dilatation capsule according to a second embodiment of the present invention. FIG. 4 (a) shows the gastric dilatation capsule in a contracted state, and FIG. 4 (b) is a dilated state. FIG.

  As shown in FIG. 4 (a), a gastric inflatable capsule 11 of a form different from the above-described embodiment whose surface is coated with a material 12 that is dissolved in the stomach is physically constrained to expand, As shown in FIG. 4 (b), when the covering material is dissolved in the stomach, the expansion mechanism by the superelastic stent made of a shape memory alloy attached to the inside of the stomach spontaneously By expanding, it becomes a gastric inflatable capsule 11 ', physically stimulates the stomach wall, heals hunger, and suppresses appetite. Thus, obesity can be treated and weight can be controlled. After appetite is healed, it is placed in the stomach, and the volume is kept in the stomach and the appetite is continuously suppressed. Alternatively, it may be contracted again and downsized by temperature control by transcutaneous energy transmission and discharged outside the body simultaneously with defecation in the contracted state.

The shape memory alloy used in the present invention is a superelastic material, and for example, a nickel / titanium alloy or a titanium / zirconium / niobium alloy having high biocompatibility can be used.
In addition, a lock-like lock mechanism can be provided inside the capsule to maintain the contracted state of the capsule that has been miniaturized again after use and to facilitate discharge from the body. Here, the lock mechanism means a mechanism that makes it impossible to re-enlarge the capsule by combining a small key-like mechanism. The shape of the key-like structure can be freely selected.

FIG. 5 is a view showing a gastric dilatation capsule according to a third embodiment of the present invention. FIG. 5 (a) shows the gastric dilatation capsule when it is contracted, and FIG. It shows the time of expansion of the intragastric expansion capsule.
In these drawings, an intragastric expansion capsule 20 includes an outer membrane (foldable / expandable membrane) 21, a transdermal energy transmission coil 22 housed in the outer membrane 21, and a first with a latch / lock mechanism. Of the first slide type actuator 23, the first guide plate 24 swingably supported by the base end portion 23A of the first slide type actuator 23, the slide portion 23B of the first slide type actuator 23 and the first slide plate 23B. A first arm 25 disposed between a part of the guide plate 24, a second slide type actuator 26 with a latch / lock mechanism, and a tip end portion 26A of the second slide type actuator 26 are swingably supported. The second guide plate 27, the second slide type actuator 27, the slide portion 27 </ b> B, and the second guide plate 27. It has an extension mechanism 29 made from over-time 28 Metropolitan. As shown in FIG. 5A, when the intragastric expandable capsule 20 is contracted, the first guide plate 24 and the second guide plate 27 are folded, and the outer membrane 21 is also contracted. In this contracted state, it is latched and locked. On the other hand, when energy is applied to the transcutaneous energy transmission coil 22, the first guide plate 24 and the second guide plate 27 are expanded by the expansion mechanism 29 as shown in FIG. Also expands.

FIG. 6 is a diagram showing a gastric dilatation capsule according to a fourth embodiment of the present invention. FIG. 6 (a) shows the gastric dilatation capsule when it is contracted, and FIG. It shows the time of expansion of the intragastric expansion capsule.
In these drawings, an intragastric expansion capsule 30 includes an outer membrane (a foldable / expandable membrane) 31, an information transmission coil 32 with a built-in switching controller housed in the outer membrane 31, a support rod 33, and compressed air. A pneumatic operating mechanism 35 including a tank 34 is provided. As shown in FIG. 6A, the intragastric expandable capsule 30 has an outer membrane 31 folded when contracted. On the other hand, when energy is applied to the switching controller built-in information transmission coil 32, as shown in FIG. 6B, the compressed air is released from the compressed air tank 34 of the pneumatic operating mechanism 35, and the outer membrane 31 is folded. Expands.

Thus, the capsule expansion mechanism used in the present invention is not limited to the folding structure as illustrated in the embodiment, and may be a folding structure or the like. There is no particular limitation as long as the miniaturized capsule expands.
Moreover, although the energy input system to the living body is not described in detail, the “percutaneous energy transmission device” (the above-mentioned Patent Document 2) by the applicant of the present application and the “charger and system for implantable rechargeable medical device” ( The above patent document 3) has already been proposed, and these techniques can be used.

Furthermore, the following application is also possible.
(1) The intragastric dilatation capsule is endoscopically fixed with a clip on the stomach wall, and the capsule is greatly inflated by the transcutaneous energy transmission system, so that the capsule is placed in the stomach body part to suppress food intake. It can also be done.
(2) Moreover, you may make it give a user a feeling of fullness by the function which gives an electrical stimulus from an expansion | swelling capsule in a stomach.

  In addition, this invention is not limited to the said Example, Based on the meaning of this invention, a various deformation | transformation is possible and these are not excluded from the scope of the present invention.

The gastric dilatation capsule of the present invention can be applied to various fields such as obesity control by controlling appetite, diabetes treatment, and metabolic syndrome treatment.
Moreover, the intragastric inflation device manufactured according to the present invention can be widely used as a substitute for supplements in the cosmetic area.

DESCRIPTION OF SYMBOLS 1 Gastric body part 2 Esophageal part 3 Cardia part 4 Pyloric part 5 Duodenum 6 Shrunken gastric expansion capsule 6A Silicone material 6B Shape memory alloy 6 'Expanded gastric dilatation capsule 7 Primary coil of transdermal energy transmission system 11 Gastric dilatation capsule 11 'inflated gastric capsule 12 material to be dissolved in the stomach 20,30 gastric inflatable capsule 21,31 outer membrane 22 transcutaneous energy transmission coil 23 first slide type actuator 23A with latch and lock mechanism 23A first 1st slide type actuator base end 23B 1st slide type actuator slide part 24 1st guide plate 25 1st arm 26 2nd slide type actuator with a latch lock mechanism 26A 2nd slide type actuator Base end portion 26B of the second slide type actuator Ride 27 second guide plate 28 and the second arm 29 extended mechanism 32 switching controller built information transfer coil 33 support rod 34 compressed air tank 35 pneumatically operated mechanism

Claims (13)

(A) a contracted-shaped capsule that a user drinks on an empty stomach,
(B) inflating the contracted capsule in the stomach to increase the occupied volume of the capsule in the stomach and to limit food intake by giving the user a feeling of fullness A capsule expansion means for obtaining a capsule having a shape.   2. The intragastric inflatable capsule according to claim 1, wherein the capsule has a built-in inflating mechanism made of a shape memory alloy, the surface of which is coated with a silicon material that has high biocompatibility and safety, is flexible, and is stretchable. A gastric dilatation capsule characterized by being a gastric dilatation capsule.   2. The intragastric expansion capsule according to claim 1, wherein the capsule is an expansion mechanism built-in type intragastric expansion capsule having an expansion mechanism inside an outer membrane.   4. The intragastric expansion capsule according to claim 3, wherein the expansion mechanism is an expansion mechanism using an arm.   4. The intragastric expansion capsule according to claim 3, wherein the expansion mechanism is a pneumatic operation mechanism by releasing compressed air from a compressed air tank.   4. The gastric inflation capsule according to claim 2 or 3, wherein the gastric inflation capsule with a built-in inflation mechanism is operated by power transport through a noninvasive transcutaneous energy transmission system from outside the body. Inner expansion capsule.   4. The gastric inflatable capsule according to claim 2 or 3, wherein after the capsule is inflated, the inflated capsule is contracted to the original state by electric power transport by another transcutaneous energy transmission system, and moves in the digestive tract by peristaltic movement. An expandable intragastric capsule characterized in that the contracted capsule that is discharged outside the body simultaneously with defecation can be collected.   2. The gastric expandable capsule according to claim 1, wherein the capsule is a gastric expandable capsule whose surface is coated with a material that is dissolved with gastric juice and that automatically expands simultaneously with dissolution of the surface. Inflated capsule.   9. The intragastric expansion capsule according to claim 8, wherein an expansion mechanism by a super elastic stent made of a shape memory alloy mounted inside the capsule spontaneously expands and maintains a large occupied volume in the stomach. Stomach expansion capsule.   10. The gastric dilatation capsule according to claim 2 or 9, wherein the shape memory alloy is nickel / titanium alloy or titanium / zirconium / niobium alloy having high biocompatibility.   10. The expandable intragastric capsule according to claim 8 or 9, wherein after the capsule is expanded, the expanded capsule is contracted and restored to its original size by electric power transport using a transdermal energy transmission system, and the contracted state. A gastric dilatation capsule that is maintained until defecation.   The gastric inflatable capsule according to claim 1, wherein the capsule is greatly inflated when energy is applied by a system using a built-in battery, and the user's fullness can be freely controlled from outside the body. Inner expansion capsule.   13. The indwelling capsule according to claim 12, wherein the capsule is inflated so that it does not pass through the pyloric part, so that it is placed in the stomach body part, and the dietary intake of the user is suppressed. Stomach expansion capsule.