JP3633338B2 - Test liquid preparation method for allergen measurement and test liquid preparation apparatus for allergen measurement - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an allergen measurement test liquid preparation method and an allergen measurement test liquid preparation apparatus for preparing a test liquid necessary for analyzing the concentration of allergen contained in dust.
[0002]
[Prior art]
In recent years, allergic rhinitis such as hay fever, allergic bronchial asthma, and atopic dermatitis such as allergic rhinitis, which is caused by allergen, which is a kind of antigen, has been increasing mainly in developed countries. Various constituents such as pollen, animal hair, and mold have been identified as causative substances. These allergic symptoms may be relatively mild but may be severe enough to cause death, such as allergic bronchial asthma. For this reason, as one means for suppressing sensitization and onset, it is necessary to maintain the allergen that is a causative agent specific to each individual at a low level. However, at present, allergen measurement is considered to be a relatively difficult and advanced technology, requires a specialized measurement engineer, requires a long measurement time from half a day to one day, and requires an expensive measurement device. By the way, it is known that the allergen concentration in the environment and sensitization / onset of allergic diseases generally correlate. Measuring the allergen concentration in the environment can be an index of how often and how often cleaning, washing, etc. should be performed, and it is a social life for allergic patients and those at risk of sensitization. It will be useful. In addition, it is generally known that the concentration of IgE antibody in the blood of patients with allergic diseases is an indicator of the degree of sensitization of type I allergy of immediate allergic reaction, and measurement of the concentration of IgE antibody in blood is sensitized. It is extremely useful as an index for knowing the extent of allergic diseases.
[0003]
These allergens exist in the environment where each individual spends a long time, for example, adheres to dust or exists alone, and if these allergens can be analyzed in each individual's home / workplace, etc. This is useful because it can be easily handled. In order to realize this home analysis, it is necessary to establish a measurement method, a method for preparing a test liquid for measurement, and a means for realizing the method.
[0004]
Here, a conventional method for preparing a test solution for allergen measurement and means for realizing the method will be described. For example, when preparing a test liquid for measuring mite allergen for the purpose of analysis by an immunological method or the like, the following operations (1) to (3) are performed.
[0005]
(1) A certain area of the tatami mat and carpet is sucked with a vacuum cleaner for a certain period of time to collect dust.
[0006]
(2) The collected dust is taken out, immersed in a buffer solution, and extracted while performing a stirring operation.
[0007]
(3) In order to remove an inhibitory component at the time of measurement from the above extract, separation is performed to obtain a test solution.
[0008]
For example, Japanese Patent Laid-Open No. 8-313406 describes collecting dust on a sponge body installed on the suction side of a vacuum cleaner, and further, Japanese Patent Laid-Open No. 8-178807 is provided on the suction side of a vacuum cleaner. A method is described in which dust is collected by a sponge body, the sponge body is housed in a storage container containing an extract, and a test liquid for measuring mite allergen is prepared by hand swallowing from the outside.
[0009]
[Problems to be solved by the invention]
By the way, the above-described conventional method for preparing a test liquid for measuring mite allergen has the following four problems.
[0010]
(1) Dust is exposed and dust rises when the collector that collects the dust is transferred to the extract, so that the operator may inhale allergens that are attached to the dust or are present alone or touch the dust. It is uncomfortable and unsanitary.
[0011]
(2) It takes time and effort to extract the collected body, which has collected dust, to the extraction liquid, and by extracting the extraction liquid by hand.
[0012]
(3) Since the extraction liquid is extracted by manually squeezing it, a certain allergen cannot be extracted, which causes measurement errors.
[0013]
(4) Since dust directly touches the extract, a fine suspended substance is contained in the test liquid for measurement, which causes a measurement error.
[0014]
For these reasons, collection conditions, extraction conditions, and separation conditions can be made constant, and a series of allergen measurement test liquids must be prepared in a sanitary, simple, accurate, and inexpensive manner. Has been.
[0015]
The present invention provides a test solution for allergen measurement for making a series of test solutions for allergen measurement hygienic, simple, highly accurate and inexpensive at constant collection conditions, extraction conditions, and separation conditions. Allergens that can be made in a hygienic, simple, accurate, and inexpensive manner, making the preparation method and the collection conditions, extraction conditions, and separation conditions constant. It aims at providing the test liquid preparation apparatus for a measurement.
[0016]
[Means for Solving the Problems]
In order to solve the above-described problems, the method for preparing a test liquid for allergen measurement according to the present invention includes a collecting step of capturing dust with a sampling filter, and contacting the sampling filter with the extract to suspend the captured dust. The extraction liquid is agitated by mixing air and the allergen contained in the captured dust is extracted into the extraction liquid, and the allergen extracted dust is separated from the extraction liquid by the sampling filter and the allergen is dissolved. And a separation step for preparing the test liquid.
[0017]
This makes it possible to create a series of test solutions for allergen measurement in a hygienic, simple, accurate and inexpensive manner with constant collection conditions, extraction conditions, and separation conditions. A method is obtained.
[0018]
In order to solve the above problems, the allergen-measuring test liquid preparation device of the present invention is provided with a sampling filter, and is capable of separating dust from air containing dust by suction from the exhaust side; When the exhaust part of the extractor that can communicate with the extractor and the exhaust side of the dust reservoir is immersed in the extractor in the extractor, the extract is transferred into the dust reservoir by suction from the opposite direction. It has a configuration having a fan that comes into contact with dust.
[0019]
As a result, the collection conditions, extraction conditions, and separation conditions can be made constant, and the preparation of a series of allergen measurement test solutions can be performed hygienically, easily, accurately, and inexpensively. A test liquid preparation apparatus is obtained.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
The method for preparing a test liquid for allergen measurement according to claim 1 of the present invention includes a collection step of capturing dust with a sampling filter, and bringing the sampling filter into contact with an extract to suspend the captured dust. , The extraction liquid is agitated by mixing air and the allergen contained in the trapped dust is extracted into the extraction liquid, and the dust after the allergen extraction is separated from the extraction liquid by the sampling filter to dissolve the allergen And a separation step for preparing a test solution. Dust is collected by a sampling filter, allergen is extracted into the extract by air agitation, and the test solution for allergen measurement is extracted by the sampling filter. Since they are separated, the collection conditions, extraction conditions, and separation conditions are constant, and support is maintained without touching the allergen. By allergen measuring the sample liquid is prepared by pulling filter, hygienic creation of a series of allergen measurement test solution, easily, it has the effect of enabling high precision.
[0021]
The allergen measurement test liquid preparation method according to claim 2 is the allergen measurement test liquid preparation method according to claim 1, wherein the sampling filter has one of a net shape and a nonwoven fabric shape. Alternatively, both have a combined shape, and the sampling filter has a high aperture ratio, so the ventilation resistance is low, the power required for collection can be set small, and the test solution for allergen measurement can be created at low cost. Has the effect of being performed.
[0022]
The test liquid preparation method for allergen measurement according to claim 3 is the test liquid preparation method for allergen measurement according to claim 1 or 2, wherein the sampling filter is cellulose, polypropylene, nylon, fluororesin, polyethylene, Since it is made of any one material of polystyrene, acrylic resin, stainless steel, titanium, iron, copper, or a composite material of a plurality of materials, it is made of a versatile material. The preparation of the test solution is performed at low cost, simply and with high accuracy.
[0023]
The allergen measurement test liquid preparation method according to claim 4 is the allergen measurement test liquid preparation method according to any one of claims 1 to 3, wherein the sampling filter can capture a particle size. It is determined to be 1 μm or more and 100 μm or less, and it can capture most allergens without causing excessive resistance to inspiration, and can minimize the power for suction. Therefore, the test solution for measuring allergen is produced at low cost.
[0024]
The test liquid preparation device for allergen measurement according to claim 5 is provided with a sampling filter, and a dust reservoir that can separate dust from air containing dust by suction from the exhaust side; An extract storage tank for storing the extract, Open air and The extract reservoir and When the exhaust part of the extractor that can communicate with the extractor and the exhaust side of the dust reservoir is immersed in the extractor in the extractor, the extract is transferred into the dust reservoir by suction from the opposite direction. It has a fan that comes into contact with dust, and dust is collected in the dust reservoir by suction from the exhaust side of the sampling filter, and this exhaust side is immersed in the extract, and the dust and extract are removed from the fan. Therefore, the sampling and separation conditions can be stabilized by a sampling filter with a certain degree of supplementary accuracy, and the test solution for allergen measurement can be obtained by the sampling filter without touching the allergen. Since it can be prepared, it has the effect that a series of allergen measurement test liquids can be prepared hygienically, simply and with high accuracy.
[0025]
The test liquid preparation device for allergen measurement according to claim 6 is provided with a sampling filter, and when dust-containing air is sucked from the exhaust side, dust is collected and the exhaust side is immersed in the extract. A dust reservoir that can mix the extract and the dust collected by sometimes sucking the extract from the intake side; An extract storage tank for storing the extract, Open air and The extract reservoir and It has an extraction section through which the extract can be introduced, an internal flow path that can be selectively connected to the dust storage section and the extraction section by switching means, and a fan provided in the internal flow path, and is connected to the dust storage section When the internal flow path is selected, dust is collected in the dust reservoir by the fan, the internal flow path connected to the extraction section is selected, and the internal flow path connected to the extraction section is connected to the intake side of the dust storage section. In this case, the extract is transferred to the dust reservoir by the fan and the dust and the extract are agitated. The dust collecting operation and the dust / extract agitating operation can be easily switched, and a series of operations are performed. It has the effect that the preparation of the test solution for allergen measurement can be performed hygienically, simply and with high accuracy.
[0026]
The allergen measurement test fluid preparation device according to claim 7 is the allergen measurement test fluid preparation device according to claim 6, wherein the internal flow path is provided with a mounting portion for mounting the dust reservoir. In addition, a connection portion is provided on the intake side of the dust reservoir, and when the internal flow path connected to the extraction portion is selected, the dust reservoir is connected to the internal flow passage connected to the extraction portion by the connection portion. Thus, the dust reservoir is easily attached and connected, and the configuration of the internal flow path can be facilitated.
[0027]
The test liquid preparation apparatus for allergen measurement according to claim 8 is the test liquid preparation apparatus for allergen measurement according to any one of claims 5 to 7, The extract storage tank communicates with the extraction unit through a valve, and the valve is opened to open the extract storage tank. Internal extract Before Since the extract can be automatically supplied after dust is collected, the test for allergen measurement can be performed hygienically and easily without the user touching the dust. It has the effect | action that preparation of a liquid can be performed.
[0028]
A test liquid preparation device for allergen measurement according to claim 9 is the test solution preparation device for allergen measurement according to any one of claims 5 to 8, wherein an extract that has contacted the allergen is Power The sampling filter is used to separate the allergen-extracted dust from the allergen-extracted test liquid, and the extract can be automatically supplied after the dust is collected. In addition, the extract can be prepared in a sanitary and simple manner without the user touching the dust.
[0029]
The test liquid preparation device for allergen measurement according to claim 10 comprises the control unit for controlling the fan in the test liquid preparation device for allergen measurement according to any one of claims 5 to 9, wherein the control unit comprises: The dust collection, extraction and separation operations are performed automatically, and the collection conditions, extraction conditions, and separation conditions can be made constant by automatic control. The liquid can be produced with high accuracy and at a low cost.
[0030]
An allergen-measuring test liquid preparation device according to claim 11 is the allergen-measuring test liquid preparation device according to claim 10, further comprising a temperature holding device that holds the extraction temperature constant, and is automatically performed by a control unit. The temperature of the extraction liquid, which is a particularly important factor in the extraction conditions, can be kept constant, and the test liquid for allergen measurement can be created with high accuracy. In addition, by setting the temperature of the extract higher than the ambient temperature, the diffusion rate can be improved, and the extraction time can be shortened.
[0031]
The test liquid preparation device for allergen measurement according to claim 12 is the test liquid preparation device for allergen measurement according to claim 6, wherein the dust reservoir is placed in the extraction part with the exhaust side immersed in the extraction liquid. The dust is collected by suction from the exhaust side by the fan, and when the internal flow path connected to the extraction unit is selected by the switching means, the dust and the extraction liquid are stirred by suction from the suction side. In addition, the dust collecting operation and the dust / extracted liquid stirring operation can be easily performed by selecting the internal flow path by the switching means and sucking the fan.
[0032]
Hereinafter, embodiments and examples of the present invention will be described with reference to FIGS.
[0033]
(Embodiment 1)
FIG. 1 is a configuration diagram showing an allergen measurement test liquid preparation device according to Embodiment 1 of the present invention, and FIG. 2 is an allergen measurement test liquid preparation in the allergen measurement test liquid preparation device of FIG. Collection process explanatory view showing the collection process, FIGS. 3A to 3C are extraction process explanatory views showing the extraction process in the allergen measurement test liquid preparation in the allergen measurement test liquid preparation apparatus of FIG. 4 is an explanatory diagram of a separation process showing a separation process in the preparation of the test liquid in the test liquid preparation apparatus for allergen measurement in FIG.
[0034]
1 to 4, reference numeral 1 is a sampling nozzle that directly contacts dust, and 2 is for transferring dust sucked from the sampling nozzle 1 to a sampling filter 6 described later via an internal intake passage 4A described later. An external intake passage 3 is a screening filter for removing a relatively large dust that causes measurement errors. Reference numerals 4A to 4D denote internal intake passages (internal flow passages of the present invention). One end of the internal intake passage 4A is detachably connected to the external intake passage 2 by a taper connection or the like, and the other end is in an extraction liquid reservoir 7 described later. It is detachably connected to a dust reservoir 5 described later by a taper connection or the like, and is connected to the internal intake passage 4D between the two connection portions. One end of the internal intake passage 4B is connected to the extract reservoir 7 and the other end is connected to a collection / extraction switching valve 8 to be described later. One end of the internal intake passage 4C is connected to a collection / extraction switching valve 8, and the other end is detachably connected to a filter bag 10 described later via a filter bag fixing joint 9 described later. One end of the internal intake passage 4D is connected to the internal intake passage 4A, and the other end is connected to the collection / extraction switching valve 8. 5 is a substantially cylindrical dust reservoir (the dust reservoir portion of the present invention) to which a sampling filter 6 is fixed, 6 is a sampling filter for collecting, extracting and separating dust, and 7 is an allergen extracted from dust. An extraction liquid reservoir (extraction unit of the present invention) for storing the prepared test liquid, 8 is a collection / extraction switching valve (switching means of the present invention) for controlling the flow path of the internal intake passage, and 9 is a filter bag described later. 10 is a filter bag fixing joint for fixing 10, 10 is a filter bag for removing fine dust that could not be collected by the sampling filter 6, and 11 is a suction fan for generating suction force (the fan of the present invention). ), 12 is a final filter that removes fine dust that could not be collected by the filter bag 10, 13 is an exhaust port for discharging exhaust gas, 14 is an extract liquid storage tank for storing extract liquid, 1 Is an extract intake pipe for transferring and introducing the extract / intake, 16 is an extraction valve for controlling the transfer of the extract in the extract reservoir 14 to the extract reservoir 7, and 17 is created. An internal pipe for collecting a test liquid for taking out the test liquid, 18 a port for collecting a test liquid, 19 a syringe for collecting a test liquid, 20 a separation filter incorporating a filter for separation, and 21 A housing, 22 is a handle for moving the main body, 23 is a filter bag replacement door for replacing the filter bag 10, 24 is an extraction liquid reservoir maintenance door for maintenance of the extract liquid reservoir, and 25 is a movement of the main body. Transfer caster, 31 is an outlet, 32 is an electric wire, 33 is an AC / DC converter, 34 is a control unit for operating, automating and controlling the temperature of a series of suction devices, 35 is a calculation unit, and 36 is a switch Is As shown in FIGS. 1 to 4, the dust reservoir 5 has an open portion on the upper side, and is attached to a lower side so that the sampling filter 6 can come into contact with the extraction liquid.
[0035]
The function, operation | movement, etc. are demonstrated using FIGS. 2-6 about the test liquid preparation apparatus for an allergen measurement comprised as mentioned above. FIG. 5 is a cross-sectional view showing a dust reservoir and an extract reservoir of the allergen-measuring test fluid preparation apparatus of FIG. 1, and FIG. 6 is a graph showing a calibration curve of mite allergen rDerf II. In FIG. 5, the dust reservoir 5, the sampling filter 6 and the extract reservoir 7 are the same as those in FIG. 51 is an opening-forming leg for forming a gap for air and liquid to flow between the extract liquid reservoir 7 and the dust reservoir 5 in a state where the extract reservoir 7 and the dust reservoir 5 are installed, and 52 is a dust reservoir. A support 70 for fixing the sampling filter 6 to one end of 5 while maintaining air permeability and liquid permeability, and 70 is an extract.
[0036]
In FIG. 1, it is preferable to use, for example, a soft synthetic resin such as a bellows type for the external intake passage 2 so that dust sampling is easy. The screening filter 3 is detachable so that it can be easily cleaned. Then, by setting the minimum particle size captured by the screening filter 3 to 0.1 mm or more and 3 mm or less, relatively large dust that causes measurement errors in the collected dust is removed, and subsequent operations such as extraction are performed. Easy and stable. More preferably, it is the range of 0.2 mm or more and 1 mm or less. The shape can be any one of mesh, nonwoven fabric, etc., or a combination of both (plural types), and the materials are cellulose, polypropylene, nylon, fluororesin, polyethylene, polystyrene, acrylic resin, stainless steel, titanium, Any one of iron, copper and the like or a combination of a plurality of types can be used. As this composite form, it is conceivable that the screening filter 3 is composed of two or more layers, and the minimum particle size, material and shape captured by each layer are changed.
[0037]
The internal intake passages 4A to 4D, the dust reservoir 5, the sampling filter 6, the extraction liquid reservoir 7, and the collection / extraction switching valve 8 constitute the main components for extracting the allergen into the extraction liquid by agitation due to air mixing. The internal intake passages 4A to 4D, the dust reservoir 5, the sampling filter 6, and the extraction liquid reservoir 7 constitute the main components for separating the dust after the allergen extraction and the test liquid. By setting the minimum particle size captured by the sampling filter 6 to 1 μm or more and 100 μm or less, most of the allergens in the collected dust can be captured and applied to the separation operation after the extraction operation. it can. More preferably, it is the range of 10 micrometers or more and 60 micrometers or less. The shape of the sampling filter 6 can be any one of a mesh, a nonwoven fabric, etc., or a composite of a plurality of types, and the materials are cellulose, polypropylene, nylon, fluororesin, polyethylene, polystyrene, acrylic resin, stainless steel, Any one of titanium, iron, copper, etc., or a composite of a plurality of types can be used. As this composite form, the sampling filter 6 may be composed of two or more layers, and the minimum particle size, material, and shape captured by each layer may be changed. The sampling filter 6 can separate the dust sucked from the external intake pipe 2 when the extract reservoir 7 side is set to a negative pressure. However, after the extract is poured into the extract reservoir 7, the dust reservoir 5 side is reversed. When a negative pressure is applied, air can be mixed into the extract sent to the extract reservoir 7 and stirred. The collection / extraction switching valve 8 may be a manual valve or an automatic valve.
[0038]
By setting the minimum particle size captured by the filter bag 10 to 0.1 μm or more and 1 μm or less, fine dust that has passed through the sampling filter 6 and most of the allergen can be captured. More preferably, it is the range of 0.2 μm or more and 0.5 μm or less. The shape can be any one of multiple types such as mesh, nonwoven fabric, etc., and the material can be any of cellulose, polypropylene, nylon, fluororesin, polyethylene, polystyrene, acrylic resin, stainless steel, titanium, iron, copper, etc. A single type or a combination of multiple types can be used. As a composite form, it may be possible to change the minimum particle size, material, shape, etc. captured by each layer with two or more layers. In addition, it is preferable that the filter bag 10 has a structure in which the surface area is increased by applying a pleated shape, a bellows shape, or the like in order to reduce the airflow resistance, and the airflow resistance is preferably made as small as possible.
[0039]
The final filter 12 preferably has a structure in which the surface area is increased by applying a pleated shape, a bellows shape, or the like in order to reduce the airflow resistance. Then, by setting the minimum particle size captured by the final filter 12 to 0.1 μm or more and 1 μm or less, fine dust that has passed through the filter bag 10 and most of allergens can be captured. More preferably, it is the range of 0.2 μm or more and 0.5 μm or less. The shape can be any one of a mesh, a nonwoven fabric, etc., or a composite of a plurality of types. Cellulose, polypropylene, nylon, fluororesin, polyethylene, polystyrene, acrylic resin, stainless steel, titanium, iron, copper Any one of the above or a combination of a plurality of types can be used. As this composite form, the final filter 12 may be composed of two or more layers, and the minimum particle size, material, and shape captured by each layer may be changed. Further, in order to reduce the airflow resistance, it is preferable to apply a pleated or bellows-like form to increase the surface area and reduce the airflow resistance as much as possible. The final filter 12 can be omitted if the filter bag 10 can sufficiently capture allergens that should not be discharged.
[0040]
In FIG. 1, as described above, the extract storage tank 14, the extract intake pipe 15, and the extraction valve 16 constitute the main components for sending the extract. The extraction valve 16 is an automatic valve for automation. However, it may be a manual valve that switches manually. Further, as described above, the internal pipe 17 for collecting the test liquid, the port 18 for collecting the test liquid, the syringe 19 for collecting the test liquid, and the separation filter 20 are the main components for collecting the extract. The suction fan 11, the internal intake passages 4 </ b> A to 4 </ b> D, and the collection / extraction switching valve 8 selectively switch the collection / extraction switching valve 8 so that the dust reservoir 5 side and the extraction liquid reservoir 7 side are selectively negative. It is a suction device that makes pressure. The extraction liquid reservoir 7 side that is the exhaust side when the sampling filter 6 of the dust reservoir 5 collects dust is defined as the exhaust side of the dust reservoir 5. The direction opposite to this will be referred to as the suction side. Then, the test liquid collected in the extract liquid reservoir 7 is pulled by the piston of the test liquid sampling syringe 19 connected to the test liquid sampling internal pipe 17 via the test liquid sampling port 18 and the separation filter 20. Thus, a negative pressure is generated inside the test liquid collecting syringe 19, and the test liquid stored in the extract liquid reservoir 7 is transferred into the test liquid collecting syringe 19. At this time, the separation filter 20 separates the suspended substance in the test solution from the test solution.
[0041]
Here, the dust reservoir 5 and the extract reservoir 7 to which the sampling filter 6 is fixed will be described with reference to FIG. First, in the state of the extract in FIG. 5, the upper part of the dust reservoir 5 has a negative pressure, and most of the extract 70 initially filled in the extract reservoir 7 and the dust reservoir 5 is transferred to the dust reservoir 5 due to air mixing. Shows the state.
[0042]
Next, each step of preparing the test solution for allergen measurement will be described. In the allergen measurement test liquid preparation apparatus shown in FIG. 1, the test for the allergen measurement is performed in four steps: (1) collection process, (2) extraction process, (3) separation process, and (4) sampling process. Make a liquid.
[0043]
(1) Collection process
This is a process of collecting the dust to be measured on the sampling filter 6 under a certain condition. As shown in FIG. 2, a predetermined amount of the extract 70 is injected into the extract storage tank 14 with the extraction valve 16 closed in advance, and the collection / extraction switching valve 8 is connected to the internal intake passage 4B and the internal intake passage. Set so that 4C conducts. The suction fan 11 is activated by the switch 36 to generate a negative pressure, the sampling nozzle 1 is brought into contact with the measurement object for a certain period of time and under a constant area, and most of the dust adhering to the measurement object is externally applied. The air collected on the sampling filter 6 through the intake passage 2, the screening filter 3, the internal intake passage 4A, and the dust reservoir 5 and the most of the dust removed is further extracted into the extract reservoir 7 and the internal intake passage 4B. Then, it passes through the collection / extraction switching valve 8, the internal intake passage 4C, the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 and is discharged out of the system. At this time, the fine allergen is captured by the filter bag 10 or the final filter 12, and the allergen is not scattered outside the system.
[0044]
The extract 70 is a buffer having a pH buffering action for maintaining the pH constant and mainly suppressing the denaturation of the protein allergen, preferably a phosphate buffer, a borate buffer or the like. is there. More preferably, sodium chloride, potassium chloride, which has a function of maintaining a constant osmotic pressure in order to suppress denaturation of the allergen, which is mainly a protein, in a buffer, and extraction of allergen, which is a protein mainly by a surface-active action. It is appropriate to use a surfactant or the like having a function. Suitable surfactants include polyoxyethylene (20) sorbitan monolaurate, polyoxyethylene (80) sorbitan monolaurate, and the like. By setting the concentration of the surfactant to preferably 0.001 W / V% or more and 1 W / V% or less, allergens and the like can be efficiently extracted. More preferably, it is the range of 0.01 W / V% or more and 0.2 W / V% or less. Stable extraction can be achieved by setting the pH of the buffer to preferably 5 or more and 9 or less. More preferably, it is in the range of pH 6 or more and pH 8 or less. Moreover, the liquid volume and allergen density | concentration required for a measurement can be ensured by the liquid volume of the extract 70 being 1 mL (milliliter) or more and 200 mL or less. More preferably, it is in the range of 5 mL or more and 20 mL. Here, the amount of time required for collection is preferably 10 seconds or more and 10 minutes or less, whereby an amount necessary for measurement of dust and allergen can be collected under certain conditions. More preferably, it is the range of 30 seconds or more and 5 minutes or less. The area to be collected is preferably 0.1 m. ² 10m above ² By making it constant below, it is possible to collect an amount necessary for measuring dust and allergens under certain conditions. More preferably 0.5m ² 2m above ² The range is as follows.
[0045]
(2) Extraction process
This is a process of extracting the allergen from the dust to be measured into the extract 70 under a certain condition. The extraction process includes a first extraction process and a second extraction process.
[0046]
First, the first extraction process will be described. The first extraction step is a step of allowing the extract 70 to flow into the extract reservoir 7. With the suction fan 11 stopped by the switch 36, as shown in FIG. 3A, the extraction valve 16 is opened, and the extraction liquid 70 flows into the extraction liquid reservoir 7. Then, as shown in FIG. 3B, the extraction liquid reservoir 7 and the dust reservoir 5 are filled with the extraction liquid, and the dust on the sampling filter 6 is immersed in the extraction liquid 70. The collection / extraction switching valve 8 switches to a state in which the internal intake passages 4D and 4C are made conductive.
[0047]
Next, the second extraction process will be described. The second extraction step is a step of stirring the extract 70 by mixing air and extracting allergen from the dust trapped by the sampling filter 6. The suction fan 11 is activated by the switch 36 and is operated for a predetermined time. As shown in FIG. 3C, at this time, a part of the intake air enters from the opening for filling the extract provided in the upper part of the extract storage tank 14, and the extract intake pipe 15 and the extraction valve 16 are extracted. The extraction liquid reservoir 7 and thus the sampling filter 6 are reached, and most of the extraction liquid 70 is blown into contact with and agitated in a state where it has moved above the sampling filter 6, that is, into the dust reservoir 5. The exhaust gas passes through the internal intake passage 4A, the internal intake passage 4D, the collection / extraction switching valve 8, and the internal intake passage 4C through the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 to the outside of the system. Discharged. Part of the intake air flows from the sampling nozzle 1 and passes through the external intake passage 2, the internal intake passage 4D, the collection / extraction switching valve 8, and the internal intake passage 4C, the filter bag 10, the suction fan 11, and the final filter. 12. Passes through the exhaust port 13 and is discharged out of the system. At this time, the fine allergen is captured by the final filter 12, and the allergen is not scattered outside the system. At this time, if a filter having a specification that allows air to pass through the filter bag 10 but does not pass fine allergens, the final filter 12 can be omitted.
[0048]
Here, it is necessary to perform the stirring by mixing air described above with such strength that the extracted liquid does not move from the dust reservoir 5 to the suction side. If the agitation due to air mixing is too strong, the extract will flow out of the system. In view of this, it is possible to adjust the opening area of the opening for filling the extract provided in the upper part of the extract storage tank 14 so that the strength of stirring by mixing air can be adjusted. By installing it or installing a baffle plate on the inside upper part of the dust reservoir 5, it is possible to perform stirring by mixing air more stably. In addition to stirring by mixing air, various stirring methods can be applied simultaneously with contact between air and the extract. For example, if the suction force is used, the impeller is rotated by the suction force, and this rotational motion is transmitted to a stirring propeller installed in the extract using a coaxial or gear, or the extract For example, a method of rotating an extract by forming an air flow path eccentrically on the upper part can be applied. In addition, it is possible to apply a method of installing an independent motor and transmitting the rotational motion to a stirring propeller installed in the extract using a coaxial or gear.
[0049]
When the extraction liquid 70 is agitated due to air mixing, the extraction liquid 70 is subjected to a physical agitation action, and the chance of contact between the extraction liquid 70 and dust increases, so that allergens from the dust trapped on the sampling filter 6 enter the extraction liquid 70. It becomes easy to be dissolved. The extraction time is preferably constant for 10 seconds or more and 30 minutes or less, so that dust and, therefore, allergens necessary for measurement can be extracted under constant conditions. More preferably, it is the range of 30 seconds or more and 5 minutes or less.
[0050]
In order to advance the extraction time or to make the extraction conditions constant, it is also possible to provide a temperature adjustment mechanism (temperature holding device (not shown) and control unit 34) of the extract. More specifically, Peltier elements, heating wire heaters, etc. are used for the heat source, thermocouples, thermistors, platinum temperature detectors, etc. are used for temperature detection, and the set temperature is maintained by starting and stopping the heat source according to the detected temperature. This is a temperature adjustment mechanism including the control unit 34. Further, by making the set temperature preferably constant at 5 ° C. or more and 45 ° C. or less, the extraction time can be further advanced or the extraction conditions can be made constant. More preferably, it is the range of 30 degreeC or more and 40 degrees C or less.
[0051]
In order to make the whole measurement simpler and improve the measurement accuracy, it is also possible to incorporate an allergen measuring instrument for measuring allergen itself into the allergen measurement test liquid preparation apparatus according to the present embodiment.
[0052]
(3) Separation process
The separation step is a step of separating the extraction liquid 70 from the dust to be measured into the test liquid from which dust and allergen are extracted by the sampling filter 6. The suction fan 11 is stopped by the switch 36. As shown in FIG. 4, the extraction liquid 70 is released when the negative pressure is released, so that it flows down to the extraction liquid reservoir 7 from the state held in the dust reservoir 5 by gravity. At this time, the sampling filter 6 separates the dust and the test solution from which the allergen has been extracted to form a test solution for allergen measurement, which is stored in the extract reservoir 7.
[0053]
(4) Collection process
The collection step is a step of collecting the prepared test solution for allergen measurement for measurement. The extract reservoir 7 is removed, and the test solution for allergen measurement is taken out and used for measurement. Or, for example, the test liquid for allergen measurement is taken out and measured by a mechanism for collecting the test liquid including the test liquid collecting internal pipe 17, the test liquid collecting port 18, and the test liquid collecting syringe 19 shown in FIG. To serve. If the allergen measurement test solution requires further separation accuracy, for example, a separation filter 20 can be installed between the test solution collection port 18 and the test solution collection syringe 19 for separation. .
[0054]
The test solution taken out from the test solution collecting syringe 19 can be measured for the allergen concentration by using a sandwich ELISA method or the like. For example, FIG. 6 is a graph showing a calibration curve of mite allergen rDer f II, and the concentration of allergen can be measured by the calibration curve prepared in this way. Abs (−490 nm) on the vertical axis in FIG. 6 indicates absorbance at 490 nm.
[0055]
By the way, in this Embodiment, the control part 34 is provided in order to automate a series of operation for the test liquid preparation of an allergen. The control unit 34 is configured by software such as a microcomputer and the like. The fan 11 is initially driven to suck the extraction liquid reservoir 7 side, collect dust in the sampling filter 6, and then stop the fan 11. At the same time, the extraction valve 16 is opened to move the extraction liquid in the extraction liquid storage tank 14 to the extraction liquid reservoir 7, and then the collection / extraction switching valve 8 is switched to drive the fan 11 to drive the dust reservoir 5. The suction side is sucked, air is mixed into the extract by this negative pressure, the extract is stirred, and the allergen is dissolved in the extract from the dust on the sampling filter 6. Next, the control unit 34 stops the fan 11 and separates the allergen-dissolved dust from the extracted liquid by the sampling filter 6. In this way, the control unit 34 can automatically perform a series of operations for preparing a test solution for allergen. In addition, although the control part 34 operate | moved like software, operation | movement of the control part 34 is realizable also with the combination of a hardware circuit.
[0056]
As described above, according to the present embodiment, the collection conditions and the separation conditions are stabilized by the sampling filter having a constant capture accuracy, and the extraction conditions can be given a constant stirring intensity by each stirring means. The preparation of the test solution for allergen measurement can be performed hygienically, simply, with high accuracy and at low cost.
[0057]
(Embodiment 2)
FIG. 7 is a block diagram showing an allergen measurement test liquid preparation apparatus according to Embodiment 2 of the present invention, and FIGS. 8A, 8B, and 8C are allergen measurement test liquid preparations of FIG. FIG. 8 (d) is a separation process explanatory view showing a separation process in the test liquid preparation in the test liquid preparation apparatus for allergen measurement in FIG. 7; is there.
[0058]
7 and 8, the sampling nozzle 1, the external intake path 2, the screening filter 3, the sampling filter 6, the filter bag fixing joint 9, the filter bag 10, the suction fan 11, the final filter 12, the exhaust port 13, The extraction valve 16, the casing 21, the handle 22, the filter bag replacement door 23, the outlet 31, the electric wire 32, the AC / DC converter 33, the control unit 34, the calculation unit 35, the switch 36, and the extraction liquid 70 are shown in FIG. 2 are the same as those in FIG. 4 is an internal intake passage (internal flow path of the present invention), 5A is a dust reservoir in which an open portion opened to the outside is formed, and the sampling filter 6 is attached to form a bottom surface (dust reservoir portion of the present invention). 7A is an extraction liquid reservoir formed above the internal intake passage 4 (extraction portion of the present invention), 26 is an extraction intake passage (internal flow passage of the present invention), and 27 is an extraction joint (connection portion of the present invention). ). A mounting portion (not shown) is provided at an end of the internal intake passage 4 so that the dust reservoir 5A can be mounted.
[0059]
Functions and operations of the allergen-measuring test liquid preparation apparatus configured as described above will be described with reference to FIGS.
[0060]
In FIG. 7, the extraction valve 16 transmits the negative pressure generated by the suction fan 11 to the dust reservoir 5 </ b> A via the internal intake passage 4, the extraction intake passage 26, and the extraction joint 27. The internal intake passage 4, the extraction valve 16, the extraction intake passage 26, the extraction joint 27, the dust reservoir 5A, the sampling filter 6, and the extraction liquid reservoir 7A constitute the main components for performing extraction. Further, the dust reservoir 5A, the sampling filter 6, and the extract liquid reservoir 7A constitute a main configuration for separating the allergen-extracted dust and the allergen measurement test liquid. The extraction valve 16 employs a manual valve that is manually switched. However, automatic valves may be used for automation.
[0061]
Next, each step of preparing the test solution for allergen measurement will be described. The test liquid preparation apparatus for allergen measurement in FIG. 7 is a test liquid for allergen measurement by four steps of (1) collection process, (2) extraction process, (3) separation process, and (4) sampling process. Create
[0062]
(1) Collection process
The collecting step is a step of collecting the measurement target dust on the sampling filter 6 under a certain condition. As shown in FIG. 7, a dust reservoir 5A is installed in the external intake passage 2 and the internal intake passage 4 in advance, and the suction fan 11 is activated by the switch 36 with the extraction valve 16 closed, and negative pressure is applied to the exhaust side. The sampling nozzle 1 is brought into contact with the measurement object for a certain period of time for a certain area, and most of the dust adhering to the measurement object is removed from the external intake passage 2, the screening filter 3, and the dust reservoir 5A. The air that has been collected on the sampling filter 6 and from which most of the dust has been removed passes through the internal intake passage 4, the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 to the outside of the system. Discharged. At this time, the fine allergen is captured by the filter bag 10 or the final filter 12, and the allergen is not scattered outside the system. Here, the time for collecting is preferably constant for 10 seconds or more and 10 minutes or less, so that dust and allergens can be collected in an amount necessary for measurement under certain conditions. More preferably, it is the range of 30 seconds or more and 5 minutes or less. The area to be collected is preferably 0.1 m. ² 10m above ² By making it constant in the following, it is possible to collect the amount of dust and allergen necessary for measurement under constant conditions. More preferably 0.5m ² 2m above ² The range is as follows.
[0063]
(2) Extraction process
The extraction step is a step of extracting the allergen from the dust to be measured to the extraction liquid 70 under a certain condition, and includes a first extraction step and a second extraction step.
[0064]
First, the first extraction process will be described. The first extraction step is a step of pouring the extract 70 into the extract reservoir 7A. With the suction fan 11 stopped by the switch 36, as shown in FIG. 8A, the dust reservoir 5A for collecting dust and the sampling filter 6 are installed in the extract reservoir 7A, and the extract 70 is stored in the dust reservoir. Pour through 5A. The dust on the sampling filter 6 is immersed in the extraction liquid 70, and it becomes difficult to shift to the gas phase in the subsequent operation. Further, as shown in FIG. 8B, the extraction joint 27 is connected to the dust reservoir 5A, and the extraction valve is opened.
[0065]
Next, the second extraction process will be described. The second extraction step is a step of stirring the extract 70 by mixing air and extracting allergen from the dust trapped by the sampling filter 6. The suction fan 11 is activated by the switch 36 and is operated in the direction opposite to the exhaust side for a certain period of time. As shown in FIG. 8C, at this time, a part of the intake air enters from the extraction liquid reservoir 7A and reaches the sampling filter 6, and most of the extraction liquid 70 is above the sampling filter 6, that is, a dust reservoir. Air is blown and agitated in a state where it has moved into 5A. The exhaust gas passes through the internal intake passage 4, passes through the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 and is discharged out of the system. Part of the intake air flows from the sampling nozzle 1 and passes through the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 via the external intake passage 2, the screening filter 3, and the internal intake passage 4. Are discharged outside the system. At this time, the fine allergen is captured by the final filter 12, and the allergen is not scattered outside the system. At this time, if a filter having a specification that allows air to pass through the filter bag 10 but does not pass fine allergens, the final filter 12 can be omitted.
[0066]
Here, it is necessary to perform the stirring by mixing the air with such strength that the extracted liquid does not move from the dust reservoir 5A to the suction side. If the agitation due to air mixing is too strong, the extract will flow out of the system. Therefore, by installing a suction fan dedicated to stirring or by installing a baffle plate on the inside upper part of the dust reservoir 5A, it is possible to perform stirring by mixing air more stably. In addition to agitation by mixing air, various agitation methods can be applied simultaneously with contact between air and the extract. For example, if the suction force is used, the impeller is rotated by the suction force, and this rotational motion is transmitted to a stirring propeller installed in the extract using a coaxial or gear, or the extract For example, a method of rotating an extract by forming an air flow path eccentrically on the upper part can be applied. In addition, a method in which an independent motor is installed and the rotational motion thereof is transmitted to a stirring propeller installed in the extract 70 using a coaxial or gear can be applied. When the extraction liquid 70 is agitated due to air mixing, the extraction liquid 70 is subjected to a physical agitation action, and the chance of contact between the extraction liquid and dust increases, so that allergens are dissolved in the extraction liquid 70 from the dust trapped on the sampling filter 6. It becomes easy to be done. The extraction time is preferably constant for 10 seconds or more and 30 minutes or less, so that dust and, therefore, allergens necessary for measurement can be extracted under constant conditions. More preferably, it is the range of 30 seconds or more and 5 minutes or less. Further, in order to make the whole measurement easier and improve the measurement accuracy, it is possible to incorporate the allergen measuring instrument into the allergen measurement test liquid preparation apparatus according to the present embodiment.
[0067]
(3) Separation process
The separation step is a step of separating the extraction liquid 70 from the dust to be measured into the test liquid from which the sampling filter 6 has extracted the dust and the allergen. The suction fan 11 is stopped by the switch 36, and the extraction joint 27 is removed from the dust reservoir 5A. As shown in FIG. 8 (d), since the negative pressure is released and the extract 70 is opened, the extract 70 flows down to the extract reservoir 7A from the state held in the dust reservoir 5A. At this time, the sampling filter 6 separates the dust and the test solution from which the allergen has been extracted to form a test solution for allergen measurement, which is stored in the extract reservoir 7A.
[0068]
(4) Collection process
The collection step is a step of collecting the prepared test solution for allergen measurement for measurement. The extract reservoir 7A is removed and the test solution for allergen measurement is taken out and used for measurement. This step can be omitted when the clarity of the sample is not required so much as in the competitive method. In addition, although the control part 34 operate | moved like software, operation | movement of the control part 34 is realizable also with the combination of a hardware circuit.
[0069]
According to the second embodiment, the collection condition and the separation condition are stabilized by the sampling filter having a constant capture accuracy, and the extraction condition can provide a constant stirring intensity by each stirring means, and a series of allergen measurements. The test liquid can be prepared hygienically, simply, with high accuracy and at low cost.
[0070]
【Example】
(Example 1)
In this example, a test solution for allergen measurement was prepared from a carpet in which a medium containing a known amount of Der f II, which is an allergen of Dermatofagoides farinae, was poured in a certain amount. In this example, the test liquid preparation apparatus for allergen measurement shown in FIG. 1 is used, and four steps ((1) collection step, (2) extraction step, (3) separation step, (4) sampling step) are used. Prepare a test solution for allergen measurement. 1 μg-Der f II / m of the medium on which the leopard mite was previously propagated ² To 0.005 μg-Der f II / m ² What was spread on the carpet so that
[0071]
FIG. 9 is a graph showing an example of particle size distribution in dust of mite allergen Der f II, and FIG. 10 uses the set value of mite allergen sprayed in Example 1 and the test liquid preparation apparatus for allergen measurement in FIG. It is a graph which shows the relationship with the measured value of the mite allergen. That is, FIG. 10 shows the relationship between the set value of mite allergen sprayed on the carpet and the measured value of mite allergen by the sandwich ELISA method of the test solution prepared by the test solution preparation device for allergen measurement in FIG. Has been.
[0072]
(1) Collection process
In a state where the extraction valve 16 is closed in advance, 0.05% w / v polyoxyethylene (20) sorbitan monolaurate is contained in Dulbecco's phosphate buffered saline as an extract, and the pH is 7.4 ± 0.2. 10 mL of a solution (hereinafter referred to as PBS-T) was injected into the extract storage tank 14. An automatic valve was used as the extraction valve 16.
[0073]
The collection / extraction switching valve 8 activates the suction fan 11 with the switch 36 in a state in which the internal intake passages 4B and 4C are electrically connected, and is 1.2 m. ³ 1 meter per minute with the sampling nozzle 1 for the part to be measured while inhaling at / min ² The operation was performed under the conditions. Most of the dust sucked from the sampling nozzle 1 is collected on the sampling filter 6 through the external intake passage 2, the screening filter 3, the internal intake passage 4A, and the dust reservoir 5, and most of the dust is removed. The air further passed through the extract reservoir 7, the internal intake passage 4 </ b> B, the collection / extraction switching valve 8, the internal intake passage 4 </ b> C, the filter bag 10, the suction fan 11, and the exhaust port 13, and was discharged out of the system. At this time, fine allergens were captured by the filter bag 10.
[0074]
In this embodiment, the minimum particle size captured by the screening filter 3 is 0.3 mm, and a net-like or stainless steel is used. Further, the minimum particle size captured by the sampling filter 6 was 25 μm, and a net-like, stainless steel, 25 mm diameter was used. Here, the minimum particle size captured by the sampling filter 6 is set to 25 μm, as shown in FIG. 9 which is a preliminary investigation result, where the particle size distribution of the mite allergen Der f II in the dust is 25 μm or more. This is because it has been found that most of them exist. The minimum particle size captured by the filter bag 10 was 0.3 μm, and a non-woven fabric or cellulose was used. The final filter 12 was not installed because the filter bag 10 can sufficiently capture allergens that should not be discharged.
[0075]
(2) Extraction process
As described above, the extraction process includes a first extraction process and a second extraction process.
[0076]
First, the first extraction process will be described. The first extraction step is a step of allowing the extract 70 to flow into the extract reservoir 7. First, the extraction valve 16 was opened, and the extract 70 was allowed to flow into the extract reservoir 7. Thereafter, the sampling filter 6 was immersed in the extract 70. The collection / extraction switching valve 8 switches to a state in which the internal intake passages 4D and 4C are made conductive. An automatic valve was used as the collection / extraction switching valve 8.
[0077]
Next, the second extraction process will be described. The second extraction step is a step of extracting the allergen from the dust trapped by the sampling filter 6 by stirring the extract 70 by mixing with air. First, the suction fan 11 was activated by the switch 36 and operated for 5 minutes. At this time, a part of the intake air enters from the opening of the extraction liquid storage tank 14 and reaches the extraction liquid reservoir 7 and then the sampling filter 6 via the extraction liquid intake introduction pipe 15 and the extraction valve 16. Most of the sample was stirred above the sampling filter 6, that is, in a state where it moved into the dust reservoir 5. At this time, the linear velocity in the sampling filter 6 was 50 m / s. The exhaust gas passes through the internal intake passage 4A, the internal intake passage 4D, the collection / extraction switching valve 8, and the internal intake passage 4C through the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 to the outside of the system. It was discharged. Part of the intake air flows from the sampling nozzle 1, and passes through the external intake passage 2, the internal intake passage 4D, the collection / extraction switching valve 8, and the internal intake passage 4C, the filter bag 10, the suction fan 11, and the exhaust port. 13 was discharged out of the system. At this time, fine allergens were captured by the filter bag 10.
[0078]
(3) Separation process
The suction fan 11 was stopped by the switch 36. Since the negative pressure is released and the extract 70 is opened, the extract 70 is separated from the dust reservoir 5 into the extract reservoir 7 by the sampling filter 6 into the test solution in which dust and the allergen are extracted, and becomes the test solution for measurement. It collected in the extract reservoir 7.
[0079]
(4) Collection process
The test solution for measurement in the extract reservoir 7 was collected with a pipette. In the present embodiment, the separation filter 20 was not used because it was unnecessary to improve the separation accuracy with the separation filter 20.
[0080]
The mite allergen Derf II of the test liquid for measurement was measured by sandwich ELISA.
[0081]
From FIG. 10, the allergen measurement test solution prepared by the allergen measurement test solution preparation apparatus of FIG. 1 can detect about 83% of the set value, and has a high correlation coefficient of 0.998 and is stable. It can be seen that it can be detected.
[0082]
In addition to the present embodiment, various test liquid preparation apparatuses for measuring allergen can be considered. For example, a device that promotes further automation, a device in which a measurement device is integrated, and the like can be considered.
[0083]
(Example 2)
In this example, a test solution for measurement was prepared from a carpet in which a constant amount of a medium containing Der f II, which is an allergen of Dermatofagoides farinae, was seeded. In this example, the test liquid preparation apparatus for allergen measurement shown in FIG. 1 is used, and four steps ((1) collection step, (2) extraction step, (3) separation step, (4) sampling step) are used. Prepare a test solution for allergen measurement. 1 μg-Der f II / m of the medium on which the leopard mite was previously propagated ² To 0.005 μg-Der f II / m ² What was spread on the carpet so that
[0084]
FIG. 11 is a graph showing the relationship between the set values of mite allergen sprayed in Example 2 and the measured values of mite allergen using the allergen measurement test liquid preparation apparatus of FIG. That is, FIG. 11 shows the relationship between the set value of mite allergen sprayed on the carpet and the measured value of mite allergen by the sandwich ELISA method of the test solution prepared by the test solution preparation device for allergen measurement in FIG. Has been.
[0085]
(1) Collection process
With the extraction valve 16 closed, the suction fan 11 is activated by the switch 36 and 1.0 m ³ 1 meter per minute with the sampling nozzle 1 for the part to be measured while inhaling at / min ² The operation was performed under the following conditions. Most of the dust sucked from the sampling nozzle 1 is collected on the sampling filter 6 via the external air intake path 2, the screening filter 3, and the dust reservoir 5, and the air from which most of the dust has been removed further After passing through the internal intake passage 4, the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13, it was discharged out of the system. At this time, fine allergens were captured by the filter bag 10. The screening filter 3, the sampling filter 6, and the filter bag 10 are the same as those in the first embodiment, and the final filter 12 is not installed because the filter bag 10 can sufficiently capture allergens that should not be discharged. It was.
[0086]
(2) Extraction process
As described above, the extraction process includes a first extraction process and a second extraction process.
[0087]
First, the first extraction process will be described. The first extraction step is a step of pouring the extract 70 into the extract reservoir 7. First, in a state where the suction fan 11 is stopped by the switch 36, the dust reservoir 5 that collects dust and the sampling filter 6 are installed in the extract reservoir 7, and the extract 70 is poured through the dust reservoir 5. As an extract, 10% of a solution (hereinafter referred to as PBS-T) having a pH of 7.4 ± 0.2 containing 0.05 w / v% polyoxyethylene (20) sorbitan monolaurate in Dulbecco's phosphate buffered saline did.
[0088]
Next, the second extraction process will be described. The second extraction step is a step of stirring the extract 70 by mixing air and extracting allergen from the dust trapped by the sampling filter 6. First, the suction fan 11 was activated by the switch 36 and operated for 5 minutes. At this time, a part of the intake air enters from the extraction liquid reservoir 7 and reaches the sampling filter 6, and air is blown in a state where most of the extraction liquid 70 has moved above the sampling filter 6, that is, into the dust reservoir 5. And stirred. The exhaust gas passed through the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 via the internal intake passage 4 and was discharged out of the system. Part of the intake air flows from the sampling nozzle 1 and passes through the filter bag 10, the suction fan 11, the final filter 12, and the exhaust port 13 via the external intake passage 2, the screening filter 3, and the internal intake passage 4. Were discharged outside the system.
[0089]
(3) Separation process
The suction fan 11 was stopped by the switch 36. The extraction joint 27 was removed from the dust reservoir 5. Since the extract 70 is released when the negative pressure is released, the extract 70 flows down from the state held in the dust reservoir 5 to the extract reservoir 7 by gravity. At this time, the sampling filter 6 separated the dust and the test solution from which the allergen was extracted, and it became a test solution for measurement and collected in the extract reservoir 7.
[0090]
(4) Collection process
The test solution for measurement in the extract reservoir 7 was collected with a pipette. In the present embodiment, the separation filter 20 was not used because it was unnecessary to improve the separation accuracy with the separation filter 20. The mite allergen Der f II of the test solution for measurement was measured by sandwich ELISA.
[0091]
From FIG. 11, the test liquid prepared by the test liquid preparation apparatus for measuring allergen in FIG. 1 can detect about 78% of the set value, and the correlation coefficient is as high as 0.998, so that it can be detected stably. It turns out that it is possible.
[0092]
Various test liquid preparation apparatuses for measuring allergen other than the present embodiment can be considered. For example, a device that promotes further automation, a device in which a measurement device is integrated, and the like can be considered.
[0093]
【The invention's effect】
As explained above, according to the test liquid preparation method for allergen measurement according to claim 1 of the present invention, the collection step of capturing dust with the sampling filter, the sampling filter is brought into contact with the extract, Suspend the trapped dust, stir the extract by mixing air, extract the allergen contained in the trapped dust into the extract, and extract the allergen-extracted dust from the extract using the sampling filter And a separation step of creating a test solution in which the allergen is dissolved, dust is collected by the sampling filter, allergen is extracted into the extract by air agitation, and the test solution for allergen measurement is sampled. Since the filter is used for separation, the collection conditions, extraction conditions, and separation conditions are constant, and the hand is in contact with the allergen. By allergen measuring the sample liquid is prepared by Rukoto without sampling filter, hygienic creation of a series of allergen measurement test solution, simply, it is obtained advantageous effect that enables high accuracy.
[0094]
According to the method for preparing an allergen-measuring test solution according to claim 2, in the method for preparing an allergen-measuring test solution according to claim 1, the shape of the sampling filter is any one of a mesh shape and a non-woven fabric shape. Because of the high aperture ratio of the sampling filter, the ventilation resistance is low, the power required for collection can be set small, and the test solution for allergen measurement can be created at low cost. An advantageous effect is obtained.
[0095]
According to the allergen measurement test liquid preparation method according to claim 3, in the allergen measurement test liquid preparation method according to claim 1 or 2, the sampling filter includes cellulose, polypropylene, nylon, fluororesin, Because it is composed of a general-purpose material by using any one material of polyethylene, polystyrene, acrylic resin, stainless steel, titanium, iron, copper, or a composite material of a plurality of materials, allergen measurement test An advantageous effect is obtained that the preparation of the liquid is carried out inexpensively, easily and with high accuracy.
[0096]
According to the allergen-measuring test liquid preparation method according to claim 4, in the allergen-measuring test liquid preparation method according to any one of claims 1 to 3, particles that can be captured by the sampling filter Since the diameter is not less than 1 μm and not more than 100 μm, it is possible to capture most allergens without causing excessive resistance to inhalation, and to minimize the power for suction. The advantageous effect that the test solution for allergen measurement is prepared at low cost is obtained.
[0097]
According to the test liquid preparation apparatus for allergen measurement according to claim 5, a dust storage unit that is provided with a sampling filter and can separate dust from air containing dust by suction from the exhaust side; An extract storage tank for storing the extract, Open air and The extract reservoir and When the exhaust part of the extractor that can communicate with the extractor and the exhaust side of the dust reservoir is immersed in the extractor in the extractor, the extract is transferred into the dust reservoir by suction from the opposite direction. By having a fan in contact with dust, the dust is collected in the dust reservoir by suction from the exhaust side of the sampling filter, and the exhaust side is immersed in the extract, and the dust and extract are transferred by the fan. Because it makes contact, the sampling filter with a certain degree of supplementary accuracy can stabilize the collection and separation conditions, and the test solution for allergen measurement can be created with the sampling filter without touching the allergen Therefore, an advantageous effect that a series of allergen-measuring test liquids can be prepared hygienically, simply, and with high accuracy can be obtained.
[0098]
According to the allergen-measuring test liquid preparation device according to claim 6, a sampling filter is provided, and when the air containing dust is sucked from the exhaust side, the dust is collected, and the exhaust side is immersed in the extract. A dust reservoir that can mix the extract and the dust collected by sucking the extract from the intake side, An extract storage tank for storing the extract, Open air and The extract reservoir and It has an extraction section through which the extract can be introduced, an internal flow path that can be selectively connected to the dust storage section and the extraction section by switching means, and a fan provided in the internal flow path, and is connected to the dust storage section When the internal flow path is selected, the fan collects dust in the dust reservoir, selects the internal flow path that connects to the extraction section, and connects the internal flow path that connects to the extraction section to the intake side of the dust storage section In this case, the extraction liquid is transferred into the dust reservoir by the fan, and the dust and the extraction liquid are agitated, so that the sampling conditions having a certain degree of capture accuracy can stabilize the capture conditions and separation conditions, and the constant agitation. Advantages are that strength can be given, dust collection operation and dust / extraction liquid stirring operation can be easily switched, and a series of test liquids for allergen measurement can be created hygienically and easily with high accuracy. Effect can be obtained.
[0099]
According to the allergen-measuring test fluid preparation device according to claim 7, in the allergen-measuring test fluid preparation device according to claim 6, there is provided a mounting portion for mounting the dust reservoir in the internal channel. In addition, a connection portion is provided on the intake side of the dust reservoir, and when the internal flow path connected to the extraction portion is selected, the dust reservoir is connected to the internal flow passage connected to the extraction portion by the connection portion. Thus, it is possible to facilitate attachment and connection of the dust reservoir, and to obtain an advantageous effect that the configuration of the internal flow path can be facilitated.
[0100]
According to the test liquid preparation apparatus for allergen measurement according to claim 8, in the test liquid preparation apparatus for allergen measurement according to any one of claims 5 to 7, The extract storage tank communicates with the extraction unit through a valve, and the valve is opened to open the extract storage tank. Internal extract Before By introducing it into the extraction unit, it is possible to automatically supply the extraction liquid after collecting dust, so that the test liquid for allergen measurement can be created hygienically and easily without the user touching the dust. The advantageous effect that it can be performed is obtained.
[0101]
According to the allergen-measuring test fluid preparation device according to claim 9, in the allergen-measuring test fluid preparation device according to any one of claims 5 to 8, the extract in contact with the allergen is Power By using the sampling filter to separate the allergen-extracted dust and the allergen-extracted test liquid, the extract can be automatically supplied after the dust is collected. An advantageous effect that the extract can be prepared hygienically and easily without touching the person.
[0102]
According to the allergen-measuring test liquid preparation device according to claim 10, the allergen-measuring test liquid preparation device according to any one of claims 5 to 9, further comprising: a control unit that controls the fan; The unit automatically collects, extracts, and separates dust, so that the collection conditions, extraction conditions, and separation conditions can be made constant by automatic control. An advantageous effect is obtained that the production can be performed with high accuracy and at low cost.
[0103]
According to the allergen-measuring test liquid preparation device according to claim 11, in the allergen-measuring test liquid preparation device according to claim 10, the control unit includes a temperature holding device that holds the extraction temperature constant. By automatically controlling the temperature, it is possible to keep the temperature of the extract liquid, which is an especially important factor in the extraction conditions, constant, and the test liquid for allergen measurement can be created with high accuracy. Further, by setting the temperature of the extraction liquid higher than the ambient temperature, an advantageous effect is obtained that the diffusion rate can be improved and the extraction time can be shortened.
[0104]
According to the allergen-measuring test liquid preparation device according to claim 12, in the allergen-measuring test liquid preparation device according to claim 6, the dust reservoir is immersed in the extraction part in the extraction part. The dust is collected by suction from the exhaust side by the fan, and when the internal flow path connected to the extraction unit is selected by the switching means, the dust and the extraction liquid are stirred by suction from the intake side, An advantageous effect is obtained that the dust collecting operation and the dust / extracted liquid stirring operation can be easily performed by selecting the internal flow path by the switching means and sucking the fan.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a test liquid preparation apparatus for allergen measurement according to Embodiment 1 of the present invention.
FIG. 2 is a collection process explanatory diagram showing a collection process in preparation of a test liquid for allergen measurement in the test liquid preparation apparatus for allergen measurement in FIG.
3A is an explanatory drawing of an extraction process showing an extraction process in preparing a test liquid for allergen measurement in the test liquid preparation apparatus for measuring allergen in FIG. 1. FIG.
(B) Extraction process explanatory drawing which shows the extraction process in the test liquid preparation for allergen measurement in the test liquid preparation apparatus for allergen measurement of FIG.
(C) Extraction process explanatory drawing which shows the extraction process in the test liquid preparation for allergen measurement in the test liquid preparation apparatus for allergen measurement of FIG.
4 is an explanatory diagram of a separation process showing a separation process in preparing a test liquid in the test liquid preparing apparatus for allergen measurement in FIG. 1;
FIG. 5 is a cross-sectional view showing a dust reservoir and an extract reservoir of the test liquid preparation device for allergen measurement in FIG. 1;
FIG. 6 is a graph showing a calibration curve of mite allergen rDer f II
FIG. 7 is a configuration diagram showing a test liquid preparation apparatus for allergen measurement according to a second embodiment of the present invention.
8 (a) is an extraction process explanatory diagram showing an extraction process in test liquid preparation in the test liquid preparation apparatus for allergen measurement in FIG.
(B) Extraction process explanatory drawing which shows the extraction process in test liquid preparation in the test liquid preparation apparatus for allergen measurement of FIG.
(C) Extraction process explanatory drawing which shows the extraction process in test liquid preparation in the test liquid preparation apparatus for allergen measurement of FIG.
(D) Separation process explanatory drawing which shows the separation process in test liquid preparation in the test liquid preparation apparatus for allergen measurement of FIG.
FIG. 9 is a graph showing an example of particle size distribution of dust mite allergen Der f II
10 is a graph showing the relationship between the set values of mite allergen sprayed in Example 1 and the measured values of mite allergen using the test liquid preparation device for allergen measurement in FIG.
11 is a graph showing the relationship between the set values of mite allergen sprayed in Example 2 and the measured values of mite allergen using the allergen measurement test liquid preparation apparatus of FIG.
[Explanation of symbols]
1 Nozzle for sampling
2 External intake passage
3 Filter for screening
4, 4A, 4B, 4C, 4D Internal air intake path
5, 5A dust storage
6 Filter for sampling
7, 7A Extract liquid reservoir
8 Collection / extraction switching valve
9 Filter bag fixing joint
10 Filter bag
11 Suction fan
12 Final filter
13 Exhaust port
14 Extract storage tank
15 Extract / Intake pipe
16 Extraction valve
17 Internal piping for collecting test liquid
18 Sample collection port
19 Syringe for collecting test liquid
20 Separation filter
21 Case
22 Handle
23 Filter bag replacement door
24 Extract liquid reservoir maintenance door
25 moving casters
26 Extraction intake channel
27 Fitting for extraction
31 outlet
32 electric wires
33 AC / DC Converter
34 Control unit
35 Calculation unit
36 switches
51 Opening legs
52 Support
70 Extract

Claims (12)

A collecting step of capturing dust with a sampling filter; bringing the sampling filter into contact with an extract; suspending the captured dust; and stirring the extract by mixing with air; An extraction step of extracting the allergen contained in the extract into the extract, and a separation step of separating the allergen-extracted dust from the extract with the sampling filter to create a test solution in which the allergen is dissolved. A method for preparing a test liquid for measuring allergen. 2. The method for preparing a test liquid for allergen measurement according to claim 1, wherein the sampling filter has a mesh shape or a nonwoven fabric shape or a combination of both shapes. The sampling filter is made of any one kind of material of cellulose, polypropylene, nylon, fluororesin, polyethylene, polystyrene, acrylic resin, stainless steel, titanium, iron, copper, or a composite material of a plurality of kinds. The test liquid preparation method for allergen measurement according to claim 1 or 2. The method for preparing an allergen-measuring test solution according to any one of claims 1 to 3, wherein a particle size that can be captured by the sampling filter is 1 µm or more and 100 µm or less. A sampling filter is provided, a dust reservoir that can separate dust from air containing dust by suction from the exhaust side, an extraction liquid storage tank for storing the extract, and extraction between the outside air and the extraction liquid storage tank. When the extraction part into which the liquid can be introduced and the exhaust side of the dust reservoir are immersed in the extraction liquid in the extraction part, the extraction liquid is transferred into the dust reservoir by suction from the opposite direction, and the extraction liquid and dust A test liquid preparation apparatus for measuring allergens, comprising: A sampling filter is provided, which collects dust when air containing dust is sucked from the exhaust side, and is collected by sucking the extract from the intake side when the exhaust side is immersed in the extract. A dust reservoir capable of mixing the dust and the extract ; an extract reservoir for storing the extract ; an extractor capable of introducing the extract in communication with the outside air and the extract reservoir; and the dust reservoir And an internal channel that can be selectively connected to the extraction unit by switching means, and a fan provided in the internal channel, and when the internal channel that is connected to the dust reservoir is selected, When dust is collected in the dust reservoir, an internal flow path connected to the extraction section is selected, and an internal flow path connected to the extraction section is connected to the intake side of the dust reservoir, the fan Extraction Allergen measurement test solution producing apparatus, characterized in that the liquid is the extract is transferred and dust into the dust reservoir portion is agitated. A mounting portion for mounting the dust reservoir in the internal flow path is provided, and a connection portion is provided on the intake side of the dust reservoir, and the dust is collected when the internal flow path to be connected to the extraction unit is selected. The test liquid preparation apparatus for allergen measurement according to claim 6, wherein the reservoir is connected to an internal flow path connected to the extraction part by the connection part. Extract reservoir communicates with the extractor through the valve, by opening the valve of claims 5 to 7, characterized in that introducing an internal extract of the extraction solution storage tank before Symbol extractor The test liquid preparation apparatus for allergen measurement of any one of Claims 1. The extract in contact with the allergen, by the sampling filters by using a heavy force, any one of claims 5 to 8, characterized in that the separation in the test fluid extracted dust and allergen after allergen extract The test liquid preparation apparatus for allergen measurement according to Item 1. 10. The allergen measurement device according to claim 5, further comprising a control unit that controls the fan, wherein the control unit automatically performs dust collection, extraction, and separation operations. 11. Test liquid preparation device. The test liquid preparation apparatus for allergen measurement according to claim 10, further comprising a temperature holding apparatus that holds the extraction temperature constant, and the temperature is automatically controlled by the control unit. The dust reservoir is disposed in the extraction unit with the exhaust side immersed in the extraction liquid, and dust is collected by suction from the exhaust side by a fan, and an internal flow path connected to the extraction unit is selected by a switching means 7. The test liquid preparation apparatus for allergen measurement according to claim 6, wherein the dust and the extract are agitated by suction from the intake side.

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