The present invention relates to an instrument for confirming the position of an indwelling gastrostomy catheter which is used when a gastrostomy catheter is made indwelling in a patient's body in order to supply fluid such as nutrients and food in fluid form to the patient's stomach, and to a method of confirming the indwelling position.
Fluids such as nutrients and food in fluid form are conventionally supplied to people having a reduced capacity for ingesting food orally by themselves due to advanced age or illness (referred to hereinafter as “patients”) using a gastrostomy catheter. Such a gastrostomy catheter is provided with a stomach-internal fixed part which is arranged on the inner part of the stomach wall in a hole (gastrostomy hole) for ingestion which is provided in the abdomen of the patient, and a tubular part of which the tip end is linked to the stomach-internal fixed part, and the base end passes through the hole and extends outside the patient's body. When this gastrostomy catheter is attached at the hole which is formed in the patient's body, it is then necessary to confirm whether or not the stomach-internal fixed part of the gastrostomy catheter is indwelling in the correct state inside the stomach.
One method of confirming the indwelling position of the gastrostomy catheter in this case is a method in which an endoscope is inserted into the alimentary canal orally or nasally, and observations are made using the endoscope. There is also another method in which the gastrostomy catheter is made indwelling in the hole in the patient, after which fluid etc. inside the body is sucked out from the gastrostomy catheter by means of a syringe, and the indwelling position of the gastrostomy catheter is confirmed according to the characteristics of the fluid sucked out. With these methods, there are problems with the one in which suction is carried out using a syringe after the gastrostomy catheter has been made indwelling in that it is difficult to judge unless there are marked differences in the characteristics of the fluid etc. sucked out, which leads to poor reliability. Consequently, the method employing an endoscope is preferred in order to more reliably confirm the indwelling position. However, there are problems with the method employing an endoscope such as the high costs of cleaning the endoscope after use and patient discomfort.
In view of these problems, it is possible to significantly reduce the costs of cleaning the endoscope after use by attaching a disposable cover to the endoscope (see, for example, Japanese Unexamined Patent Application Publication H3-292925). This endoscope probe cover (protective cover) is made up of a tube which covers the endoscope probe very closely, and a thread-like body, and it has a structure in which it is possible to split the tube after use by pulling the thread-like body. Consequently, the endoscope probe does not come into direct contact with fluids etc. in various parts of the body and become soiled, which makes sterilizing and cleaning operations largely unnecessary, and therefore the costs entailed by sterilizing and cleaning can be reduced.
However, with the endoscope probe cover described above, there is a risk that soiling adhering to the surface of the tube will then adhere to the endoscope probe when the thread-like body is pulled and the tube is split. In this case also, there are still problems remaining in that if the endoscope probe is inserted into the alimentary canal orally or nasally, this causes discomfort to the patient when the endoscope probe is inserted.
One embodiment of the present invention is an instrument for confirming the position of an indwelling gastrostomy catheter which comprises a tubular part for running through a hole which is formed between the surface of the skin of a patient and the inner surface of the stomach wall, and extending from outside the patient's body to the inner surface of the stomach wall, and a stomach-internal fixed part capable of linking to the tip end of the tubular part and being arranged at the inner surface of the stomach wall, the fixed part having a through-hole adapted to receive the tubular part therethrough said instrument comprising a fiberscope, with which it is possible to observe the inner surface of the stomach wall, adapted to run through the inside of the tubular part so that the tip end thereof projects from the through-hole of the stomach-internal fixed part, and a protective cover adapted to pass through the gastrostomy catheter together with the fibrescope, in a state in which the fibrescope is covered, the cover including a light-transmissive window part at a tip end thereof which allows observation of the inner surface of the stomach wall by means of the fiberscope.
Another aspect of this invention is an inventive method of confirming the position of an indwelling gastrostomy catheter which comprises a tubular part for running through a hole which is formed between the surface of the skin of the patient and the inner surface of the stomach wall, and extending from outside the patient's body to the inner surface of the stomach wall, and a stomach-internal fixed part capable of linking to the tip end of the tubular part and being arranged at the inner surface of the stomach wall, the fixed part having a through-hole adapted to receive the tubular part therethrough said method comprising: making the gastrostomy catheter indwelling, in which the gastrostomy catheter is made indwelling in the hole; covering the fibrescope, in which the fibrescope is covered by a protective cover; inserting the fiberscope covered by the protective cover inside the tubular part, with the tip end portion thereof projecting from the through-hole of the stomach-internal fixed part; confirming the indwelling position, in which the inner surface of the stomach wall observed by means of the fibrescope is checked; withdrawing the fibrescope, in which the fibrescope which has been covered by the protective cover is withdrawn from the gastrostomy catheter; and removing the protective cover, in which the fibrescope is withdrawn from the protective cover.
One embodiment of the present invention will be described below with reference to the figures.
The external fixed part 11 comprises an insertion opening 11a which is annular and fairly thick, and projecting pieces 11b, 11c of which the outline is elliptical and includes the insertion opening 11a, these pieces projecting at both sides from the lower end of both side parts of the insertion opening 11a, when seen as a plane. The function of these projecting pieces 11b, 11c is to prevent the gastrostomy catheter 10 from being pulled into the stomach S (see
The cover part 15 comprises an elongate strip-shaped linking part 15a which is linked to the end part of the projecting piece 11b, and a broad part 15b which is shorter and wider than the strip-shaped linking part 15a, and is formed at the tip end of the strip-shaped linking part 15a. A stopper part 16 shaped like a column which is short in the axial direction is then provided on the broad part 15b. The strip-shaped linking part 15a is flexible, and it can flex so as to vertically rotate, or bend at a sharp angle, with the linking part to the projecting piece 11b at the centre. The stopper part 16 is provided on the strip-shaped linking part 15a side portion of the broad part 15b, so as to face the insertion hole 14 when the strip-shaped linking part 15a is bent to position the broad part 15b above the insertion opening 11a.
The stopper part 16 is formed with a columnar shape which can fit into the insertion hole 14, and it is provided on its outer peripheral surface with an annular projection 16a running along its periphery, this projection being able to detachably engage with the engagement groove formed on the inner peripheral surface of the insertion hole 14. Accordingly, it is possible to engage the engagement groove with the annular projection 16a by bending the strip-shaped linking part 15a so that it is upwardly inverted, and pushing the stopper part 16 into the insertion hole 14, and this makes it possible to close off the insertion hole 14 of the insertion opening 11a in an airtight manner. It is also possible to open the insertion hole 14 of the insertion opening 11a by pulling the broad part 15b to release the fitting between the stopper part 16 and the insertion hole 14.
The tubular part 12 is formed as a cylindrical shape, and a supply channel (not depicted) for allowing the passage of fluids such as nutrients and food in fluid form is formed inside it; the upper end of the supply channel links in communication with the insertion hole 14 of the external fixed part 11. The stomach-internal fixed part 13 is connected to the tubular part 12 via a connection part 17 which is fixed to the lower end of the tubular part 12. Said connection part 17 is formed as a cylinder for covering the outer peripheral surface of the tubular part 12 and is integrally formed with the stomach-internal fixed part 13. Said connection part 17 is then attached to the lower end of the tubular part 12, in a state in which it cannot be removed from the tubular part 12.
The stomach-internal fixed part 13 comprises four strip-shaped linking parts 13a which are linked to the edge of a lower end opening of the connection part 17 and extend in four directions, four linking film parts 13b which are provided between the upper parts of each of the linking parts 13a and form a roughly dome-shaped stomach wall contact part with the four linking parts 13a, and a converging part 13c where the tip ends of all of the linking parts 13a converge. The four linking parts 13a comprise strip-shaped members which are bent into substantially semi-circular shapes which split into four directions from the lower end of the connection part 17, respectively extending downwards from the horizontal, after which they converge below the central axis of the tubular part 12, linking to form the converging part 13c. That is to say, the converging part 13c allows each of the linking parts 13a to link by joining the lower ends of all of the linking parts 13a, and it is also positioned by all of the linking parts 13a below the central axis of the tubular part 12.
Moreover, the stomach-internal fixed part 13 which comprises the linking parts 13a, linking film parts 13b and the converging part 13c is integrally formed together with the connection part 17. Furthermore, all of the linking parts 13a and linking film parts 13b are made of a soft, flexible, elastic material, and the overall roughly spherical shape is normally maintained by means of this elasticity, as shown in
As shown in
The lens 21 sends images obtained by the irradiation of the light guides 23b to the image display device, via the image guide 21a and the wiring 22a. In other words, the light guides 23b irradiate the inner surface of the stomach wall SW with light sent from the light source device to make observation possible, and the image guide 21a sends the light which is reflected from the inner surface of the stomach wall SW and focused by means of the lens 21 to the image display device. The image display device then enlarges the images sent and displays them on an image display part provided in the image display device.
Furthermore, the protective cover 24 is flexible and is such that its tip end is closed off by a light-transmissive window part 24a, and its base end 24b on the opening side is configured by a tube of somewhat larger diameter than the other portions. Said protective cover 24 is formed to be of a thickness which can cover and fix the fibrescope shaft 23a, and it is prevented from being removed from the fibrescope shaft 23a by inserting a tip-end narrow-diameter part 22c of the connection part 22 into the base end 24b. In this state, the instrument is configured so that the lens 21 is in contact with the inner surface of the window part 24a.
Furthermore, the tip end of a wire 24c which acts as the linear member pertaining to the present invention is fixed to the edge of the window part 24a on the outer peripheral surface of the protective cover 24. A wire lumen (not depicted) for the passage of the wire 24c through the lower end region of the base end 24b is formed from a portion of specified length (the length required to bend the protective cover 24) above the tip end on the peripheral surface of the protective cover 24. The wire 24c extends upwards and outside of the tip end of the protective cover 24, after which it passes through inside the wire lumen and extends outside.
The connection fitting 25 is attached to the gastrostomy catheter 10 to provide smoother insertion of the protective cover 24 etc. into the gastrostomy catheter 10, and it is configured by a connection part 26, insertion opening 27 and an air supply opening 28. The connection part 26 is configured by a substantially cylindrical engagement part 26b which is formed in the centre of the lower surface of an annular connection part main body 26a, and an insertion hole for allowing the insertion of the protective cover 24 is formed therein. Furthermore, the connection part main body 26a is formed with an annular shape which is substantially the same size as the insertion opening 11a of the gastrostomy catheter 10, and the engagement part 26b is formed with a cylindrical shape having four different levels.
The engagement part 26b is made up of an uppermost level in which the outer peripheral surface which has a larger diameter at its upper part than its lower part has an oblique surface, a second level which has the same diameter as the lower part of the uppermost level, a third level which has substantially the same diameter as the upper part of the uppermost level, and a lowermost level in which the outer peripheral surface which has substantially the same diameter as the second level at its upper part, and a smaller diameter at its lower part than its upper part has an oblique surface. The third level of the engagement part 26b configures an annular projection 26c which is able to detachably engage with the engagement groove formed in the insertion hole 14 of the gastrostomy catheter 10, and when the annular projection 26c engages with the engagement groove, a state of air-tightness is achieved between the engagement part 26b and the peripheral surface of the insertion hole 14.
The insertion opening 27 is formed with a cylindrical shape and an insertion hole enabling the insertion of the protective cover 24 is formed therein, an annular reinforcing rib 27a being formed on the edge of the opening at the upper end. Furthermore, the insertion hole formed inside the insertion opening 27 and the insertion hole formed inside the connection part 26 have the same diameter and are also coaxially linked in communication. The air supply opening 28 is formed as a cylindrical shape extending obliquely upwards from the lower end of the insertion opening 27 in a state in which it is inclined at approximately 45° to the insertion opening 27, and it is narrower in diameter than the insertion opening 27. An annular reinforcing rib 28a is furthermore formed on the edge of the opening at the upper end of the air supply opening 28.
An air supply device (not depicted) is connected to the reinforcing rib 28a of said air supply opening 28, and air which is supplied from the air supply device passes through inside the air supply opening 28 and is sent to the lower end inside the insertion opening 27. Furthermore, an airflow channel (not depicted) for allowing the passage of air is formed between the lower end inside the insertion opening 27 and the lower end inside the connection part 26; air sent to the lower end inside the insertion opening 27 is released to the outside from the lower end of the connection part 26.
A substantially triangular sheet-like reinforcing grip part 29 for strengthening the area between the insertion opening 27 and the air supply opening 28 and also for facilitating holding of the connection fitting 25 with the hand is formed between the insertion opening 27 and the air supply opening 28. The instrument 20 for confirming the indwelling position shown in
A description of the method of confirming the indwelling position of the gastrostomy catheter 10 using the instrument 20 for confirming the indwelling position configured in the manner described above will be given next, with reference to
At this time, an operator holds both sides of the insertion opening 11a on the gastrostomy catheter 10 with one hand, and holds the reinforcing grip part 29 of the connection fitting 25 with the other hand, and pushes the connection fitting 25 into the gastrostomy catheter 10. As shown in
Next, air is supplied from the air supply device to inside the air supply opening 28, and this air is sent into the stomach S from the connection part 26 via the tubular part 12 of the gastrostomy catheter 10. This allows the stomach S to expand, as shown in
The range shown by the two-dot chain line in
In this operation, the protective cover 24 is first of all pulled upwards together with the fibrescope 23 in a state in which the force pulling on the wire 24c has been released, and then in the state shown in
At this time, the lens 21 and the fibrescope shaft 23a do not come into contact with the liquids and residues inside the patient's body and stomach S, so they are not soiled and there is no need for the most part to clean or sterilize them. Furthermore, when the fibrescope 23 is reused, the fibrescope shaft 23a is covered with a new protective cover 24. Moreover, in the operation described above, the engagement between the annular projection 26c of the connection fitting 25 and the engagement groove of the gastrostomy catheter 10 is released, and the protective cover 24 and the fibrescope 23 are removed from the gastrostomy catheter 10 together with the connection fitting 25, but it is also possible to remove the protective cover 24 etc. from the connection fitting 25, and then to release the engagement between the annular projection 26c of the connection fitting 25 and the engagement groove of the gastrostomy catheter 10.
Furthermore, when nutrient fluid is supplied to the patient's stomach S, for example, by way of the gastrostomy catheter 10 which is indwelling in the patient's body, a connector for a tube extending from a container housing the nutrients is connected to the insertion hole 14 of the gastrostomy catheter. In this state, nutrients are supplied to the patient by way of the tube and the gastrostomy catheter 10. At this time, nutrients coming out of the tubular part 12 pass from the stomach-internal fixed part 13 through each of the linking parts 13a, and enter the stomach S. Furthermore, after use, the tube from the container of nutrients is removed from the insertion hole 14 of the gastrostomy catheter 10, and the insertion hole 14 is closed using the stopper part 16. Then, when it becomes necessary to replace the gastrostomy catheter 10 after regular periods of use, it can be replaced with a new gastrostomy catheter 10. In this case also, the indwelling position of the gastrostomy catheter 10 can be confirmed using the instrument 20 for confirming the indwelling position which has been described above.
In this way, the inventive instrument 20 for confirming the indwelling position of a gastrostomy catheter is provided with a protective cover 24, and the fibrescope shaft 23a is covered by this protective cover 24, and they pass through the gastrostomy catheter 10. Consequently, there is no discomfort for the patient caused by the fitting of the fibrescope 23 and the protective cover 24 to the patient's body. Furthermore, after the indwelling position of the gastrostomy catheter 10 has been confirmed, the fibrescope 23 etc. are pulled out from the gastrostomy catheter 10, and then the fibrescope 23 is pulled out from the protective cover 24, whereby the fibrescope shaft 23a does not become soiled with gastric juices etc.
As a result, there is virtually no need to clean or sterilize the fibrescope 23, making expenses for sterilization and cleaning largely unnecessary, and also making it possible to extend the lifespan of the fibrescope 23. Furthermore, the wire 24c is linked to the tip end of the protective cover 24, and the tip end of the protective cover 24 projects from the through-hole 18 of the stomach-internal fixed part 13, and in this state the tip end portion of the protective cover 24 can be made to flex together with the fibrescope shaft 23a by pulling the wire 24c so that it is possible to change the direction of irradiation by the light guides 23b and the direction of focus of the lens 21. This means that it is possible to change the direction of irradiation and the direction of focus with a simple operation, and it is possible to more reliably confirm the indwelling position.
Furthermore, the inventive instrument for confirming the indwelling position of a gastrostomy catheter is not limited to the embodiment described above, and appropriate modifications may be implemented within the technical scope of the present invention. For example, in the embodiment described above, an external fixed part 11 is provided on the gastrostomy catheter 10, but a gastrostomy catheter which is not provided with an external fixed part 11 may also be used. In this case the connection fitting 25 may also be dispensed with. It is also possible to use other devices having similar functions instead of the image display device and light source device, etc. In addition, in the embodiment described above, the tip end portion of the protective cover 24 is made to flex together with the fibrescope shaft 23a by pulling the wire 24c, but the wire 24c may be configured by a rigid material, and the tip end portion of the protective cover 24 may be made to flex together with the fibrescope shaft 23a by pushing the wire 24c.
With the present invention configured in the manner described above, the fiberscope which is used as an endoscope may be covered by a protective cover and passed through inside the gastrostomy catheter. In this way, the fiberscope is inserted together with the protective cover from the gastrostomy catheter which is already indwelling in the patient's body, reaching the inner surface of the stomach wall, and therefore there is no discomfort for the patient caused by the insertion of the fiberscope and the protective cover. Furthermore, it is possible to reduce the diameter of the endoscope by using a fiberscope as the endoscope, as a result of which the endoscope passes through the gastrostomy catheter more easily.
Furthermore, when the indwelling position of the gastrostomy catheter is confirmed, the protective cover and the fiberscope can then be pulled out of the gastrostomy catheter together, after which the fiberscope is pulled out of the protective cover, whereby the fiberscope can be removed from the patient's body without any soiling of the fiberscope with gastric juices etc. As a result, there is virtually no need to clean or sterilize the fiberscope, making expenses for sterilization and cleaning largely unnecessary, and also making it possible to extend the lifespan of the fiberscope. In addition, the tip end of the protective cover facing the tip end of the fiberscope consists of a window part which allows light transmission, and therefore there is no reduction in the observational accuracy of the stomach wall by the fiberscope due to the protective cover.
Another aspect of one embodiment of the present invention is that when a linear member is linked to the outer periphery at the tip end of the protective cover, and the tip end of the protective cover is projecting from the through-hole of the stomach-internal fixed part, the tip end portion of the protective cover can be made to flex together with the fiberscope so that it is possible to change the observation direction of the fiberscope, by operation of the rear end portion of the linear member. By virtue of this, it is possible to change the direction of observation of the lens using a simple operation, and this makes it possible to confirm the indwelling position more reliably. In this case, it is possible to confirm the direction of the through-hole of the stomach-internal fixed part using the fiberscope. Furthermore, the fiberscope is such that it flexes under the action of the protective cover, and therefore the fiberscope itself can be made with a simple structure. Because of this, it is possible to reduce the number of components of the fiberscope itself which might break down. The operations of the rear end portion of the linear member in this case include pushing and pulling operations of the linear member.
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