TWI398636B - Detecting method of liquid sample - Google Patents
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- TWI398636B TWI398636B TW97139296A TW97139296A TWI398636B TW I398636 B TWI398636 B TW I398636B TW 97139296 A TW97139296 A TW 97139296A TW 97139296 A TW97139296 A TW 97139296A TW I398636 B TWI398636 B TW I398636B
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Description
本發明係關於一種流體的定量檢測方法,特別是一種有關於生化檢測與免疫檢測所使用之流體的定量檢測方法。The present invention relates to a method for quantitatively detecting a fluid, and more particularly to a method for quantitatively detecting a fluid used in biochemical detection and immunoassay.
以流體檢測試片進行生化檢測與免疫檢測的習知技術中,流體檢測試片在其基板或底材上設計有流道或微流道結構,而因流道周圍並非吸水材質,且待測流體多為含有如蛋白質或是醣類等黏滯度高之組成物,所以當待測流體流過後,會在流道上殘留,使得待測流體無法完全反應,如此一來,不僅造成待測流體的浪費,更可能造成最終測試結果的誤差。In the conventional technique of performing biochemical detection and immunodetection using a fluid detecting test piece, the fluid detecting test piece is designed with a flow path or a micro flow path structure on the substrate or the substrate, and the surrounding of the flow path is not a water absorbing material, and is to be tested. The fluid is mostly composed of a highly viscous composition such as protein or saccharide. Therefore, when the fluid to be tested flows, it will remain on the flow path, so that the fluid to be tested cannot be completely reacted, thus not only causing the fluid to be tested. The waste is more likely to cause errors in the final test results.
此外,習知技術的流體檢測試片在流體傳送方面,可設計有微流道結構,並係利用微流道結構產生的毛細現象,將流體經過流道被動傳送至反應偵測區域;另一種方式則是在注入待測流體時即利用加壓等方式,給予流體一驅動力,使得流體可主動通過流道,到達反應偵測區域。但是無論是上述任一種方式,待測流體注入流道後常常產生大小不一的氣泡使得流道阻塞,造成實際測量上之誤差,甚至致使測試失敗。In addition, the fluid detecting test piece of the prior art can be designed with a micro-flow channel structure in fluid transfer, and utilizes the capillary phenomenon generated by the micro-flow path structure to passively transfer the fluid through the flow path to the reaction detecting area; The method is to apply a driving force to the fluid when the fluid to be tested is injected, that is, using a pressure or the like, so that the fluid can actively pass through the flow path to reach the reaction detecting area. However, in either of the above manners, after the fluid to be tested is injected into the flow channel, bubbles of different sizes are often generated to block the flow path, causing an error in actual measurement, and even causing the test to fail.
最後,習知技術的檢測試片,在製作上多使用模鑄或射出成型的方式在基板上做出流道或微流道結構,所以必須使用聚乙烯(PE)、聚氯乙烯(PVC)或聚丙烯(PP)等價格較高之塑膠聚合物作為材質,進而造成試片之總體成本的提高。Finally, in the test strips of the prior art, the flow path or the micro-channel structure is formed on the substrate by using die casting or injection molding, so polyethylene (PE) and polyvinyl chloride (PVC) must be used. Or a higher-priced plastic polymer such as polypropylene (PP) is used as the material, which in turn causes an increase in the overall cost of the test piece.
為克服上述缺點,本發明提供一種流體檢測方法,主要包含下列步驟:In order to overcome the above disadvantages, the present invention provides a fluid detecting method, which mainly comprises the following steps:
(1)提供一基板,自其上表面向下凹設至少一流道。流道包含依序連接之第一流體區、第二流體區與第三流體區,第二流體區與第三流體區之底部形成有硝化纖維層,且硝化纖維層包含有中空網狀構型,其中第二流體區係供流體之傳送,第三流體區係供流體之反應,因此,第二流體區的硝化纖維層平均厚度不大於第三流體區硝化纖維層厚度,且第三流體區之硝化纖維層可吸收定量之流體。另外,有一反應材料形成於上述的硝化纖維層之中空網狀構型中;(1) Providing a substrate with at least a first-class track recessed from the upper surface thereof. The flow channel comprises a first fluid zone, a second fluid zone and a third fluid zone connected in sequence, a nitrocellulose layer is formed at the bottom of the second fluid zone and the third fluid zone, and the nitrocellulose layer comprises a hollow mesh configuration Wherein the second fluid zone is for fluid transfer and the third fluid zone is for fluid reaction, therefore, the average thickness of the nitrocellulose layer of the second fluid zone is no greater than the thickness of the third fluid zone nitrocellulose layer, and the third fluid zone The nitrocellulose layer absorbs a quantity of fluid. In addition, a reactive material is formed in the hollow network configuration of the nitrocellulose layer;
(2)自基板的第一流體區注入一流體,使流體經由第二流體區進入第三流體區;(2) injecting a fluid from the first fluid region of the substrate to allow fluid to enter the third fluid region via the second fluid region;
(3)使第三流體區的硝化纖維層吸收定量之流體;以及(3) causing the nitrocellulose layer of the third fluid zone to absorb a quantity of fluid;
(4)藉由流體中的特定成份與第三流體區的反應材料交互作用而形成光學反應而檢出。(4) Detecting by forming an optical reaction by interaction of a specific component in the fluid with a reaction material of the third fluid zone.
本發明之主要目的,係提供一種流體檢測方法,其中,因所提供的基板之流道具有可吸水的硝化纖維層,由於單位體積的硝化纖維吸水量係為定值,故可經由設定基板上硝化纖維層的體積,而提供流體的定量檢測。The main object of the present invention is to provide a fluid detecting method in which a flow path of a substrate is provided with a water absorbing nitrocellulose layer, and since a water volume per unit volume of nitrocellulose is constant, it can be set on a substrate. The volume of the nitrocellulose layer provides quantitative detection of the fluid.
本發明之另一目的,係提供一種流體檢測方法,其中,因所提供的基板之流道具有中空網狀構型的硝化纖維層,由於流體流經中空網狀構型時,流體中的氣泡會被破壞,故可避免氣泡阻塞流道,而提供穩定且可靠的檢測結果。Another object of the present invention is to provide a fluid detecting method in which a flow path of a substrate having a hollow network configuration has a nitrocellulose layer, and bubbles in the fluid flow through the hollow network configuration. It will be destroyed, so that bubbles can be prevented from blocking the flow path, providing stable and reliable detection results.
由於本發明係揭露一種流體的定量檢測方法,其中所利用物理、化學原理及溶液塗布技術,已為相關技術領域具有通常知識者所能明瞭,故以下文中之說明,不再作完整描述。同時,以下文中所對照之圖式,係表達與本發明特徵有關之示意,並未亦不需要依據實際情形完整繪製,合先敘明。Since the present invention discloses a method for quantitatively detecting a fluid, the physical, chemical, and solution coating techniques utilized therein are well known to those of ordinary skill in the art, and therefore, the description below will not be fully described. At the same time, the drawings in the following texts are indicative of the features related to the features of the present invention, and are not required to be completely drawn according to the actual situation.
請參見第1圖,係本發明之較佳實施例,為一種流體的定量檢測方法的流程,係用於檢測流體中的特定成份,主要包含下列步驟:Referring to FIG. 1, a preferred embodiment of the present invention is a flow of a quantitative method for detecting a fluid, which is used for detecting a specific component in a fluid, and mainly comprises the following steps:
步驟1:首先,提供一基板10,請參考第2圖,基板10自其上表面100向下凹設至少一流道11,流道11包含依序連接之第一流體區111、第二流體區112與第三流體區113。在較佳的實施狀態中,基板10為生物相容(biocompatible)材料。請繼續參考第3圖,為第2圖沿AA連線之剖面圖。在第二流體區112與第三流體區113之底部均形成有中空網狀構型的硝化纖維層1121與1131,其中第二流體區112係供流體之傳送,第三流體區113係供流體之反應。第二流體區的硝化纖維層1121平均厚度Da不大於第三流體區之硝化纖維層1131厚度Db,且第三流體區之硝化纖維層1131的吸收液體量是固定的。又,硝化纖維層1121與1131的中空網狀構型中,包含有反應材料,反應材料的組成係與流體中所含有的待測成份的種類有關。Step 1: First, a substrate 10 is provided. Referring to FIG. 2, the substrate 10 is recessed from the upper surface 100 thereof to at least the first channel 11, and the flow channel 11 includes the first fluid region 111 and the second fluid region sequentially connected. 112 and a third fluid zone 113. In a preferred embodiment, substrate 10 is a biocompatible material. Please continue to refer to Figure 3, which is a cross-sectional view along line AA of Figure 2. A nitrocellulose layer 1121 and 1131 having a hollow network configuration is formed at the bottom of the second fluid region 112 and the third fluid region 113, wherein the second fluid region 112 is for fluid transfer, and the third fluid region 113 is for fluid supply. The reaction. The average thickness Da of the nitrocellulose layer 1121 of the second fluid zone is not greater than the thickness Db of the nitrocellulose layer 1131 of the third fluid zone, and the amount of absorbed liquid of the nitrocellulose layer 1131 of the third fluid zone is fixed. Further, the hollow mesh configuration of the nitrocellulose layers 1121 and 1131 includes a reaction material, and the composition of the reaction material is related to the type of the component to be tested contained in the fluid.
步驟2:自基板10的第一流體區111中注入流體L(未圖示),使流體L在注入第一流體區111後,經由第二流體區112的傳送,到達第三流體區113。Step 2: Injecting a fluid L (not shown) from the first fluid zone 111 of the substrate 10 to cause the fluid L to reach the third fluid zone 113 after being injected into the first fluid zone 111 via the second fluid zone 112.
步驟3:使第三流體區113的硝化纖維層1131吸收定量之流體L。Step 3: The nitrocellulose layer 1131 of the third fluid zone 113 is caused to absorb a quantity of the fluid L.
步驟4:藉由流體L中的特定成分與第三流體區113的反應材料交互作用而形成一反應訊號而檢出,其中,前述之反應訊號可為冷光反應訊號、螢光反應訊號、光吸收反應訊號,或是電化學反應訊號。Step 4: detecting a reaction signal by interacting with a specific component of the fluid L and the reaction material of the third fluid region 113, wherein the reaction signal may be a cold light reaction signal, a fluorescent reaction signal, or a light absorption. Reaction signal, or electrochemical reaction signal.
此外,為了降低流道與流體之間的毛細作用所造成的影響,本發明所提出之流道並非習知技術所謂的微流道,且第二流體區112與第三流體區113的寬度Wa與Wb較佳至少為0.3mm。Further, in order to reduce the influence of the capillary action between the flow path and the fluid, the flow path proposed by the present invention is not a so-called micro flow path of the prior art, and the width Wa of the second fluid region 112 and the third fluid region 113 It is preferably at least 0.3 mm with Wb.
在製作上,硝化纖維層1121與1131的形成方式與反應材料形成於其中的方式如下所述。先將硝化纖維粉末(nitrocellulose powder)與含有酯類(ester)和酮類(ketone)的有機溶劑混合後形成一硝化纖維溶液;再將硝化纖維溶液澆注(casting)於第二流體區112與第三流體區113的底部,經乾燥後,於第二流體區112底部則會形成硝化纖維層1121,而於第三流體區113的底部則形成硝化纖維層1131。為達較佳的澆注效果,流道11之表面粗糙度(Ra值)以介於3微米至50微米之間為佳。In the production, the manner in which the nitrocellulose layers 1121 and 1131 are formed and the manner in which the reaction material is formed are as follows. First, a nitrocellulose powder is mixed with an organic solvent containing an ester and a ketone to form a nitrocellulose solution; and the nitrocellulose solution is cast in the second fluid region 112 and the first The bottom of the three-fluid zone 113, after drying, forms a nitrocellulose layer 1121 at the bottom of the second fluid zone 112, and forms a nitrocellulose layer 1131 at the bottom of the third fluid zone 113. For better casting, the surface roughness (Ra value) of the flow path 11 is preferably between 3 and 50 microns.
硝化纖維溶液乾燥後形成具有中空網狀構型的硝化纖維層,為了調整較佳的中空網狀構型,本發明的硝化纖維溶液中,硝化纖維粉末與含有酯類和酮類的有機溶劑混合的較佳體積比例為1:9。由於單位體積的硝化纖維吸水量係為定值,故可由欲吸收之待測流體的體積推算出對應的硝化纖維溶液的體積,之後再行澆注。如此可以固定檢測所需液體之體積量,並適用於微量檢測。After the nitrocellulose solution is dried, a nitrocellulose layer having a hollow network configuration is formed. In order to adjust a preferred hollow network configuration, the nitrocellulose powder of the nitrocellulose solution of the present invention is mixed with an organic solvent containing an ester and a ketone. The preferred volume ratio is 1:9. Since the water absorption per unit volume of the nitrocellulose is constant, the volume of the corresponding nitrocellulose solution can be derived from the volume of the fluid to be absorbed, and then cast. This makes it possible to fix the volume of the liquid required for detection and to be suitable for micro-testing.
待硝化纖維層1121與1131分別乾燥成形於第二流體區112與第三流體區113的底部後,將含有反應材料的反應溶液注入硝化纖維層1121與1131,經過風乾或是冷凍乾燥(lyophilization)後,以粉末狀的形式留存在硝化纖維層1121與1131之中。After the nitrocellulose layers 1121 and 1131 are respectively dried and formed at the bottoms of the second fluid region 112 and the third fluid region 113, the reaction solution containing the reaction material is injected into the nitrocellulose layers 1121 and 1131, and subjected to air drying or lyophilization. Thereafter, it remains in the form of a powder in the nitrocellulose layers 1121 and 1131.
上述硝化纖維層1121、1131與反應材料形成於其中的方式係以先形成硝化纖維層之後再注入反應材料後的順序形成方式,另外,亦可將含有反應材料的反應溶液,加入由硝化纖維粉末(nitrocellulose powder)與含有酯類(ester)和酮類(ketone)的有機溶劑組成的硝化纖維溶液中;混合完畢之後,再將混合好的溶液澆注(casting)於第二流體區112與第三流體區113的底部,經過風乾或冷凍乾燥程序,同時將硝化纖維溶液形成硝化纖維層1121與1131,以及將反應材料形成粉末狀留存在硝化纖維層1121與1131之中。The manner in which the nitrocellulose layer 1121, 1131 and the reaction material are formed is formed by sequentially forming a nitrocellulose layer and then injecting the reaction material, and the reaction solution containing the reaction material may be added to the nitrocellulose powder. (nitrocellulose powder) in a nitrocellulose solution consisting of an organic solvent containing an ester and a ketone; after mixing, the mixed solution is cast in the second fluid zone 112 and the third The bottom of the fluid zone 113 is subjected to an air drying or freeze drying process, and the nitrocellulose solution is formed into the nitrocellulose layers 1121 and 1131, and the reaction material is powdered and left in the nitrocellulose layers 1121 and 1131.
由於待測成份不同,檢測所需進行之反應亦有所差異;進而依反應種類的不同,產生出各種不同的訊號。例如進行生化檢測時,係用酵素催化流體中的待測物質與化學試劑,進而產生出特定訊號以供偵測。所以要進行生化檢測,反應材料則會包含酵素及相對應的化學試劑。另一方面,若要檢測檢體中的某些蛋白質,例如:胎兒蛋白(-fetoprotein)是否存在,則是利用具有專一性之抗體,與待測蛋白質進行專一性結合,再利用其他化學試劑與已結合上待測蛋白質的抗體進行反應,發出可供偵測的訊號。所以要進行免疫檢測,反應材料中則會包含有化學及抗體等免疫試劑。故,本發明所提供之基板10,可用於各種生物檢體(如尿液、血液等流體)中之各項待測成份的檢測。Due to the different components to be tested, the reactions required for the detection are also different; and depending on the type of reaction, various signals are generated. For example, in the biochemical test, the enzyme is used to catalyze the test substance and the chemical reagent in the fluid, thereby generating a specific signal for detection. Therefore, for biochemical testing, the reaction material will contain enzymes and corresponding chemical reagents. On the other hand, if certain proteins in the sample, such as the presence of a fetal protein (-fetoprotein), are detected, the specific antibody is used to specifically bind to the protein to be tested, and then other chemical reagents are used. The antibody that has been bound to the protein to be tested is reacted to emit a signal for detection. Therefore, an immunoassay is required, and the reaction material contains immunological reagents such as chemicals and antibodies. Therefore, the substrate 10 provided by the present invention can be used for detecting various components to be tested in various biological samples (such as urine, blood, and the like).
上述之較佳實施例係使用具有三個流體區域之基板,而根據本發明之流體的定量檢測方法,所使用之基板進一步可在流道的第三流體區之後再加設一第四流體區(未圖示),以供儲存流道中多餘之流體。而第四流體區的硝化纖維層之構型、形成方式、使用之硝化纖維溶液之成份與較佳比例、反應材料之組成,均與前述之較佳實施例相同,在此不再重複贅述。The preferred embodiment described above uses a substrate having three fluid regions, and according to the method for quantitatively detecting a fluid according to the present invention, the substrate used may further be provided with a fourth fluid region after the third fluid region of the flow channel. (not shown) for storing excess fluid in the flow path. The configuration and formation mode of the nitrocellulose layer in the fourth fluid zone, the composition and preferred ratio of the nitrocellulose solution used, and the composition of the reaction material are the same as those of the preferred embodiment described above, and the detailed description thereof will not be repeated here.
以上所述僅為本發明較佳實施例而已,並非用以限定本發明申請專利權利;同時以上的描述對於熟之本技術領域之專門人士應可明瞭與實施,因此其他未脫離本發明所揭示之精神下所完成的等效改變或修飾,均應包含於下述之申請專利範圍。The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention. The above description is to be understood by those skilled in the art, and thus the other embodiments are not disclosed. Equivalent changes or modifications made in the spirit of the invention are to be included in the scope of the claims below.
1、2、3、4...步驟1, 2, 3, 4. . . step
10...基板10. . . Substrate
100...上表面100. . . Upper surface
11...流道11. . . Runner
111...第一流體區111. . . First fluid zone
112...第二流體區112. . . Second fluid zone
113...第三流體區113. . . Third fluid zone
1121、1131...硝化纖維層1121, 1131. . . Nitrocellulose layer
Da...硝化纖維層1121厚度Da. . . Nitrifying fiber layer 1121 thickness
Db‧‧‧硝化纖維層1131厚度Db‧‧‧Nitrocellulose layer 1131 thickness
Wa‧‧‧第二流體區的寬度Wa‧‧‧Width of the second fluid zone
Wb‧‧‧第三流體區的寬度Wb‧‧‧ width of the third fluid zone
第1圖,為本發明較佳實施例流體檢測方法之流程圖。1 is a flow chart of a fluid detecting method in accordance with a preferred embodiment of the present invention.
第2圖,為本發明較佳實施例流體檢測方法所提供之基板之示意圖。2 is a schematic view of a substrate provided by a fluid detecting method according to a preferred embodiment of the present invention.
第3圖,為本發明較佳實施例流體檢測方法所提供之基板之剖面示意圖。3 is a cross-sectional view of a substrate provided by a fluid detecting method according to a preferred embodiment of the present invention.
1、2、3、4...步驟1, 2, 3, 4. . . step
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US5821073A (en) * | 1996-05-09 | 1998-10-13 | Syntron Bioresearch, Inc. | Method and apparatus for single step assays of whole blood |
US20050142666A1 (en) * | 2000-05-04 | 2005-06-30 | Audeh Zuheir L. | Colloid compositions for solid phase biomolecular analytical, preparative and identification systems |
TWI283747B (en) * | 2001-09-05 | 2007-07-11 | Lifescan Inc | A test strip for analyte concentration determination and methods of manufacturing and using the same |
TWI251080B (en) * | 2002-08-27 | 2006-03-11 | Kimberly Clark Co | Fluidics-based assay devices |
US20060141469A1 (en) * | 2003-01-14 | 2006-06-29 | Diannoswiss S.S. | Multi-layered electrochemical microfluidic sensor comprising reagent on porous layer |
CN101213451A (en) * | 2005-06-28 | 2008-07-02 | Zbx公司 | Membrane array and analytical device |
JP2007139649A (en) * | 2005-11-21 | 2007-06-07 | Asahi Kasei Corp | Porous body of analyzer |
WO2007081330A1 (en) * | 2006-01-10 | 2007-07-19 | Inverness Medical Switzerland Gmbh | Device and method for immunoassays |
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