JP2014157039A - Breath sampling bag and breath sampling set - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a breath sampling bag and a breath sampling set which are easily manufactured with the reduction in manufacturing cost and which are hardly bulky in a pre-use state so as to be easily stored.SOLUTION: A breath sampling bag 1 includes: a bag-like body 10 formed of a flexible sheet material 2; a blow port 11 formed of a part of the body 10 in such a manner that a blow tube 3 is inserted; and a discharge port 12 formed of a different part of the body 10 in such a manner that a discharge tube 4 is inserted. A breath sampling set 100 includes: the breath sampling bag 1; the blow tube 3 inserted into the blow port 11 for use; and the discharge tube 4 inserted into the discharge port 12 for use.

Description

  The present invention relates to an exhalation collection bag and an exhalation collection set for collecting end exhalation exhaled at the end of exhalation.

  Patent Document 1 discloses an exhalation collection container in which two openings are provided in a container body in which two rectangular films are bonded, a cylindrical body is fitted in each opening, and a cap is provided in each cylindrical body. Has been.

  In the breath collection container of Patent Literature 1, the end and end caps are collected by opening the caps at the entrance and the exit, blowing in the breath from the cylindrical body on the entrance side, and closing the cap at the entrance and the exit when the breath stops. can do.

JP 2003-166914 A

  However, the breath collection container of Patent Document 1 described above has a problem in that the manufacturing process includes a process of attaching the cylindrical body to the container body, and thus the manufacturing cost increases accordingly.

  Moreover, since the breath collection container of Patent Document 1 is in a state of being provided with a cylindrical body, there has been a problem that it tends to be bulky when a large number of breath collection containers are stored before use.

  Therefore, in order to solve the above problems, the present invention proposes an exhalation collection bag and an exhalation collection set that can be easily manufactured at a low manufacturing cost, and that are not bulky and easy to store before use. The task is to do.

  The breath collection bag of the present invention that solves the above problems is formed of a bag-like main body portion formed of a flexible sheet material and a part of the main body portion, and is formed so that a blowing tube is inserted. And a discharge port that is formed by another part of the main body and is formed so that a discharge pipe is inserted.

  In addition, the breath collection bag of the present invention is formed by a part of the main body part, and is formed by a projecting part for blowing projecting outward and the other part of the main body part and projecting outward. It is preferable that the discharge projection is provided, the blow-out port is provided at the tip of the blow-out projection, and the discharge port is provided at the tip of the discharge projection.

  In addition, the blowing protrusion is formed of two blowing sheets, and the blowing pipe protrudes outward from a part of the peripheral edge of the blowing port to one of the blowing sheets. It is preferable to provide a guide part.

  Further, the discharge protrusion is formed of two discharge sheet portions, and one discharge sheet portion includes a discharge pipe guide portion protruding outward from a part of the periphery of the discharge port. Is preferred.

  The sheet material is preferably a vinyl alcohol polymer or linear low density polyethylene.

  In addition, the breath collection set of the present invention that solves the above problems includes the breath collection bag, the blow pipe that is used by being inserted into the blow opening, and the discharge pipe that is used by being inserted into the discharge opening. It is characterized by providing.

  The inner diameter of the discharge pipe is preferably smaller than the inner diameter of the blowing pipe.

  Alternatively, the inner diameter of the discharge pipe is preferably equal to the inner diameter of the blowing pipe, and the inner diameter is preferably 4 mm or less.

  In the present invention, the insufflation port and the exhaust port of the breath collection bag are formed by a part of the bag-shaped main body part formed of a flexible sheet material, so that the insufflation port and the exhaust port are attached to the main body part. The manufacturing process can be omitted. Thereby, this invention can manufacture a breath collection bag easily, restraining manufacturing cost. Further, the present invention is such that the breath collection bag is used by inserting the insufflation tube and the discharge tube, so that the exhalation collection bag is not provided with the insufflation tube and the exhaust tube in a state before use, and is bulky. It is hard to become and is easy to store.

It is a perspective view which shows the breath collection set of 1st embodiment of this invention. (A), (b) is a perspective view which shows the use procedure of a breath collection set same as the above. It is a top view which expands and shows the principal part of the exhalation collection bag of an exhalation collection set same as the above. It is a top view which shows the breath collection bag same as the above. It is a perspective view which shows the state immediately after blowing in the expiration | expired_air collection bag same as the above and pulling out the blowing tube and the discharge tube. (A) is a graph showing the gas storage property of the breath collection bag when the breath collection bag is made of vinyl alcohol polymer, and (b) is the case where the breath collection bag is made of linear low density polyethylene It is a graph which shows the gas storage property of a breath collection bag. (A) is a graph showing the gas storage property of the breath collection bag when the breath collection bag is made of vinyl fluoride resin, and (b) is the breath collection when the breath collection bag is made of polyester. It is a graph which shows the gas storage property of a bag. (A) is a top view which shows the expiration collection bag of the expiration collection set of 2nd embodiment of this invention, (b) is a top view which shows the expiration collection bag of the expiration collection set of 3rd embodiment of this invention. is there.

  The present invention will be described based on embodiments shown in the accompanying drawings.

  FIG. 1 shows an exhalation collection set 100 of the first embodiment of the present invention. The exhalation collection set 100 is for collecting end-expiratory exhalation, which is exhaled after substance exchange with blood in the alveoli, for exhalation exhaled from the user. The end exhalation is exhaled from the user after exhalation in the dead space is exhaled. The dead space is a space in the airway leading to the lungs, and does not exchange substances with blood. By examining the components contained in end-expiration, various abnormalities of the body can be examined.

  The exhalation collection set 100 includes an exhalation collection bag 1, and an insufflation tube 3 and a discharge tube 4 that are inserted into the exhalation collection bag 1 and used.

  The blowing tube 3 and the discharge tube 4 are elongated tubes such as straws having an inner diameter of, for example, 2.5 to 8.0 mm, and are formed of a material such as a specific plastic. In the present embodiment, the inner diameter of the discharge pipe 4 is smaller than the inner diameter of the blowing pipe 3. The inner diameter of the discharge pipe 4 is 4/5 or less of the inner diameter of the blowing pipe 3. For example, when the inner diameter of the blowing pipe 3 is 5.0 mm, the inner diameter of the discharge pipe 4 is 4.0 mm. In this way, by using a pipe whose inside diameter is smaller than the inside diameter of the blow-in pipe 3, it is possible to make it difficult to discharge the exhaled breath through the discharge pipe 4, and even a person with a weak blowing power does not gain momentum. Even when exhaling normally, exhalation can be efficiently stored in the exhalation collection bag 1. Note that the blowing pipe 3 and the discharge pipe 4 may have the same inner diameter. In that case, the inner diameter is 4.0 mm or less, preferably 3.5 mm or less. Also by using the blow pipe 3 and the discharge pipe 4 having such an inner diameter, it is possible to make it difficult to discharge the exhaled breath through the discharge pipe 4, and the user can efficiently and efficiently store the exhaled breath in the exhalation collection bag 1. Can do.

The above-mentioned specific plastics are hydrogen (H ₂ ), carbon monoxide (CO), methane (CH ₄ ), acetone, acetaldehyde, ethanol, isoprene, hydrogen sulfide (H ₂ S), which are main components in end-tidal air. It is preferable that the same material as ammonia (NH ₃ ), toluene, and methanethiol (CH ₃ SH) is a plastic that does not release from the tube main body, or a plastic that does not release a substance that reacts with these components. As the material of the insufflation tube 3 and the discharge tube 4, a plastic having the same material as that of the breath collection bag 1 described later is preferably used. The blow pipe 3 and the discharge pipe 4 may be made of a general material such as polypropylene. Moreover, since the exhaust pipe 4 is a part from which the exhalation in the exhalation collection bag 1 is exhausted, the material of the exhaust pipe 4 may be a material different from that of the blowing pipe 3, and is not particularly limited. The blowing pipe 3 and the discharge pipe 4 may be elongated pipes such as a straw having a cock.

  As shown in FIG. 1, the breath collection bag 1 includes a bag-shaped main body portion 10 formed by sealing a flexible sheet material 2, and a blowing port 11 formed by a part of the main body portion 10. And a discharge port 12 formed by another part of the main body 10. The blowing port 11 is formed so that the blowing tube 3 is inserted, and the discharge port 12 is formed so that the discharge tube 4 is inserted. The exhalation collection bag 1 is formed to have a capacity of, for example, about 100 ml to 500 ml.

  Here, the reason why the volume of the breath collection bag 1 is formed to be about 100 ml to 500 ml is as follows.

  In other words, the amount of exhaled breath that can be discharged at one time is 2000 ml for a few people. Further, in order to completely replace the inside of a certain volume of the container with a certain gas, generally three times or more of the volume to be replaced is required. If the amount of discharge at one time is 2000 ml, the volume of dead space to be excluded is about 150 ml, so the end exhalation is 1850 ml. Therefore, the capacity of the container that can be completely replaced by the end-expiration of 1850 ml is about 650 ml at the maximum.

  In the present embodiment, the volume of the breath collection bag 1 is set to about 100 ml to 500 ml, which has a volume smaller than about 650 ml, so that the end of the breath collection bag 1 is exhausted at one end by the exhaled breath (end breath). It can be completely replaced by exhalation. The reason why the capacity of the exhalation collection bag 1 is 100 ml or more is to improve workability and the like so that the end exhalation accommodated in the exhalation collection bag 1 can be extracted a plurality of times.

  The sheet material 2 forming the exhalation collection bag 1 is flexible enough to expand by the pressure of the exhaled breath. The exhalation collection bag 1 retains its shape while the main body 10 is inflated even if the exhalation is interrupted after the main body 10 is inflated. That is, the sheet material 2 is formed of a material that does not substantially have stretchability.

  Further, the sheet material 2 is formed of a material that has low gas permeability and is difficult for components constituting the sheet material 2 to flow out to the outside. In other words, the bag-shaped main body portion 10 formed by sealing the sheet material 2 is such that main components in the end exhalation inside do not easily flow out of the main body portion 10 via the sheet material 2. The main body 10 is configured such that the outside air (particularly, the same substance as the main component in the end-expired breath or a substance that reacts with this component) does not easily flow into the main body 10 through the sheet material 2. . And the sheet | seat material 2 is formed with the material which does not discharge | release the same substance as the main component in end expiration, or the substance which reacts with this component from sheet | seat material 2 itself.

  As the sheet material 2, for example, a vinyl alcohol polymer, polyethylene, particularly linear low density polyethylene is preferably used. The sheet material 2 may have a single layer structure or a multilayer structure. As the sheet material 2, for example, a three-layer structure in which Techbarrier (registered trademark), nylon, and linear low-density polyethylene are stacked in this order from the outside can also be used.

FIG. 6 (a) shows the main components (hydrogen (H ₂ ), carbon monoxide (CO), methane (CH ₄ ) in the end exhalation in an exhalation collection bag 1 formed of a sheet material 2 made of vinyl alcohol polymer. , Acetone, acetaldehyde, ethanol, isoprene, hydrogen sulfide (H ₂ S), ammonia (NH ₃ ), toluene, methanethiol (CH ₃ SH)) and sealed for 7 days Is shown. Moreover, in FIG.6 (b), when putting the main component in the above-mentioned end exhalation into the exhalation collection bag 1 formed with the sheet material 2 made of linear low density polyethylene and sealing it, 7 days of each component It shows the concentration change. In FIGS. 6A and 6B, hydrogen (H ₂ ), carbon monoxide (CO), methane (CH ₄ ), and ammonia (NH ₃ ) are expressed in ppm, acetone, acetaldehyde, ethanol , Isoprene, hydrogen sulfide (H ₂ S), toluene, methanethiol (CH ₃ SH) are represented by ppb.

In the breath collection bag 1 made of a vinyl alcohol-based polymer, as shown in FIG. 6 (a), the decrease in the concentration of each component excluding ammonia (NH ₃ ) after 7 days is within 20%. Excellent storage properties of the main components.

Further, in the breath collection bag 1 made of linear low density polyethylene, as shown in FIG. 6B, after 7 days of the remaining components excluding ammonia (NH ₃ ), hydrogen sulfide (H ₂ S) and ethanol, Is less than 20%, and the storage stability of main components in end-expiration is excellent. In addition, in the breath collection bag 1 made of linear low density polyethylene, toluene is adsorbed to the breath collection bag 1 as soon as gas is added, and has a low concentration from the beginning, and is stable thereafter.

That is, the breath collection bag 1 made of vinyl alcohol polymer and the breath collection bag 1 made of linear low-density polyethylene have a gas storage property at a level where the concentration attenuation of about one day can be almost ignored. Other materials that do not release the same substance as the main component in end-expired breath or a substance that reacts with this component include vinyl fluoride resin (RVF), polyvinylidene fluoride (P
), Polyester, polyester-aluminum vapor deposition, and tetrafluoroethylene-6fluoropropylene copolymer. However, in the breath collection bag 1 made of these materials, the concentration attenuation after 7 days of the collected main components in the end-tidal air is larger than 20% and tends to decrease monotonously. In FIG. 7A, each component when the main component in the above-mentioned end exhalation is sealed in the breath collection bag 1 formed of the sheet material 2 made of vinyl fluoride resin (RVF) is sealed. The concentration change over 7 days is shown. FIG. 7 (b) shows the concentration change of each component for 7 days when the breath collection bag 1 formed of the polyester sheet material 2 is sealed with the main components in the above-mentioned end exhalation. Show. As shown in FIGS. 7 (a) and 7 (b), the exhalation collection bag 1 made of a sheet material 2 made of vinyl fluoride resin (RVF) or polyester has a 7-day lapse of main components in the collected end-expired breath. Subsequent concentration decay is greater than 20%. Therefore, it is preferable to use vinyl alcohol polymer or linear low density polyethylene as the material of the breath collection bag 1.

  The shape of the exhalation collection bag 1 will be described in more detail. As shown in FIG. 1, the exhalation collection bag 1 has a blowing projection 13 that linearly projects outward and a linear projection that projects outward. The discharge protrusion 14 is provided. The blowing protrusion 13 is formed by a part of the main body 10, and the discharge protrusion 14 is formed by another part of the main body 10. The exhalation collection bag 1 has a blowing port 11 at the tip of the blowing projection 13 and a discharge port 12 at the tip of the discharging projection 14.

  In the exhalation collection bag 1, a part of the main body 10 excluding the blowing protrusion 13 and the discharging protrusion 14 is an exhalation storage part 15 in which exhalation is stored. The breath collection bag 1 is formed so that the capacity of the breath storage unit 15 is about 100 ml to 500 ml. The exhalation storage part 15, the blowing protrusion 13 and the discharge protrusion 14 are formed of the flexible sheet material 2. The exhalation storage unit 15 and the inflow projection 13 communicate with each other, and the exhalation storage unit 15 and the discharge projection 14 communicate with each other. The blowing pipe 3 is inserted into and removed from the blowing protrusion 13 through the blowing port 11, and the discharge pipe 4 is inserted into and removed from the discharging protrusion 14 through the discharge port 12.

  In the present embodiment, the exhalation collection bag 1 is formed by stacking two substantially identical and identical sheet materials 2 and sealing the overlapping outer edges over substantially the entire circumference. In addition, the dot part in a figure is a seal location. The breath collection bag 1 is not particularly determined on the front and back, but for convenience of explanation, one of the two sheets 2 is the front sheet 20 and the other sheet 2 is the back sheet. Part 21 is assumed. The breath collection bag 1 is formed by folding a single sheet material 2 to form a front-side sheet portion 20 and a back-side sheet portion 21 having substantially the same shape, and the front-side sheet portion 20 and the back-side sheet portion 21 are overlapped. Then, the outer edges that overlap may be formed by sealing over substantially the entire circumference.

  The front side sheet portion 20 linearly protrudes outward from a part of an outer edge of the main body sheet portion 200 and a main body sheet portion 200 having a rectangular shape in plan view (in the present embodiment, a long rectangular shape in plan view). The blow-in sheet portion 22 and the discharge sheet portion 24 linearly projecting outward from the other part of the outer edge of the main body sheet portion 200 are configured. The blowing sheet portion 22 and the discharge sheet portion 24 are formed in a rectangular shape in plan view (in the present embodiment, a rectangular shape in plan view that is longer in one side).

  In the main body sheet portion 200 having a rectangular shape in plan view, the blowing sheet portion 22 protrudes from one of the four corners, and the discharge sheet portion 24 protrudes from the other corner portion. In the present embodiment, the blowing sheet portion 22 and the discharge sheet portion 24 are arranged at two corners located on the diagonal line of the main body sheet portion 200 having a rectangular shape in plan view. The protruding direction of the blowing sheet portion 22 and the protruding direction of the discharge sheet portion 24 are opposite to each other. The blowing sheet portion 22 protrudes along one end side (long side in the present embodiment) of the main body sheet portion 200 having a rectangular shape in plan view, and the discharge sheet portion 24 is the other side parallel to the end side. Projects along the edge. In the following, when distinguishing from the back side sheet part 21, the main body sheet part 200 is referred to as the front side main body sheet part 200, the blowing sheet part 22 is referred to as the front side blowing sheet part 22, and the discharge sheet part 24 is referred to as the front side discharge. The sheet portion 24 will be described.

  Similarly to the front side, the back side sheet portion 21 has a main body sheet portion 210 having a rectangular shape in plan view that is the same size as the front side main body sheet portion 200 (in this embodiment, a rectangular shape in plan view that is long in one side), and the main body sheet portion 210. A blowing sheet part 23 linearly projecting outward from a part of the outer edge of the sheet, and a discharging sheet part 25 projecting linearly outward from another part of the outer edge of the main body sheet part 210 It consists of The blowing sheet portion 23 is formed in a rectangular shape in plan view so as to correspond to the front blowing sheet portion 22 (in the present embodiment, a rectangular shape in plan view that is longer in one side). Further, the discharge sheet portion 25 is formed in a rectangular shape in plan view (in the present embodiment, a rectangular shape in plan view that is longer in one side) so as to correspond to the front-side discharge sheet portion 24.

  The main body sheet part 210 having a rectangular shape in plan view has a blowing sheet part 23 protruding from one corner corresponding to the front blowing sheet part 22 among the four corners, and the other corresponding to the front discharging sheet part 24. The discharge sheet portion 25 protrudes from one corner. In the present embodiment, the blowing sheet so as to correspond to the front blowing sheet portion 22 and the front discharging sheet portion 24 at the two corners positioned on the diagonal line of the main body sheet portion 210 having a rectangular shape in plan view. A portion 23 and a discharge sheet portion 25 are arranged. In the following, when distinguishing from the front side sheet part 20, the main body sheet part 210 is referred to as the back side main body sheet part 210, the blowing sheet part 23 is referred to as the back side blowing sheet part 23, and the discharge sheet part 25 is discharged from the back side. The sheet portion 25 will be described.

  The breath storage part 15 of the main body 10 overlaps the front-side main body sheet part 200 and the back-side main body sheet part 210, and the overlapping outer edges are continuous with the blowing sheet parts 22 and 23 and the discharge sheet parts 24 and 25. It is formed by sealing over the entire circumference except for the part to be performed.

  The blowing projection 13 is formed by overlapping the front blowing sheet portion 22 and the back blowing sheet portion 23 and sealing the overlapping end portions. At this time, an unsealed part slightly wider than the diameter of the blowing pipe 3 is formed between both end portions of the front blowing sheet part 22 and the back blowing sheet part 23. It becomes the insertion gap S1 for inserting the blowing pipe 3 and passing it to the exhalation storage part 15. The insertion gap S <b> 1 is formed in a straight line, and has one end communicating with the exhalation storage portion 15 and the other end serving as a blowing port 11 that can be opened to the outside. As shown in FIG. 4, the insertion gap S <b> 1 has a width L <b> 1 of, for example, 8.0 mm and a length L <b> 2 of, for example, 20.0 mm.

  Here, the back-side blowing sheet portion 23 includes a blowing tube guide portion 5 that protrudes outward from a part of the peripheral edge of the blowing port 11. Specifically, the back blowing sheet portion 23 is formed longer than the front blowing sheet portion 22 by a length L3 in the protruding direction (L3 = 5 mm in this embodiment). As a result, the blowing port 11 is formed between the front end of the front blowing sheet portion 22 and a position behind the leading end of the back blowing sheet portion 23 (on the side of the breath storage portion 15). And the part from the front-end | tip to the location which makes the blowing port 11 among the back side blowing sheet parts 23 functions as a guide when the blowing tube 3 is inserted into the blowing port 11. It has become.

  Similarly to the blowing side, the discharge protrusion 14 is formed by overlapping the front discharge sheet portion 24 and the back discharge sheet portion 25 and sealing the overlapping end portions. At this time, an unsealed portion slightly wider than the diameter of the discharge pipe 4 is formed between both end portions of the front-side discharge sheet portion 24 and the back-side discharge sheet portion 25. Is inserted into the exhalation storage part 15 and becomes the insertion gap S2. The insertion gap S2 is formed in a straight line, and has one end communicating with the exhalation storage portion 15 and the other end serving as a discharge port 12 that can be opened to the outside. The insertion gap S2 has a width L4 of, for example, 6.0 mm and a length L5 of, for example, 20.0 mm.

  The back side discharge sheet portion 25 includes a discharge pipe guide portion 6 protruding outward from a part of the periphery of the discharge port 12. Specifically, the back side discharge sheet portion 25 is formed longer than the front side discharge sheet portion 24 by a length L6 in the protruding direction (L6 = 5 mm in this embodiment). As a result, the discharge port 12 is formed between the front end of the front discharge sheet portion 24 and a position behind the front end of the back discharge sheet portion 25 (on the side of the breath storage portion 15). And the part from the front-end | tip to the location which makes the discharge port 12 among the back side discharge | emission sheet | seat parts 25 is the discharge pipe guide part 6 which functions as a guide when inserting the discharge pipe 4 in the discharge port 12. FIG.

  In the breath collection bag 1 of the present embodiment, the total length L7 in the longitudinal direction of the front side seat portion 20 is, for example, 190 mm, and the total length L8 in the lateral direction of the front side seat portion 20 is, for example, 120 mm. And the full length L9 of the back side sheet | seat part 21 in the longitudinal direction is 200 mm, for example, and the full length L10 of the transversal direction of the back side sheet | seat part 21 is 120 mm, for example. In addition, although it is preferable that the expiration | expired_air collection bag 1 of this embodiment is a thing of the dimension mentioned above, it is not limited to this dimension.

  In the exhalation collection bag 1 formed by sealing as described above, the front side seat portion 20 is provided on the front side of the exhalation storage portion 15, the blowing projection 13, the discharge projection 14, the blow port 11 and the discharge port 12. The back side seat portion 21 integrally has the breath storage portion 15, the blowing projection portion 13, the discharge projection portion 14, the blow port 11, and the back side of the discharge port 12. And in this exhalation collection bag 1, the projection 13 for blowing (namely, blowing port 11) is located in one of the two corners located on the diagonal of the main body 10 that is substantially rectangular in plan view. On the other hand, the discharge protrusion 14 (that is, the discharge port 12) is located.

  In the exhalation collection bag 1 of this embodiment described above, the insufflation port 11 and the discharge port 12 of the exhalation collection bag 1 are formed by a part of the bag-shaped main body 10 formed of the flexible sheet material 2. Yes. Therefore, in the exhalation collection bag 1 of the present embodiment, the manufacturing process for attaching the inlet 11 and the outlet 12 to the main body 10 can be omitted. Thereby, the breath collection bag 1 of the present embodiment can be easily manufactured at a low manufacturing cost.

  Moreover, in the breath collection bag 1 of the present embodiment, the breathing protrusion 13 and the discharge protrusion 14 are formed in a part of the main body 10, and therefore the breath storage part 15 and the breathing protrusion 13. It is difficult for problems such as pinholes and cracks to occur in the region between the two and the portion between the breath storage portion 15 and the discharge protrusion 14.

  In addition, the breath collection bag 1 has a front sheet portion 20 and a back sheet portion 21 that are substantially the same size and overlap each other, and a portion excluding the blowing port 11 and the discharge port 12 in the entire outer periphery of the overlapped outer edge. Can be easily manufactured by simply sealing at a time. Therefore, the breath collection bag 1 is inexpensive and easy to be disposable.

  In addition, the breath collection bag 1 of the present embodiment uses the breath collection bag 1 by inserting the blow-in pipe 3 and the discharge pipe 4, and in the state before use, the blow-in pipe 3 and the discharge pipe 4. It is not easy to store because it is not bulky.

  Further, in the breath collection bag 1 of the present embodiment, the blowing port 11 is formed at the tip of the blowing protrusion 13 that protrudes a part of the main body portion 10 outward, and the other portion of the main body portion 10 is formed. Since the discharge port 12 is formed at the distal end of the discharge projecting portion 14 that protrudes toward the outside, the blow-in port 11 and the discharge port 12 are arranged away from the exhalation storage unit 15 in which end exhalation is stored. be able to. Therefore, in the exhalation collection bag 1 of the present embodiment, end exhalation is stored in the exhalation storage unit 15, and the exhalation storage unit 15 is passed through the insufflation port 11 and the exhaust port 12 in a state where the insufflation tube 3 and the exhaust tube 4 are removed. It is possible to prevent the end exhalation from flowing out and the atmosphere from flowing into the exhalation storage unit 15.

  In addition, in the breath collection bag 1 of the present embodiment, the blowing tube guide portion 5 is provided at the tip of the blowing projection 13 so that the blowing tube 3 is blown when the blowing tube 3 is inserted into the blowing port 11. The tip of the tube 3 can be applied to the blowing tube guide portion 5 and inserted into the blowing port 11. Thereby, in the expiration | expired_air collection bag 1 of this embodiment, it becomes easy to insert in the blowing inlet 11 of the blowing tube 3.

  Further, in the breath collection bag 1 of the present embodiment, the discharge pipe guide portion 6 is provided at the tip of the discharge protrusion 14 so that when the discharge pipe 4 is inserted into the discharge port 12, the tip of the discharge pipe 4 is moved. It can be inserted into the discharge port 12 against the discharge pipe guide portion 6. Thereby, in the breath collection bag 1 of this embodiment, it becomes easy to insert into the discharge port 12 of the discharge pipe 4.

  In addition, in the breath collection bag 1 of the present embodiment, the air inlet 11 is arranged at one of the two corners located on the diagonal line of the main body 10 having a substantially rectangular shape in plan view, and the outlet 12 is provided at the other. It is arranged. Therefore, in the exhalation collection bag 1 of the present embodiment, the exhaled air that has been blown from the blowing port 11 circulates in the exhalation storage unit 15 and easily flows to the discharge port 12. It is difficult to do. As a result, the exhalation collection bag 1 of the present embodiment makes it difficult for the exhaled breath (the exhaled breath in the dead space) to remain in the stagnation area, and the exhaled breath that is initially blown out easily from the discharge port 12. The end expiration is easily stored in the expiration storage unit 15. If the inhalation port 11 is formed at an intermediate portion between two corners of the breath collection bag 1 side by side, when exhalation is blown from the insufflation port 11, the stagnation of exhalation in the vicinity of these two corners A portion is formed, and the exhaled breath that is blown in first becomes difficult to be discharged from the discharge port 12.

  In addition, since the breath collection bag 1 of the present embodiment is in a state in which the blow tube 3 is inserted and used, the blow tube 3 that touches the user's mouth is disposable, and the breath collection bag 1 is reused by washing and drying. It can also be used. Here, as a method of cleaning the exhalation collection bag 1, for example, high purity nitrogen gas from the blowing port 11 or the discharge port 12 in a state where the exhalation collection bag 1 is put in a dryer heated to 50 to 70 ° C. Is introduced for 3 hours. As a result, moisture in the exhaled breath accumulated in the exhalation collection bag 1 can be dried, and the gas adsorbed on the inner wall of the exhalation collection bag 1 can be replaced with nitrogen, which can be reused. In addition, in the case where a cylindrical body that attaches the user's mouth to the container body is attached like the breath collection container of the conventional example, in order to reuse, the cylindrical body must be sterilized, which is very expensive. It becomes.

  In a commercially available Tedlar bag (material is vinyl fluoride resin (PVF)) or polyester sampling bag that is generally used for collecting end-tidal breaths, the concentration of the breath is large because the collected breath components are absorbed by the bag material. There was a problem. For this reason, for example, while collecting end exhalation in a hospital and transporting the end exhalation to a place where the analyzer is located, the concentration of the exhaled breath component is often attenuated, and the exhalation component cannot often be measured accurately. However, the breath collection bag 1 of the present embodiment is made of a linear low-density polyethylene or a vinyl alcohol-based polymer, so that gas that becomes a disturbing factor when measuring the breath component is less likely to be generated from the bag body. The exhaled air stored inside is difficult to be absorbed by the bag body. Therefore, in the breath collection bag 1 of the present embodiment, the concentration of the breath component in the breath collection bag 1 is difficult to attenuate. Thereby, the exhalation collection bag 1 of this embodiment can measure an exhalation component more correctly at the time of exhalation component measurement compared with a commercially available Tedlar bag or a sampling bag. In addition, the exhalation collection bag 1 of the present embodiment can easily measure the exhalation component accurately even after about 7 days since the end exhalation was collected.

  In the exhalation collection bag 1 of the above-described embodiment, the exhalation storage unit 15 may have a gusset. Moreover, although the planar view shape of the breath collection bag 1 of the above-described embodiment is a substantially rectangular shape, it may be a circle, a triangle, a polygon, a shape close to these, or a shape constituted by an arbitrary curve. Good. In that case, the arrangement of the blowing port 11 and the discharge port 12 in the breath collection bag 1 is provided as far as possible so that the exhaled breath that flows from the blowing port 11 to the discharge port 12 flows easily. It is preferable to make it difficult to create a place where breathing occurs.

  Then, an example of the usage method of the expiration | expired_air collection set 100 of this embodiment is demonstrated. As shown in FIG. 2 (a), the user inserts the blowing tube 3 from the blowing port 11 of the breath collection bag 1 until the tip is located in the breath storage part 15, and from the discharge port 12 to the discharge tube 4 Is inserted until its tip is located in the exhalation storage part 15. Note that the blowing tube 3 and the discharge tube 4 may be inserted so that the tips thereof are positioned in front of the exhalation storage unit 15.

  Subsequently, exhalation is blown into the exhalation collection bag 1 from the blowing tube 3 until the breath expires. At this time, while the exhalation collection bag 1 is inflated, the exhaled breath that has been blown first (exhaled in the dead space) is discharged from the discharge pipe 4, and the end exhalation remains in the exhalation storage unit 15.

  Next, as shown in FIG. 2 (b), the blowing tube 3 and the discharge tube 4 are pulled out from the breath collection bag 1. At this time, by holding the blowing protrusion 13 so as to be pinched by hand, the two overlapping blowing sheet portions 22 and 23 are in close contact with moisture in the exhaled air, and if there is a short time, there is a difference. Sealing gap S1 can be sealed and stored in a state in which exhaled breath in exhalation collection bag 1 does not leak out. Similarly, by pressing the discharge protrusion 14 so as to be pinched by hand, the two overlapping discharge sheet portions 24 and 25 are brought into close contact with moisture in the exhalation, and for a short time, for insertion. The gap S2 can be sealed and stored in a state where exhaled breath in the exhalation collection bag 1 does not leak out. That is, the breath collection bag 1 of the present embodiment can be easily sealed by simply pulling out the blow tube 3 and the discharge tube 4 after the breath is blown to the end, and is very easy to use. It has become.

  Next, in the blowing protrusion 13, the two blowing sheet portions 22 and 23 are, for example, thermocompression bonded, bonded, or sandwiched between sealing clips, thereby completely sealing the insertion gap S <b> 1. . When sealed by thermocompression bonding, even if pressure is applied to the exhalation collection bag 1, it is difficult for the exhalation inside to leak out, which is very effective during transportation. In addition, since the blowing protrusion 13 is made of a sheet material, it can be bent. Therefore, the blowing protrusion 13 that is in close contact with moisture is bent in, for example, two steps and stopped with a clip from above. Thus, it is possible to more reliably prevent the exhalation in the exhalation collection bag 1 from leaking outside. Further, by folding the blowing protrusion 13 on the main body 10 and fixing the blowing protrusion 13 to the main body 10 with an adhesive tape or the like, the insertion gap S1 is completely sealed. May be. The insertion gap S <b> 2 is completely sealed also in the discharge protrusion 14 by the same means as the blowing protrusion 13.

  In the exhalation collection bag 1 of the present embodiment, when exhalation is blown into the exhalation collection bag 1 from the insufflation tube 3 as described above, It will be in the state pressurized from the inside by the exhaled breath (end exhalation) stored inside. Therefore, in the breath collection bag 1 of the present embodiment, there is no fear that air enters from the outside through the blowing port 11 and the discharging port 12, and a check valve is not necessary for the blowing protrusion 13 and the discharging protrusion 14. It has become a thing.

  Further, the breath collection bag 1 of the present embodiment is pressurized from the inside by the exhalation (end exhalation) stored inside the exhalation storage unit 15 and immediately after the blowing tube 3 and the discharge tube 4 are pulled out, FIG. It becomes the mode shown in. At this time, the unsealed portion 202 at a location adjacent to the seal portion 201 of the front side body sheet portion 200 and the unsealed portion 212 at a location adjacent to the seal portion 211 of the back side body sheet portion 210 are pressurized in a direction away from each other. The Thereby, the location where the exhalation storage part 15 and the blowing protrusion 13 communicate is sealed. Similarly, the place where the breath storage part 15 and the discharge protrusion 14 communicate with each other is sealed. Therefore, in the exhalation collection bag 1 of this embodiment, even if it is not thermocompression bonded, bonded, or sandwiched between sealing clips, the exhalation bag 15 can be used for insufflation by exhaling (ending exhalation) that pressurizes the exhalation storage unit 15 from the inside. The insertion gap S1 of the protrusion 13 and the insertion gap S2 of the discharge protrusion 14 can be sealed for a short time.

  As described above, the exhalation collection set 100 of the present embodiment can collect end exhalation. The exhalation collection bag 1 that collects end exhalation can measure the components of the end exhalation collected at a place (such as a hospital or a laboratory) where an inspection device is located.

  The end exhalation in the exhalation collection bag 1 is extracted for inspection by, for example, sucking it by inserting a needle of a syringe. Here, when the terminal breath is extracted a plurality of times from one breath collection bag 1 using a syringe, the needle hole formed by the needle of the syringe is sealed by attaching a cellophane tape or the like for a short time. . When the needle hole is sealed for a long time, it is crushed by thermocompression bonding or the like.

  In addition to the syringe, a Teflon (registered trademark) tube or the like having the same diameter as the discharge tube 4 or the blow tube 3 is inserted into the blowing projection 13 or the discharging projection 14, and this Teflon (registered trademark) tube is inserted. The end exhalation may be extracted from the exhalation collection bag 1 a plurality of times. Here, the Teflon (registered trademark) tube may be sealed with a clip each time the end-expired breath is extracted. Moreover, you may make it seal with a cock using a Teflon (trademark) tube with a cock.

  Examples of usage of the breath collection set 100 of the present embodiment described above include the following.

For example, by analyzing the concentration of acetone in the end-expired breath, it is possible to manage the condition of a diabetic patient, manage the diet of a patient who needs a diet, and monitor fat burning when an exercise load is applied. In addition, the alcohol metabolism function can be evaluated by analyzing the alcohol (ethanol) concentration and the acetaldehyde concentration in the terminal breath after drinking. In addition, lipid metabolism can be monitored by analyzing isoprene in end-tidal air. In addition, by measuring carbon monoxide (CO) in end-expiration, it is possible to investigate smoking habits and monitor smoking cessation status. In addition, by measuring the concentration of hydrogen (H ₂ ) in end-tidal air, it is possible to monitor the intestinal bacterial activity status.

  The exhalation collection bag 1 is not limited to the shape shown in FIG. FIG. 8 illustrates the breath collection bag 1 of the second and third embodiments.

  In the exhalation collection bag 1 of the second embodiment shown in FIG. 8A, the injecting protrusion 13 from a position shifted inward from the two corners located on the diagonal line of the exhalation storage part 15 having a rectangular shape in plan view. And the discharge protrusions 14 protrude. A distance L11 from one end in the short side direction of the front side main body sheet portion 200 to the insertion gap S1 is, for example, 10 mm. Moreover, the distance L12 from the other end of the front side main body sheet portion 200 in the short direction to the insertion gap S2 is, for example, 10 mm. The width L1 of the insertion gap S1 and the width L4 of the insertion gap S2 are the same width, for example, 6 mm. In the breath collection bag 1 of the second embodiment, the length L2, the length L3, the length L5, the length L6, the full length L7, the full length L8, the full length L9, and the full length L10 are the same as the breath collection bag 1 of the first embodiment. It is. In addition, although it is preferable that the breath collection bag 1 of 2nd embodiment is a thing of the dimension mentioned above, it is not limited to this dimension.

  Further, in the exhalation collection bag 1 of the third embodiment shown in FIG. 8B, from both ends of one long side of the four end sides of the exhalation storage part 15 having a rectangular shape in plan view (long rectangular shape on one side). The blowing protrusion 13 and the discharge protrusion 14 protrude from the inwardly displaced locations. The blowing protrusion 13 and the discharge protrusion 14 are integrally formed on this one long side. The blowing protrusion 13 and the discharge protrusion 14 protrude in the same direction in parallel with the longitudinal direction of the short side of the exhalation storage part 15. A distance L13 from one end in the longitudinal direction of the front side main body sheet portion 200 to the insertion gap S1 is, for example, 20 mm. Further, a distance L14 from the other end in the longitudinal direction of the front side main body sheet portion 200 to the insertion gap S2 is, for example, 20 mm. The width L1 of the insertion gap S1 and the width L4 of the insertion gap S2 are the same width, for example, 6 mm. The length L2 of the insertion gap S1 and the length L5 of the insertion gap S2 are, for example, 30 mm. The total length L7 in the longitudinal direction of the front side sheet portion 20 is, for example, 160 mm, and the total length L8 in the short direction of the front side sheet portion 20 is, for example, 135 mm. And the full length L9 of the back side sheet | seat part 21 in the longitudinal direction is 160 mm, for example, and the full length L10 of the transversal direction of the back side sheet | seat part 21 is 140 mm, for example. In the breath collection bag 1 of the third embodiment, the length L3 and the length L6 are the same as those of the breath collection bag 1 of the first embodiment. In addition, although it is preferable that the breath collection bag 1 of 3rd embodiment is a thing of the dimension mentioned above, it is not limited to this dimension.

  In the exhalation collection bags 1 of the second and third embodiments, the blowing protrusion 13 and the discharging protrusion 14 are provided at locations close to the corners of the breath storage part 15 having a rectangular shape in plan view. Therefore, the exhaled air that has been blown from the blowing port 11 circulates in the exhalation storage unit 15 and easily flows to the discharge port 12, so that it is difficult to create a stagnation place in the exhalation storage unit 15. Thereby, in the exhalation collection bag 1 of the second and third embodiments, the exhaled breath (the exhaled breath in the dead space) is not likely to remain in the stagnation area. It is easy to discharge, and end exhalation can be easily stored in the expiration storing unit 15.

  Although the present invention has been described based on the embodiments shown in the accompanying drawings, the present invention is not limited to the above-described embodiments, and appropriate design changes can be made within the intended scope of the present invention. Is possible.

DESCRIPTION OF SYMBOLS 1 Exhalation collection bag 2 Sheet | seat material 3 Blowing pipe 4 Draining pipe 5 Blowing pipe guide part 6 Drain pipe guide part 10 Main body part 11 Blowing port 12 Outlet 13 Blowing protrusion 14 Draining protrusion 22 For blowing Seat part (front side blowing seat part)
23 Blowing sheet part (back side blowing sheet part)
24 discharge sheet (front discharge sheet)
25 Ejecting sheet part (Back side ejecting sheet part)
100 exhalation collection set

Claims (8)

A bag-shaped main body formed of a flexible sheet material;
A blowing port formed by a part of the main body portion and formed so that a blowing tube is inserted,
An exhalation collection bag, comprising: a discharge port formed by another part of the main body portion and formed so that a discharge pipe is inserted. A projecting part for blowing formed by a part of the main body part and projecting outward;
A discharge protrusion formed on the other part of the main body and protruding outward;
Having the blowing port at the tip of the blowing projection,
The breath collection bag according to claim 1, wherein the discharge port has the discharge port at a distal end portion of the discharge protrusion.   The blowing protrusion is formed of two blowing sheets, and the blowing pipe guide protrudes outward from a part of the peripheral edge of the blowing port to one of the blowing sheets. The breath collection bag according to claim 2, further comprising:   The discharge protrusion is formed of two discharge sheet portions, and one discharge sheet portion includes a discharge pipe guide portion protruding outward from a part of the peripheral edge of the discharge port. The breath collection bag according to claim 2 or 3.   The breath collection bag according to any one of claims 1 to 4, wherein a material of the sheet material is vinyl alcohol polymer or linear low density polyethylene. The breath collection bag according to any one of claims 1 to 5,
The blowing pipe used by being inserted into the blowing opening;
An exhalation collection set comprising: the exhaust pipe used by being inserted into the exhaust port.   The breath collection set according to claim 6, wherein an inner diameter of the discharge pipe is smaller than an inner diameter of the blowing pipe.   The breath collection set according to claim 6, wherein an inner diameter of the exhaust pipe is equal to an inner diameter of the blowing pipe, and the inner diameter is 4 mm or less.

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