DK157715B - IMMUNOLOGICAL RESEARCH RESPONSE - Google Patents

IMMUNOLOGICAL RESEARCH RESPONSE Download PDF

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Publication number
DK157715B
DK157715B DK429284A DK429284A DK157715B DK 157715 B DK157715 B DK 157715B DK 429284 A DK429284 A DK 429284A DK 429284 A DK429284 A DK 429284A DK 157715 B DK157715 B DK 157715B
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Prior art keywords
reaction vessel
container
vessel according
bends
wall
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DK429284A
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Danish (da)
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DK157715C (en
DK429284A (en
DK429284D0 (en
Inventor
Pekka Sakari Peltonen
Pentti Juhani Juhala
Lasse Martti Hautoniemi
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Farmos Oy
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01LCHEMICAL OR PHYSICAL LABORATORY APPARATUS FOR GENERAL USE
    • B01L3/00Containers or dishes for laboratory use, e.g. laboratory glassware; Droppers
    • B01L3/50Containers for the purpose of retaining a material to be analysed, e.g. test tubes
    • B01L3/508Containers for the purpose of retaining a material to be analysed, e.g. test tubes rigid containers not provided for above
    • B01L3/5082Test tubes per se

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  • Health & Medical Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • Hematology (AREA)
  • Clinical Laboratory Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Automatic Analysis And Handling Materials Therefor (AREA)
  • Devices And Processes Conducted In The Presence Of Fluids And Solid Particles (AREA)

Description

iin

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AA

Opfindelsen angår en rørformet reaktionsbeholder til anvendelse ved immunologiske undersøgelser, hvilken beholder er af den art, som i det mindste i og nær ved sin lukkede ende har en indervæg, hvortil der er fikseret et antistof, til hvilket anti-5 stof den komponent, der skal undersøges, og en mærket komponent bindes fra en opløsning i reaktionsbeholderen. Den komponent, der skal undersøges, og den mærkede komponent vil normalt være et antigen henholdsvis et mærket antigen.The invention relates to a tubular reaction vessel for use in immunological studies which is of the kind having at least at and near its closed end an inner wall to which is attached an antibody to which antibody the component which must be investigated and a labeled component is bound from a solution in the reaction vessel. The component to be examined and the labeled component will normally be an antigen and a labeled antigen, respectively.

Der kendes reaktionsbeholdere, der er fremstillet på grundlag 10 af et reagensglas ved at belægge rørets indervæg med et antistof. Der kendes også systemer, ifølge hvilke en kugle eller bold eller en indsats af anden form, der er belagt med et antistof, til hvilket den komponent, der skal undersøges, og den mærkede komponent bindes, indføres eller slippes ned i et sæd-15 vanligt, ubehandlet reagensglas, jf. f.eks. US-patentskrifter-ne nr. 4.320.087 og 4.225.575.Reaction vessels made on the basis of a test tube are known by coating the inner wall of the tube with an antibody. Also known are systems in which a ball or ball or insert of other form coated with an antibody to which the component to be examined and the labeled component is bound, introduced or dropped into a seminal , untreated test tubes, cf. U.S. Patent Nos. 4,320,087 and 4,225,575.

Det er en ulempe ved de ovenfor omtalte reaktionsbeholdere, . at bindingen af detantigen, der skal undersøges, og den mærkede komponent til antistoffet eller den antistof-dækkede 20 kugle eller lignende indsats i reagensglasset er langsom.This is a disadvantage of the reaction vessels mentioned above,. that the binding of detantigen to be assayed and the labeled component to the antibody or antibody-covered sphere or similar insert in the test tube is slow.

Dette skyldes den kendsgerning, at bindingsreaktionshastigheden bestemmes af diffusionen af den komponent, der skal undersøges (antigenet), og den mærkede komponent (mærket antigen) i opløsningen i røret til dettes vægge. I et sædvanligt rea-25 gensglas er diffusionsafstandene lange og bindingen langsom.This is due to the fact that the rate of binding reaction is determined by the diffusion of the component to be examined (the antigen) and the labeled component (labeled antigen) in the solution in the tube to its walls. In a conventional test tube, the diffusion distances are long and the bond is slow.

Når molekylets størrelse forøges, formindskes dets diffusionshastighed, hvorfor undersøgelsen af f.eks. stormolekylære proteinhormoner er langsom. Anvendelse af en antistof-belagt kugle eller bold medfører ikke nogen forøgelse af betydning af bin-30 dingshastigheden sammenlignet med anvendelsen af et belagt rør. Indføringen af en kugle eller bold eller en lignende genstand i reagensglasset indebærer desuden et yderligere arbejdstrin.As the size of the molecule increases, its diffusion rate decreases, which is why the study of e.g. major molecular protein hormones are slow. Use of an antibody-coated sphere or ball does not cause any significant increase in the binding rate compared to the use of a coated tube. Furthermore, the insertion of a ball or ball or similar object into the test tube involves an additional working step.

Ydermere er håndteringen og opbevaringen af særskilte elementer for et reaktionsbeholdersystem ubekvemt, og den antistof-35 belagte overflade af det element, der skal indføres, kan let beskadiges, hvad der fører til unøjagtige prøveresultater.Furthermore, the handling and storage of separate elements for a reaction vessel system is inconvenient, and the antibody-coated surface of the element to be introduced can be easily damaged leading to inaccurate test results.

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De reagensglas, der anvendes som reaktionsbeholdere, eller kugler og lignende genstande fremstilles i almindelighed fra polystyren eller polypropen. Antistoffet fikseres til deres overflade ved absorption eller ad kemisk vej i flere trin.The test tubes used as reaction vessels or bullets and similar articles are generally made from polystyrene or polypropylene. The antibody is fixed to their surface by absorption or by chemical means in several steps.

5 Denne fikseringsmetode er besværlig, og opnåelsen af en ensartet belægning af hundredetusinder af rør i en eller i et antal portioner er særdeles vanskelig.5 This method of fixing is cumbersome, and obtaining a uniform coating of hundreds of thousands of tubes in one or a number of portions is extremely difficult.

Ved hjælp af reaktionsbeholderen ifølge opfindelsen afhjælpes de ovenfor omtalte ulemper, og denne reaktionsbeholder er 10 ifølge opfindelsen ejendommelig ved, at overfladen af reaktionsbeholderens indervæg i og nær ved dennes lukkede ende er forøget ved deri at tilvejebringe en eller flere overflader, der er parallelle med beholderens længdeakse og strækker sig ind i beholderen i ét stykke med væggen.By means of the reaction vessel according to the invention the disadvantages mentioned above are remedied and this reaction vessel according to the invention is characterized in that the surface of the inner wall of the reaction vessel is increased at and near its closed end by providing one or more surfaces parallel to that of the container. longitudinal axis and extends into the container in one piece with the wall.

15 Ifølge en udførelsesform for opfindelsen er beholderen udformet med indbøjninger. Alternativt kan reaktionsbeholderen være udformet med skillevægge, der deler beholderen i et antal dele eller kamre, så at væske kan strømme frit fra et kammer til et andet. Reaktionsbeholderen ifølge opfindelsen kan også be-20 stå af et rør, hvori der er anbragt et andet, koaksialt rør med mindre radius, der strækker sig opad fra bunden.According to one embodiment of the invention, the container is formed with bends. Alternatively, the reaction vessel may be provided with partitions dividing the vessel into a plurality of portions or chambers so that liquid can flow freely from one chamber to another. The reaction vessel according to the invention may also consist of a tube in which is placed a second, smaller radius coaxial tube extending upwards from the bottom.

Ifølge opfindelsen kan den nederste eller lukkede del af reaktionsbeholderen være forsynet med mindst én og hensigtsmæssigt højst otte indbøjninger, fortrinsvis i et omkreds-25 symmetrisk arrangement. Ifølge en hensigtsmæssig udførelses-form er beholderen forsynet med fra fire til seks symmetrisk arrangerede indbøjninger. Hver indbøjning kan strække sig fra væggen ind i reaktionsbeholderen gennem en afstand, der svarer til fra ca. 1/8 til noget mindre end 1/2, såsom fra 1/8 30 til ca. 5/12, fortrinsvis ca. 1/5 til 1/3 af den indvendige diameter af beholderens tværsnit, med henblik på den ene side at opnå en tilstrækkelig forkortelse af diffusionsafstandene og på den anden side vedblivende at muliggøre en fri væskestrømning i beholderen. Indbøjningernes langsgående forløb 35 sikrer en nem og nøjagtig tømning af beholderen. Indbøjninger-According to the invention, the lower or closed portion of the reaction vessel may be provided with at least one and suitably not more than eight bends, preferably in a circumferentially symmetrical arrangement. According to a suitable embodiment, the container is provided with from four to six symmetrically arranged bends. Each bend may extend from the wall into the reaction vessel through a distance corresponding to from ca. 1/8 to something less than 1/2, such as from 1/8 to approx. 5/12, preferably approx. 1/5 to 1/3 of the inside diameter of the container cross-section, in order to achieve, on the one hand, a sufficient reduction of the diffusion distances and, on the other hand, to allow free flow of liquid in the container. The longitudinal course 35 of the bends ensures an easy and accurate emptying of the container. Indbøjninger-

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3 ne strækker sig i reaktionsbeholderens længderetning over en længde, der er tilstrækkelig til at nå op over væskestanden for den i beholderen anbragte prøve. Denne længde kan i almindelighed f.eks. udgøre fra ca. 1/4 til 1/2, især ca.3 extends in the longitudinal direction of the reaction vessel over a length sufficient to reach the liquid level of the sample placed in the vessel. This length can generally be e.g. constitute from ca. 1/4 to 1/2, especially approx.

5 1/3 af beholderens længde, når denne er udformet som et "mikroreagensglas".5 1/3 of the length of the container, when designed as a "micro-tube".

Ifølge en anden udførelsesform kan reaktionsbeholderen ifølge opfindelsen være udstyret med skillevægge, der strækker sig ind i beholderen og er indrettet til at tillade en fri væske-10 strømning mellem beholderens forskellige dele. Skillevæggene kan f.eks. udgøres af flanger og forløbe stort set retvinklet på beholderens væg, eller de kan være udformet som ribber.According to another embodiment, the reaction vessel according to the invention may be provided with partitions extending into the container and arranged to allow a free flow of liquid between the various parts of the container. The partitions may e.g. are formed by flanges and extend substantially at right angles to the wall of the container, or they may be formed as ribs.

De ovenfor i forbindelse med indbøjninger omtalte kriterier gælder også i dette tilfælde, hvad angår antallet af vægge 15 eller ribber, disses langsgående længde og hvor langt, de strækker sig ind i beholderen.The criteria mentioned above in connection with deflections also apply in this case as regards the number of walls 15 or ribs, their longitudinal length and how far they extend into the container.

En særlig hensigtsmæssig reaktionsbeholder har vist sig at være et reagensglas, hvis nedre eller lukkede ende er forsynet med fem symmetrisk anordnede ribber, der er dannet i 20 rørets væg og strækker sig fra denne ind i røret gennem en afstand svarende til ca. 1/3 af den indvendige diameter af rørets tværsnit.A particularly suitable reaction vessel has been found to be a test tube, the lower or closed end of which is provided with five symmetrically arranged ribs formed in the wall of the tube and extending from it into the tube through a distance corresponding to approx. 1/3 of the inner diameter of the pipe cross section.

Ifølge en fjerde udførelsesform kan reaktionsbeholderen omfatte to koaksiale rør med forskellig diameter, idet det indre 25 rør strækker sig opad fra bunden af det ydre rør, således at der mellem de to rør afgrænses et i tværsnit ringformet rum.According to a fourth embodiment, the reaction vessel may comprise two different diameter coaxial tubes, the inner tube extending upwardly from the bottom of the outer tube, defining a cross-sectional annular space between the two tubes.

Det indre rør kan formes ved at presse bunddelen af det ydre rør op i røret hen imod dettes munding. Alternativt kan det indre rør fastgøres til indersiden af det ydre rørs bund på 30 passende måde. Bredden af det i tværsnit ringformede rum kan variere, men er passende mellem ca. 1/5 og 1/3 af det ydre rørs iridveidige diameter. Det ene eller begge de to koaksiale rør kan også være udformet med indbøjninger, ribber henholdsvis flanger på samme måde som ved udførelsesformerne med et 35 enkelt rør. I så fald er det indre og ydre rør fortrinsvis ud- formet med det samme antal af f.eks. indbøjninger, der er så ledes anbragt, at de passer sammen.The inner tube can be formed by pressing the bottom portion of the outer tube up into the tube towards its mouth. Alternatively, the inner tube may be attached to the inner surface of the outer tube in a suitable manner. The width of the cross-sectional annular space may vary, but is suitably between ca. 1/5 and 1/3 of the outer diameter of the outer tube. One or both of the coaxial tubes may also be formed with bends, ribs and flanges, respectively, in the same manner as in the embodiments with a single tube. In that case, the inner and outer tubes are preferably formed with the same number of e.g. bends that are so arranged that they fit together.

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Reaktionsbeholderen ifølge opfindelsen er fortrinsvis fremstillet af et plast- eller andet materiale, der indeholder 5 hydrofile funktionelle grupper, såsom -COOH, -OH, -CHO, etc. Som egnede plastmaterialer til anvendelse i reaktionsbeholderen kan f,eks. nævnes polyacrylatethylencopolymere, polystyrenderivater, såsom polyaminostyren, polystyrenacrylo-nitril eller polyvinylbenzylchlorid, polyhydroxyethylmethacrylat, 10 tris-acryl-NH^.The reaction vessel according to the invention is preferably made of a plastic or other material containing 5 hydrophilic functional groups such as -COOH, -OH, -CHO, etc. As suitable plastic materials for use in the reaction vessel, e.g. are mentioned polyacrylate ethylene copolymers, polystyrene derivatives such as polyamino styrene, polystyrene acrylonitrile or polyvinylbenzyl chloride, polyhydroxyethyl methacrylate, trisacrylic NH NH.

Det har ved forsøg vist, at den komponent, der skal undersøges (antigenet), og den mærkede komponent (det mærkede antigen) bindes hurtigt fra opløsningen i reaktionsbeholderen ifølge opfindelsen til det til beholderens væg fastgjorte antistof, 15 jf. tegningens fig. 5. Med en reaktionsbeholder ifølge opfindelsen kan en immunologisk undersøgelse udføres hurtigt, og muligheden for fejl formindskes, eftersom bindingsreaktionen kan forløbe næsten til afslutning, inden opløsningen fjernes fra beholderen og der foretages måling af mængden af 25 mærket komponent, der er bundet til væggen. For brugeren er dette en klar fordel, eftersom der i almindelighed skal udføres hundreder af undersøgelser hver dag.It has been shown by experiment that the component to be tested (the antigen) and the labeled component (the labeled antigen) are rapidly bound from the solution in the reaction vessel of the invention to the antibody attached to the vessel wall, cf. 5. With a reaction vessel according to the invention, an immunological examination can be carried out quickly and the possibility of error is reduced since the binding reaction can proceed almost to completion before the solution is removed from the container and the amount of labeled component bound to the wall is measured. This is a clear benefit to the user, as hundreds of studies are usually performed every day.

Antistoffet fikseres til reaktionsbeholderen ifølge opfindelsen på en enkel og pålidelig måde, eftersom beholderens ma-25 teriale indeholder funktionelle grupper.The antibody is fixed to the reaction vessel of the invention in a simple and reliable way, since the material of the container contains functional groups.

Opfindelsen skal i det følgende forklares nærmere under henvisning til tegningen, hvor fig. ί viser en reaktionsbeholder, hvis nederste del er udformet med indbøjninger, set i længde- og tværsnit, 30 fig. 2 på lignende måde som fig. 1 viser en reaktionsbeholder, som ved hjælp af skillevægge er inddelt i kamre, fig. 3 ligeledes på samme måde som i fig. 1 viser en reaktionsbeholder, der er dannet af to koaksiale rør med forskel-The invention will now be explained in more detail with reference to the drawing, in which Fig. 1 shows a reaction vessel, the lower part of which is formed with bends, seen in longitudinal and cross-section, 30 fig. 2 in a manner similar to FIG. 1 shows a reaction vessel which is divided into chambers by means of partitions; FIG. 3 also in the same way as in FIG. 1 shows a reaction vessel formed by two coaxial tubes having different

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5 lig radius, fig. 4 er et tværsnit gennem en reaktionsbeholder, hvor de i fig. 3 viste ydre og indre rør er udformet med indbøj ninger, og 5 fig. 5 er en grafisk fremstilling, der viser bindingsprocenten som funktion af tiden for den komponent, der skal undersøges (antigenet), og den mærkede komponent (det mærkede antigen), som målt med en reaktionsbeholder ifølge opfindelsen (kurve A) og som målt med et sædvanligt rea-10 gensglas (kurve B).5 is a light radius; FIG. 4 is a cross-section through a reaction vessel, wherein the 3 the outer and inner tubes shown are formed with bends, and 5 fig. 5 is a graph showing the percentage of binding as a function of the time of the component to be tested (the antigen) and the labeled component (the labeled antigen) as measured by a reaction vessel of the invention (curve A) and as measured by a usual test tube (curve B).

Som vist i fig. 1 er overfladearealet på væggen i reaktionsbeholderen eller -røret blevet forøget ved i væggen at udforme fire indbøjninger P, der strækker sig langs med en del af rørets længde. På denne måde er også det væskefyldte rum V i 15 røret blevet gjort smallere. I dette udførelseseksempel er afstanden mellem to over for hinanden beliggende indbøjninger P noget større end halvdelen af rørets diameter. Den i fig. 2 viste reaktionsbeholder udviser lignende egenskaber, idet det væskefyldte rum V er opdelt i fire kamre ved hjælp af 20 skillevægge eller ribber S, der strækker sig ind i beholderen gennem en afstand svarende til ca. 1/3 af diameteren. I det i fig. 3 viste udførelseseksempel er det væskefyldte riam V afgrænset af de to koaksiale rør T1 og T2 med forskellig radius. I det i fig. 4 viste udførelseseksempel er det væske-25 fyldte rum V dannet mellem to koaksiale rør som i det i fig. 3 viste eksempel, men her er både det ydre rør X og det ydre rør Y udformet med indbøjninger P svarende til de i fig. 1 viste.As shown in FIG. 1, the surface area of the wall of the reaction vessel or tube has been increased by forming in the wall four bends P extending along a portion of the length of the tube. In this way, the liquid-filled compartment V of the pipe has also been made narrower. In this embodiment, the distance between two opposite bends P is somewhat greater than half the diameter of the pipe. The FIG. 2 shows similar properties in that the fluid-filled compartment V is divided into four chambers by means of 20 partitions or ribs S extending into the container through a distance corresponding to approx. 1/3 of the diameter. In the embodiment of FIG. 3, the liquid filled frame V is defined by the two coaxial tubes T1 and T2 of different radii. In the embodiment of FIG. 4, the fluid-filled space V is formed between two coaxial tubes as in the embodiment shown in FIG. 3, but here both the outer tube X and the outer tube Y are formed with bends P similar to those in FIG. 1.

Reaktionsbeholderen ifølge opfindelsen anvendes på følgende 30 måde. Den prøve, der skal undersøges, og den mærkede komponent indmåles i reaktionsbeholderen. Derefter vil antigenet i prøven og det mærkede antigen, der fungerer som den mærkede komponent, bindes til antistoffet på reaktionsbeholderens væg. Når bindingsreaktionen har forløbet tilstrækkeligt længe, 35 tømmes opløsningen ud af reaktionsbeholderen, og mængden af den mærkede komponent, der hæfter til reaktionsbeholderensThe reaction vessel of the invention is used in the following manner. The sample to be examined and the labeled component are measured in the reaction vessel. Then, the antigen in the sample and the labeled antigen which acts as the labeled component will bind to the antibody on the wall of the reaction vessel. When the binding reaction has been sufficiently long, the solution is discharged from the reaction vessel and the amount of the labeled component adhering to the reaction vessel

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6 væg, måles. Mængden af mærket komponent kan også måles ved hjælp af den opløsning, der er udtømt fra reaktionsbeholderen. Bedømmelsesmetoden afhænger af den anvendte mærkede komponent. Antistoffets fiksering til reaktionsbeholderens væg sker ved 5 kemisk binding af antistoffet til de funktionelle grupper i reaktionsbeholderens materiale.6 wall, measured. The amount of labeled component can also be measured by the solution discharged from the reaction vessel. The assessment method depends on the labeled component used. The antibody's fixation to the reaction vessel wall is accomplished by chemically binding the antibody to the functional groups in the reaction vessel material.

På denne måde kan der, selv ved fremstilling af store serier, opnås ensartede reaktionsbeholdere, som desuden er velegnede til oplagring. På grund af formen af reaktionsbeholderens væg 10 sker bindingen af antigenet og den mærkede komponent til antistoffet, der er fikseret til reaktionsbeholderens væg, hurtigt. Ved hjælp af reaktionsbeholderen er det muligt at bedømme alle sådanne stoffer og kombinationer af stoffer, der er egnet til immunologisk bedømmelse. Det "antistof", der er 20 fikseret til reaktionsbeholderens væg, kan også være et antigen.In this way, even in the preparation of large series, uniform reaction vessels can be obtained which are also suitable for storage. Due to the shape of the reaction vessel wall 10, the binding of the antigen and the labeled component to the antibody fixed to the reaction vessel wall occurs rapidly. With the aid of the reaction vessel it is possible to judge all such substances and combinations of substances suitable for immunological evaluation. The "antibody" fixed to the wall of the reaction vessel may also be an antigen.

Claims (12)

1. Rørformet reaktionsbeholder til anvendelse ved immunologiske undersøgelser, hvilken beholder er af den art, som i det mindste i og nær ved sin lukkede ende har en inder-5 væg, hvortil der er fikseret et antistof, til hvilket antistof den komponent, der skal undersøges, og en mærket komponent bindes fra en opløsning i reaktionsbeholderen, kendetegnet ved, at overfladen af reaktionsbeholderens indervæg i og nær ved dennes lukkede ende er forøget ved deri at tilvejβίο bringe en eller flere overflader, der er parallelle med beholderens længdeakse og strækker sig ind i beholderen i ét stykke med væggen.A tubular reaction vessel for use in immunological studies, which is of the kind having at least at and near its closed end an inner wall to which an antibody is attached, to which antibody the component to be is examined and a labeled component is bonded from a solution in the reaction vessel, characterized in that the surface of the inner wall of the reaction vessel is increased at and near its closed end by providing therein one or more surfaces parallel to the longitudinal axis of the vessel and extending into it. in the one-piece container with the wall. 2. Reaktionsbeholder ifølge krav 1, kendetegnet ved, at overfladerne er dannet af radialt indad forløbende 15 indbøjninger i beholderens væg,Reaction vessel according to claim 1, characterized in that the surfaces are formed by radially inwardly extending bends in the wall of the container, 3. Reaktionsbeholder ifølge krav 1, kendetegnet ved, at overfladerne er dannet af radialt indad forløbende ribber eller flanger, der er formet i eller på beholderens indervæg.Reaction container according to claim 1, characterized in that the surfaces are formed by radially inwardly extending ribs or flanges formed in or on the inner wall of the container. 4. Reaktionsbeholder ifølge krav 1, kendetegnet ved, at overfladen er dannet ved at presse beholderens bund-del ind i beholderen hen imod'dennes åbning over en del, der i alt væsentligt svarer til reaktionsområdet.Reaction vessel according to claim 1, characterized in that the surface is formed by pressing the bottom part of the container into the container towards its opening over a part which substantially corresponds to the reaction area. 5. Reaktionsbeholder ifølge krav 1,kendetegnet 25 ved, at overfladen er dannet ved til beholderens indre bundflade at fastgøre et koaksialt rør med mindre diameter,Reaction vessel according to claim 1, characterized in that the surface is formed by attaching to the inner bottom surface of the container a smaller diameter coaxial tube, 6. Reaktionsbeholder ifølge krav 4 eller 5, kendetegnet ved, at et af rørene er udformet med radialt forløbende indbøjninger, ribber eller flanger.Reaction vessel according to claim 4 or 5, characterized in that one of the tubes is formed with radially extending bends, ribs or flanges. 7. Reaktionsbeholder ifølge krav 4 eller 5f kende tegnet ved, at begge rørene er udformet med indbøjnin- - DK 157715B ger, ribber eller flanger.7. Reaction vessel according to claim 4 or 5f, characterized in that both tubes are formed with bends, ribs or flanges. 8. Reaktionsbeholder ifølge krav 7, kendetegnet ved, at indbøjningerne, ribberne eller flangerne i det ene rør er således anbragt, at de passer sammen med de tilsvarende 5 dele på det andet rør.Reaction vessel according to claim 7, characterized in that the bends, ribs or flanges in one tube are arranged to fit with the corresponding 5 parts on the other tube. 9. Reaktionsbeholder ifølge krav 2 eller 3, k ende-tegnet ved, at beholderen er udstyret med højst 8, fortrinsvis fra 4 til 6 indbøjninger, ribber eller flanger.9. Reaction vessel according to claim 2 or 3, characterized in that the vessel is equipped with a maximum of 8, preferably from 4 to 6 bends, ribs or flanges. 10. Reaktionsbeholder ifølge krav 9, kendetegnet 10 ved, at indbøjningerne, ribberne eller flangerne strækker sig ind i reaktionsbeholderen gennem en afstand svarende til fra ca. 1/8 til noget mindre end 1/2, såsom fra 1/8 til 5/12, fortrinsvis fra 1/5 til 1/3 af beholderens indvendige diameter.Reaction vessel according to claim 9, characterized in that the bends, ribs or flanges extend into the reaction vessel through a distance corresponding to from approx. 1/8 to slightly less than 1/2, such as from 1/8 to 5/12, preferably from 1/5 to 1/3 of the inside diameter of the container. 11. Reaktionsbeholder ifølge et eller flere af kravene 1-10, kendetegnet ved, at den består af et materiale indeholdende hydrofile funktionelle grupper.Reaction vessel according to one or more of claims 1-10, characterized in that it consists of a material containing hydrophilic functional groups. 12. Reaktionsbeholder ifølge krav 11, kendetegnet ved, at materialet er udvalgt fra gruppen bestående 20 af polyacrylatethylencopolymere, polystyrenderivater, såsom polyaminostyren, polystyrenacrylonitril eller polyvinylbenzyl-chlorid, polyhydroxymethylmethacrylat, tris-acryl-N^.Reaction vessel according to claim 11, characterized in that the material is selected from the group consisting of polyacrylate ethylene copolymers, polystyrene derivatives such as polyamino styrene, polystyrene acrylonitrile or polyvinylbenzyl chloride, polyhydroxymethyl methacrylate, tris-acrylic N 2.
DK429284A 1983-09-08 1984-09-07 IMMUNOLOGICAL RESEARCH RESPONSE DK157715C (en)

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FI833207 1983-09-08
FI833207A FI833207A0 (en) 1983-09-08 1983-09-08 REAKTIONSKAERL FOER IMMUNOLOGISKA BESTAEMNINGAR

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DE3481760D1 (en) 1990-05-03
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DK429284A (en) 1985-03-09
DK429284D0 (en) 1984-09-07
FI833207A0 (en) 1983-09-08
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JPS60155972A (en) 1985-08-16
ES292536Y (en) 1987-08-16

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