TWI534430B - Test strips and method for reading test strips - Google Patents
Test strips and method for reading test strips Download PDFInfo
- Publication number
- TWI534430B TWI534430B TW102113439A TW102113439A TWI534430B TW I534430 B TWI534430 B TW I534430B TW 102113439 A TW102113439 A TW 102113439A TW 102113439 A TW102113439 A TW 102113439A TW I534430 B TWI534430 B TW I534430B
- Authority
- TW
- Taiwan
- Prior art keywords
- color
- reaction zone
- sample
- zone
- image
- Prior art date
Links
Landscapes
- Investigating Or Analysing Materials By The Use Of Chemical Reactions (AREA)
Description
本發明一般係關於塗抹於一試片上的一或更多分析物之測光度分析。 The present invention is generally directed to photometric analysis of one or more analytes applied to a test strip.
第一圖顯示具有一反應區102的一先前技術檢體試片100。反應區102內含與檢體樣本內分析物反應的試劑,例如血液樣本內的葡萄糖。該檢體樣本到達反應區102時,反應區102根據分析物的特性改變顏色,例如血液內的葡萄糖位準。使用者目視比較反應區102與圖表104的顏色,將反應區102的顏色關聯於分析物的特性。另外,使用者將檢體試片100插入量錶內,用光學方式判定分析物的特性。 The first figure shows a prior art test strip 100 having a reaction zone 102. The reaction zone 102 contains reagents that react with analytes in the sample, such as glucose in a blood sample. When the sample sample reaches the reaction zone 102, the reaction zone 102 changes color depending on the characteristics of the analyte, such as the level of glucose in the blood. The user visually compares the color of reaction zone 102 to chart 104, correlating the color of reaction zone 102 to the identity of the analyte. Further, the user inserts the specimen test piece 100 into the scale to optically determine the characteristics of the analyte.
根據本發明的態樣,偵測一檢體樣本內一分析物特性的一檢體試片提供一反應區,該反應區設置成接受該檢體樣本,以及一校色區,該校色區設置成在接受該檢體樣本之後判定該反應區的顏色。在某些具體實施例內,提供複數個反應區,每一區都設置成偵測該分析物特性值的不同範圍。 According to an aspect of the present invention, a sample test piece for detecting an analyte property in a sample sample provides a reaction zone, the reaction zone is configured to receive the sample sample, and a color correction zone, the color correction zone It is arranged to determine the color of the reaction zone after receiving the sample of the sample. In some embodiments, a plurality of reaction zones are provided, each zone being configured to detect a different range of analyte property values.
根據本發明的其他態樣,提供一種讓一計算裝置使用一成像裝置讀取一檢體試片,以偵測一檢體樣本內一分析物特性之方法。在某些具體實施例內,該方法包含擷取該檢體試片的一或更多影像,其中每一影像包含該檢體試片上的一反應區與一校色區。在這些具體實施例內,該方法另包含根據來自該等一或更多影像的該校色區,判斷該反應區的顏色,並且將該反應區的顏色關聯於該分析物的特性值。 In accordance with other aspects of the present invention, a method is provided for a computing device to read a sample test piece using an imaging device to detect an analyte characteristic in a sample sample. In some embodiments, the method includes extracting one or more images of the test strip, wherein each image includes a reaction zone and a color correction zone on the test strip. In these embodiments, the method further comprises determining the color of the reaction zone based on the color correction zone from the one or more images and correlating the color of the reaction zone to a property value of the analyte.
在某些具體實施例內,提供包含擷取該檢體試片的至少兩影像之方法,其中每一影像包含一反應區。該方法另包含從該等影像判斷該 反應區的一色彩濃度變化,並且該等影像擷取時的一時間差。該方法也包含將該色彩濃度變化與該時間差關聯於該分析物的特性值。 In some embodiments, a method is provided for capturing at least two images of the test strip, wherein each image comprises a reaction zone. The method further includes determining the image from the images A color concentration of the reaction zone changes, and a time difference when the images are captured. The method also includes correlating the color density change to the time difference to a characteristic value of the analyte.
在某些具體實施例內,提供包含擷取該檢體試片的一第一影像之方法。該影像包含反應區,每一區都設置成偵測一分析物特性值的不同範圍。該方法另包含選擇該等反應區之一者,並將該已選取的反應區關聯於該分析物的特性值。 In some embodiments, a method of capturing a first image of the test strip is provided. The image contains reaction zones, each zone being arranged to detect a different range of analyte property values. The method further comprises selecting one of the reaction zones and correlating the selected reaction zone to a property value of the analyte.
100‧‧‧檢體試片 100‧‧‧sample test piece
102‧‧‧反應區 102‧‧‧Reaction zone
104‧‧‧圖表 104‧‧‧Chart
200‧‧‧檢體試片 200‧‧‧sample test piece
202‧‧‧反應區 202‧‧‧Reaction zone
204‧‧‧校色區 204‧‧‧ School color area
206‧‧‧校溫區 206‧‧‧School area
208‧‧‧成像裝置 208‧‧‧ imaging device
210‧‧‧計算裝置 210‧‧‧ Computing device
212‧‧‧影像 212‧‧‧ images
502‧‧‧反應區 502‧‧‧Reaction zone
506‧‧‧像素 506‧‧ ‧ pixels
508‧‧‧像素 508‧‧ ‧ pixels
510‧‧‧中央像素 510‧‧‧Central pixel
300‧‧‧檢體試片 300‧‧‧Check sample
302‧‧‧反應區 302‧‧‧Reaction zone
304‧‧‧校色區 304‧‧‧ School color area
306‧‧‧校溫區 306‧‧‧School area
306A‧‧‧部分 Section 306A‧‧‧
306B‧‧‧部分 Section 306B‧‧‧
400‧‧‧配置 400‧‧‧Configuration
402‧‧‧反應區 402‧‧‧Reaction zone
404‧‧‧校色區 404‧‧‧ School color area
500‧‧‧配置 500‧‧‧Configuration
504‧‧‧校色區 504‧‧‧ School color area
600‧‧‧檢體試片 600‧‧‧sample test piece
602‧‧‧計時毛細管 602‧‧‧Timed Capillary
604‧‧‧毛細管入口 604‧‧‧Capillary inlet
606‧‧‧反應毛細管 606‧‧‧Reactive capillary
608‧‧‧反應區 608‧‧‧Reaction zone
700‧‧‧檢體試片 700‧‧‧sample test piece
702‧‧‧反應區 702‧‧‧Reaction zone
704‧‧‧計時區 704‧‧‧Time zone
706‧‧‧校色區 706‧‧‧ School color area
900‧‧‧圖表 900‧‧‧Chart
902‧‧‧曲線 902‧‧‧ Curve
904‧‧‧曲線 904‧‧‧ Curve
906‧‧‧曲線 906‧‧‧ Curve
908‧‧‧時間視窗 908‧‧‧Time window
1300‧‧‧檢體試片 1300‧‧‧ test sample
1302A‧‧‧反應區 1302A‧‧‧Reaction zone
1302B‧‧‧反應區 1302B‧‧‧Reaction zone
1302C‧‧‧反應區 1302C‧‧‧Reaction zone
1302D‧‧‧反應區 1302D‧‧‧Reaction zone
1302‧‧‧反應區 1302‧‧‧Reaction zone
1304‧‧‧校色區 1304‧‧‧ School color area
1306‧‧‧校溫區 1306‧‧‧ School District
1400‧‧‧檢體試片 1400‧‧‧ test sample
1402A‧‧‧反應區 1402A‧‧‧Reaction zone
1402B‧‧‧反應區 1402B‧‧‧Reaction zone
1402C‧‧‧反應區 1402C‧‧‧Reaction zone
1402D‧‧‧反應區 1402D‧‧‧Reaction zone
1402‧‧‧反應區 1402‧‧‧Reaction zone
1500‧‧‧檢體試片 1500‧‧‧ test sample
1502A‧‧‧反應區 1502A‧‧‧Reaction zone
1502B‧‧‧反應區 1502B‧‧‧Reaction zone
1502C‧‧‧反應區 1502C‧‧‧Reaction zone
1502D‧‧‧反應區 1502D‧‧‧Reaction zone
1502‧‧‧反應區 1502‧‧‧Reaction zone
1600‧‧‧檢體試片 1600‧‧‧sample test piece
1602A‧‧‧反應區 1602A‧‧‧Reaction zone
1602B‧‧‧反應區 1602B‧‧‧Reaction zone
1602C‧‧‧反應區 1602C‧‧‧Reaction zone
1602D‧‧‧反應區 1602D‧‧‧Reaction zone
1602‧‧‧反應區 1602‧‧‧Reaction zone
1604‧‧‧毛細管入口 1604‧‧‧Capillary inlet
1606‧‧‧毛細管 1606‧‧‧Capillary
1802‧‧‧影像 1802‧‧ images
1804‧‧‧影像 1804‧‧ images
1806‧‧‧影像 1806‧‧‧Image
1902‧‧‧影像 1902‧‧ images
1904‧‧‧影像 1904‧‧ images
1906‧‧‧影像 1906‧‧ images
2000‧‧‧檢體試片 2000‧‧‧ test sample
2002‧‧‧反應區 2002‧‧‧Reaction zone
2004‧‧‧反應區 2004‧‧‧Reaction zone
2006‧‧‧反應區 2006‧‧‧Reaction zone
2100‧‧‧檢體試片 2100‧‧‧sample test piece
2102‧‧‧毛細管入口 2102‧‧‧Capillary inlet
2104‧‧‧毛細管 2104‧‧‧Capillary
2106‧‧‧反應區 2106‧‧‧Reaction zone
2108‧‧‧孔 2108‧‧‧ hole
2110‧‧‧頂端開口 2110‧‧‧Top opening
2112‧‧‧透明膜 2112‧‧‧Transparent film
2114‧‧‧底部開口 2114‧‧‧ bottom opening
2116‧‧‧透明膜 2116‧‧‧Transparent film
2200‧‧‧圖表 2200‧‧‧ Chart
2300‧‧‧圖表 2300‧‧‧ Chart
從下列描述以及申請專利範圍結合附圖,將會更完整了解到本發明的上述與其他特色。吾人瞭解到這些圖式僅描述根據本發明的一些具體實施例,因此並不對其領域產生限制,在此將透過附圖利用其他特徵與細節來描述本發明。 The above and other features of the present invention will be more fully understood from the following description and appended claims. It is understood that the drawings illustrate only certain embodiments of the invention, and are in no way
圖式中:第一圖顯示先前技術檢體試片;第二圖顯示一檢體試片,其具有本發明一或更多範例內的一反應區、一校色區以及一校溫區;第三圖顯示一檢體試片,其具有本發明一或更多範例內的一反應區、一校色區以及一校溫區;第四圖顯示本發明一或更多範例內一反應區以及一校色區之配置;第五圖顯示本發明一或更多範例內一反應區以及一校色區之配置;第六圖顯示在本發明一或更多範例中具有一計時毛細管的部分檢體試片;第七圖顯示一檢體試片,其具有本發明一或更多範例內的一反應區以及一計時區;第八圖為讓一計算裝置執行一診斷應用,以計算並讀取本發明一或更多範例內的一檢體試片之方法流程;第九圖為例示針對本發明一或更多範例的分析物特性值,繪製隨時間而變的顏色參數之曲線圖; 第十圖為讓一計算裝置執行一診斷應用,以使用差異計算迅速讀取本發明一或更多範例內的一檢體試片之方法流程;第十一圖為讓一計算裝置執行一診斷應用,以搭配本發明一或更多範例內一分析物特性值來追蹤使用者飲食之方法流程;第十二圖以圖形例示在本發明一或更多範例內餐點、用餐次數以及分析物特性值在一天之內的關聯性;第十三A圖顯示一檢體試片,其包含本發明一或更多範例內的一組反應區,以偵測分析物特性值的不同範圍;第十三B圖、第十三C圖和第十三D圖顯示接收具有本發明一或更多範例內不同分析物特性值的檢體樣本之後第十三A圖之檢體試片;第十四圖顯示一檢體試片,其包含本發明一或更多範例內的一組反應區,以偵測分析物特性值的不同範圍;第十五圖顯示一檢體試片,其包含本發明一或更多範例內的一組反應區,以偵測分析物特性值的不同範圍;第十六圖顯示一檢體試片,其包含本發明一或更多範例內的一組反應區,以偵測分析物特性值的不同範圍;第十七圖為讓一計算裝置執行一診斷應用,以讀取具有多個反應區的一檢體試片,來偵測本發明一或更多範例內一分析物特性值的不同範圍之方法流程;第十八圖顯示不同曝光程度下的一檢體試片,以加強在本發明一或更多範例內的特定反應區之細節;第十九圖顯示不同閃光強度下的一檢體試片,以加強在本發明一或更多範例內的特定反應區之細節;第二十圖顯示一檢體試片,其包含多個反應區來偵測本發明一或更多範例內的不同分析物之特性值;第二十一圖顯示在本發明一或更多範例內一檢體試片的剖面圖;第二十二圖為例示針對本發明一或更多範例內一第一分析 物特性值,繪製隨時間而變的第一顏色之曲線圖;以及第二十三圖為例示針對本發明一或更多範例內一第二分析物特性值,繪製隨時間而變的第二顏色之曲線圖。 In the drawings: the first figure shows a prior art sample test piece; the second figure shows a sample test piece having a reaction zone, a color correction zone and a calibration temperature zone in one or more examples of the present invention; The third figure shows a sample test piece having a reaction zone, a color correction zone and a calibration zone in one or more examples of the present invention; and the fourth figure shows a reaction zone in one or more examples of the present invention. And a configuration of a color correction zone; the fifth diagram shows the configuration of a reaction zone and a color correction zone in one or more examples of the present invention; and the sixth figure shows a section having a timing capillary in one or more examples of the present invention. The test piece of the sample; the seventh figure shows a sample test piece having a reaction zone and a time zone in one or more examples of the present invention; and the eighth figure is for a computing device to perform a diagnostic application to calculate A method flow for reading a sample test piece in one or more of the examples of the present invention; and a ninth figure for illustrating an analyte characteristic value for one or more examples of the present invention, and plotting a color parameter as a function of time ; Figure 11 is a flow diagram of a method for causing a computing device to perform a diagnostic application to quickly read a sample test piece in one or more of the examples of the present invention using a difference calculation; An application method for tracking a user's diet in conjunction with an analyte property value in one or more of the examples of the present invention; and a twelfth graph graphically illustrating meals, meal times, and analytes in one or more of the examples of the present invention Correlation of characteristic values within one day; Figure 13A shows a sample test piece comprising a set of reaction zones within one or more of the examples of the present invention to detect different ranges of analyte property values; Thirteen B, Thirteenth, and Thirteenth D diagrams show a sample test piece of the thirteenth A chart after receiving a sample of a sample having different analyte property values in one or more of the examples of the present invention; Figure 4 shows a sample test piece comprising a set of reaction zones in one or more of the examples of the invention to detect different ranges of analyte property values; the fifteenth image shows a sample test piece comprising the present Inventing a set of reaction zones within one or more of the examples to Measuring different ranges of analyte property values; Figure 16 shows a sample test strip comprising a set of reaction zones within one or more of the examples of the invention to detect different ranges of analyte property values; The method for causing a computing device to perform a diagnostic application to read a sample test piece having a plurality of reaction zones to detect different ranges of analyte property values in one or more of the examples of the present invention; Figure 18 shows a sample test piece at different exposure levels to enhance details of a particular reaction zone within one or more of the examples of the present invention; Figure 19 shows a sample test piece at different flash intensities, Enhancing details of a particular reaction zone within one or more of the examples of the invention; FIG. 20 shows a sample test piece comprising a plurality of reaction zones for detecting different analytes in one or more of the examples of the invention The characteristic value; the twenty-first figure shows a cross-sectional view of a sample test piece in one or more examples of the present invention; and the twenty-second figure is a first analysis for one or more examples of the present invention. a property value, plotting a first color as a function of time; and a twenty-third diagram illustrating a second analyte property value for one or more of the examples of the invention, drawing a second as a function of time The curve of color.
第二圖顯示在本發明一或更多範例內一檢體試片200的示範具體實施例。檢體試片200包含一反應區202來接受一檢體樣本。反應區202包含多種試劑,用於與該檢體樣本內的分析物化學反應,並且產生與該檢體樣本內分析物特性值成比例的一或更多顏色參數。在某些具體實施例內,該等一或更多顏色參數包含反應區202的顏色或顏色與色彩濃度。在一個範例中,該顏色為反應區202的色調並且該色彩濃度為反應區202的亮度。該色調與亮度為色調、飽和度以及亮度(HSL)色彩空間的色彩成份,由一相機所捕捉的像素之紅色、綠色和藍色(RGB)值所決定。為了方便,顏色與色彩濃度可統稱為顏色。該等試劑可為分析物專屬且可包含一或更多酶、一或更多抗體及/或一或更多染料。例如:測試血糖的試劑可包含葡萄糖氧化酶、雜多酸和十四烷基硝酸銨。 The second figure shows an exemplary embodiment of a sample strip 200 in one or more examples of the present invention. The sample test strip 200 includes a reaction zone 202 for accepting a sample of the sample. Reaction zone 202 contains a plurality of reagents for chemically reacting with analytes within the sample of the sample and producing one or more color parameters that are proportional to the analyte property values within the sample of the sample. In some embodiments, the one or more color parameters comprise the color or color and color density of the reaction zone 202. In one example, the color is the hue of reaction zone 202 and the color density is the brightness of reaction zone 202. The hue and brightness are the hue, saturation, and brightness (HSL) color space color components determined by the red, green, and blue (RGB) values of the pixels captured by a camera. For convenience, color and color density can be collectively referred to as color. Such agents may be proprietary to the analyte and may comprise one or more enzymes, one or more antibodies, and/or one or more dyes. For example, the reagent for testing blood glucose may include glucose oxidase, heteropoly acid, and tetradecyl ammonium nitrate.
在一個範例中,檢體試片200包含屬於檢體試片200一部分的一校色區204。在一個範例中,校色區204用來判斷不同照明情況下反應區202的顏色。在這種範例中,校色區204可為具有已知顏色樣本排列的色圖。在另一個範例中,校色區204用來修正反應區202的偵測顏色,以去除該照明情況的效果。在這種範例中,校色區204可為已知反射率(例如18%)的灰色卡,用來當成顏色修正的白平衡參考。一計算裝置210擷取檢體試片200的一影像212時,灰色卡204也可當成曝光參考。在一個範例中,色圖或灰色卡204都印刷在檢體試片200上。 In one example, the specimen test strip 200 includes a color correction zone 204 that is part of the specimen test strip 200. In one example, the color correction zone 204 is used to determine the color of the reaction zone 202 under different illumination conditions. In this example, the color correction area 204 can be a color map having an arrangement of known color samples. In another example, the color correction zone 204 is used to correct the detected color of the reaction zone 202 to remove the effects of the illumination. In this example, the color correction zone 204 can be a gray card of known reflectance (e.g., 18%) used as a color corrected white balance reference. When a computing device 210 captures an image 212 of the specimen strip 200, the gray card 204 can also serve as an exposure reference. In one example, a color map or gray card 204 is printed on the specimen test strip 200.
在一個範例中,校色區204為具有一或更多已知顏色的一虛擬反應區。使用時虛擬反應區204維持相同的顏色,因為其缺少一或多種酶、一或多種抗體或一或多種染料。在另一個範例中,虛擬反應區204維持相同顏色,因為其並未接受任何檢體樣本。 In one example, color correction zone 204 is a virtual reaction zone having one or more known colors. The virtual reaction zone 204 maintains the same color in use because it lacks one or more enzymes, one or more antibodies, or one or more dyes. In another example, the virtual reaction zone 204 maintains the same color because it does not accept any sample samples.
在一個範例中,檢體試片200包含屬於檢體試片200一部分並連同反應區202和校色區204的一校溫區206。校溫區206根據其溫度改 變顏色,並且用於依照該等試劑之間的化學反應和該分析物可受檢體試片200的溫度影響,來修正反應區202的顏色。在一個範例中,校溫區206包含例如熱變色染料(例如像是螺內酯類、螢光黃母體類、螺吡喃類或浮精酸酐等的無色染料)這類有機材料、例如二氧化鈦、氧化鋅或氧化銦這類無機材料或熱變色液晶。在另一個範例中,校溫區206為指示溫度的一晶片、一機械裝置或一電機裝置。取代或除了使用校溫區206之外,計算裝置210可使用內建的感溫器大約判定反應區202的溫度。 In one example, the specimen test strip 200 includes a temperature zone 206 that is part of the specimen strip 200 along with the reaction zone 202 and the color correction zone 204. The temperature zone 206 is changed according to its temperature The color is changed and used to correct the color of the reaction zone 202 in accordance with the chemical reaction between the reagents and the temperature of the analyte to the analyte strip 200. In one example, the temperature zone 206 comprises, for example, a thermochromic dye (eg, a leuco dye such as a spironolactone, a fluorescent yellow parent, a spiropyran, or a bismuth hydride) such as titanium dioxide or zinc oxide. Or an inorganic material such as indium oxide or a thermochromic liquid crystal. In another example, the temperature zone 206 is a wafer, a mechanical device, or a motor device that indicates temperature. Instead of or in addition to using the temperature zone 206, the computing device 210 can use the built-in temperature sensor to approximately determine the temperature of the reaction zone 202.
使用者運用計算裝置210上的一成像裝置208,擷取反應區202以及至少校色區204與校溫區206之一者的影像212。成像裝置208可為一攝影機、一掃描器或另一類似的裝置,並且計算裝置210可為一智慧型手機、一平板電腦、一膝上型電腦、一桌上型電腦或另一類似的裝置。計算裝置210運行一診斷應用程式,該程式分析影像212以從反應區202的顏色判定該分析物特性。 The user uses an imaging device 208 on the computing device 210 to capture the image 212 of the reaction zone 202 and at least one of the color correction zone 204 and the calibration zone 206. The imaging device 208 can be a camera, a scanner or another similar device, and the computing device 210 can be a smart phone, a tablet computer, a laptop computer, a desktop computer or another similar device. . Computing device 210 runs a diagnostic application that analyzes image 212 to determine the analyte characteristics from the color of reaction zone 202.
在一個範例中,該診斷應用程式使用影像212內的校色區204判斷反應區202的顏色。校色區204為一色圖時,該診斷應用程式將反應區202的完整或部分顏色與校色區204的已知顏色樣本比對,以判定反應區202的顏色。另外,該診斷應用程式可操控影像212,直到色圖204匹配其已知的顏色,然後讀取所有或部分反應區202的顏色。校色區204為一灰色卡時,該診斷應用程式操控影像212,直到影像212內的灰色卡204具有正確白平衡,然後讀取反應區202的顏色。 In one example, the diagnostic application uses color correction zone 204 within image 212 to determine the color of reaction zone 202. When the color correction zone 204 is a color map, the diagnostic application compares the full or partial color of the reaction zone 202 with a known color sample of the color correction zone 204 to determine the color of the reaction zone 202. Additionally, the diagnostic application can manipulate the image 212 until the color map 204 matches its known color and then read the color of all or a portion of the reaction zone 202. When the color correction area 204 is a gray card, the diagnostic application manipulates the image 212 until the gray card 204 in the image 212 has the correct white balance and then reads the color of the reaction zone 202.
在另一個範例中,該診斷應用程式使用影像212內的校色區204判斷反應區202的顏色,並且使用影像212內的校溫區206修正該顏色。該診斷應用程式從校溫區206或計算裝置210內建感溫器判定檢體試片200的溫度,然後使用溫度與反應區202的顏色間之已知關係,針對溫度修正反應區202的顏色。此關係可由實驗、算術或這兩者決定。該診斷應用程式可在本發明中描述的任何其他修正之前或之後,使用校溫區206執行該溫度修正。 In another example, the diagnostic application uses the color correction zone 204 in the image 212 to determine the color of the reaction zone 202 and correct the color using the calibration zone 206 within the image 212. The diagnostic application determines the temperature of the test strip 200 from the temperature sensing zone 206 or the built-in temperature sensor of the computing device 210, and then uses the known relationship between the temperature and the color of the reaction zone 202 to correct the color of the reaction zone 202 for temperature. . This relationship can be determined by experiment, arithmetic, or both. The diagnostic application can perform the temperature correction using the calibration zone 206 either before or after any other modifications described in the present invention.
在一個範例中,該診斷應用程式在使用校色區204與校溫區206之前,先校準影像212的亮度。該診斷應用程式評估反應區202的亮度 曲線,以判斷亮度是否一致。該診斷應用程式從跨越反應區202或校色區204的至少兩位置(例如第五圖內的對角像素506和508)之RGB值,判定該亮度曲線。兩位置之間的亮度曲線高出雜訊位準一臨界量時(例如該亮度曲線為該雜訊位準的兩倍),則反應區202上的亮度不一致,並且該診斷應用程式修正影像212的亮度。在一個範例中,該診斷應用程式使用以下方程式來修正影像212的亮度:RGBnew=i*(R(x,y),G(x,y),B(x,y))/(Rest(x,y),Gest(x,y),Best(x,y)) In one example, the diagnostic application calibrates the brightness of image 212 prior to using color correction zone 204 and calibration zone 206. The diagnostic application evaluates the brightness of the reaction zone 202 Curve to determine if the brightness is consistent. The diagnostic application determines the brightness profile from RGB values across at least two locations of reaction zone 202 or color correction zone 204 (e.g., diagonal pixels 506 and 508 in the fifth plot). When the brightness curve between the two positions is higher than the noise level by a threshold amount (for example, the brightness curve is twice the noise level), the brightness on the reaction area 202 is inconsistent, and the diagnostic application corrects the image 212. Brightness. In one example, the diagnostic application uses the following equation to correct the brightness of image 212: RGBnew=i*(R(x,y), G(x,y),B(x,y))/(Rest(x) , y), Gest(x, y), Best(x, y))
其中R(x,y)、G(x,y)、B(x,y)為一像素的原始RGB值、Rest(x,y)、Gest(x,y)、Best(x,y)為相同像素上亮度曲線的評估RGB值,並且i為該反應區顏色的最大RGB值。例如:校色區204可包含圍繞反應區202的白色環。假設在影像212內,彎角506的RGB值為(200,200,200),並且彎角508的值為(100,100,100)。進一步假設該照明曲線為直線。根據這些假設,第五圖內反應區502的中央像素510上一白點應該具有(150,150,150)的RGB值。像素510上的顏色並非白色時,則RGB值取代為(125,75,75),中央點的新RGB值為i*(125,75,75)/(150,150,150),其中i為(255,255,255)。 Where R(x, y), G(x, y), B(x, y) are the original RGB values of one pixel, Rest(x, y), Gest(x, y), Best(x, y) are The RGB values are evaluated for the brightness curve on the same pixel, and i is the maximum RGB value of the color of the reaction zone. For example, the color correction zone 204 can include a white ring that surrounds the reaction zone 202. Assume that within image 212, the RGB value of corner 506 is (200, 200, 200) and the value of corner 508 is (100, 100, 100). Further assume that the illumination curve is a straight line. Based on these assumptions, a white point on the central pixel 510 of the reaction zone 502 in the fifth diagram should have an RGB value of (150, 150, 150). When the color on pixel 510 is not white, the RGB value is replaced by (125, 75, 75), and the new RGB value of the center point is i*(125, 75, 75) / (150, 150, 150), where i is (255, 255, 255).
在本發明內描述的一或更多校正之後,該診斷應用程式從反應區202抽取像素(例如50至100個像素),並且針對一或更多顏色參數決定其值(例如顏色或顏色與色彩濃度)。該診斷應用程式將該等一或更多顏色參數值平均,並且將該等一或更多平均顏色參數關聯於該分析物特性值(例如血中葡萄糖的濃度位準)。 After one or more of the corrections described within the present invention, the diagnostic application extracts pixels (e.g., 50 to 100 pixels) from the reaction zone 202 and determines its value (e.g., color or color and color) for one or more color parameters. concentration). The diagnostic application averages the one or more color parameter values and associates the one or more average color parameters to the analyte property values (eg, the concentration level of glucose in the blood).
在一個範例中,反應區202、校色區204以及校溫區206為矩形,並且區域204和206分別與區域202的頂端與底部側邊相鄰。反應區202、校色區204以及校溫區206可採用其他形狀與配置。 In one example, reaction zone 202, color correction zone 204, and tempering zone 206 are rectangular, and regions 204 and 206 are adjacent to the top and bottom sides of region 202, respectively. The reaction zone 202, the color correction zone 204, and the calibration zone 206 can take other shapes and configurations.
第三圖顯示一檢體試片300,其具有與本發明一或更多範例內一反應區302、一校色區304以及一校溫區306不同的配置。校色區306分成部分306A和306B,並且反應區302的左右兩側分別由部分306A與306B夾住。校色區304與反應區302與校溫區306組合的底部側邊相鄰。 The third figure shows a sample test strip 300 having a different configuration than a reaction zone 302, a color correction zone 304, and a calibration zone 306 in one or more examples of the present invention. The color correction zone 306 is divided into portions 306A and 306B, and the left and right sides of the reaction zone 302 are sandwiched by portions 306A and 306B, respectively. The color correction zone 304 is adjacent to the bottom side of the combination of the reaction zone 302 and the calibration zone 306.
第四圖顯示本發明一或更多範例內一反應區402以及一校 色區404之配置400。校色區404圍繞反應區402。在一個範例中,反應區402具有圓形並且校色區404具有環形。 The fourth figure shows a reaction zone 402 and a school in one or more examples of the present invention. Configuration 400 of color zone 404. The color correction zone 404 surrounds the reaction zone 402. In one example, reaction zone 402 has a circular shape and color correction zone 404 has a toroidal shape.
第五圖顯示本發明一或更多範例內一反應區502以及一校色區504之配置500。類似於配置400(第四圖),校色區504圍繞反應區502。不過,反應區502具有矩形並且校色區504具有矩環形。 The fifth figure shows a configuration 500 of a reaction zone 502 and a color correction zone 504 in one or more of the examples of the present invention. Similar to configuration 400 (fourth map), color correction zone 504 surrounds reaction zone 502. However, the reaction zone 502 has a rectangular shape and the color correction zone 504 has a toroidal shape.
第六圖顯示在本發明一或更多範例中具有一計時毛細管602的部分檢體試片600。檢體試片600代表具有本發明內所描述任意該反應區、校色區與校溫區配置的一檢體試片。檢體試片600包含一毛細管入口604、一反應毛細管606以及一反應區608。反應毛細管606將毛細管入口604連接至反應區608。計時毛細管602連接至毛細管入口604。計時毛細管602的剖面小於反應毛細管606。毛細管入口604接收一檢體樣本時,反應毛細管606運輸大部分該檢體樣本到反應區608來偵測該分析物的特性。小部分該檢體樣本沿著計時毛細管602移動,這標記為持續時間,因此該檢體樣本在計時毛細管602內的進度用來當成計時器,指出何時應該讀取檢體試片600。 The sixth figure shows a partial sample test strip 600 having a timing capillary 602 in one or more examples of the present invention. The sample test piece 600 represents a sample test piece having any of the reaction zone, the color correction zone, and the calibration zone configuration described in the present invention. The sample test strip 600 includes a capillary inlet 604, a reaction capillary 606, and a reaction zone 608. Reaction capillary 606 connects capillary inlet 604 to reaction zone 608. Timing capillary 602 is coupled to capillary inlet 604. The cross section of the timing capillary 602 is smaller than the reaction capillary 606. When the capillary inlet 604 receives a sample of the sample, the reaction capillary 606 transports a majority of the sample sample to the reaction zone 608 to detect the characteristics of the analyte. A small portion of the sample sample moves along the timing capillary 602, which is marked as duration, so the progress of the sample sample within the timing capillary 602 is used as a timer to indicate when the sample test strip 600 should be read.
第七圖顯示一檢體試片700,其具有本發明一或更多範例內的一反應區702以及一計時區704。檢體試片700代表具有本發明內所描述任意該反應區、校色區與校溫區配置的一檢體試片。計時區704為另一個反應區,用於接收該檢體樣本。例如:類似檢體試片600,檢體試片700可包含與毛細管入口與反應區702相連的一反應毛細管,以及將該毛細管入口連接至計時區704的一計時毛細管。鑑於反應區702具有對於該檢體樣本產生非線性反應的試劑,計時區704具有對於該檢體樣本產生大體上線性反應的試劑,如此計時區704的顏色改變用來當成計時器,指出何時應該讀取檢體試片700。在一個範例中,計時區704已經密封並且包含氯化鈷(CoCl2),其會從藍色改變成粉紅色以回應該檢體樣本內的水分子。檢體試片700也可包含一校色區706以及一校溫區708。 The seventh diagram shows a sample test strip 700 having a reaction zone 702 and a time zone 704 in one or more examples of the present invention. The sample test piece 700 represents a sample test piece having any of the reaction zone, the color correction zone, and the temperature zone configuration described in the present invention. The timing zone 704 is another reaction zone for receiving the sample of the specimen. For example, a similar test strip 600, the test strip 700 can include a reaction capillary coupled to the capillary inlet and reaction zone 702, and a timing capillary that connects the capillary inlet to the timing zone 704. In view of the fact that reaction zone 702 has reagents that produce a non-linear response to the sample sample, timing zone 704 has reagents that produce a substantially linear response to the sample sample, such that the color change of timing zone 704 is used as a timer to indicate when should The sample test piece 700 is read. In one example, the timing zone 704 is already sealed and contains cobalt chloride (CoCl2), which changes from blue to pink to return to the water molecules within the sample. The specimen test strip 700 may also include a calibration color zone 706 and a calibration temperature zone 708.
在一個範例中,一旦檢體試片700從不透明密封包裝中取出時,計時區704會由於光線而變色。計時區704線性改變顏色來回應光線,指出檢體試片700從包裝取出的時間多寡,大約是指出應該讀取檢體試片 700的反應區702與一檢體樣本之反應時間。一乾淨的保護膜可覆蓋計時區704。在一個範例中,計時區704包含光致變色染料類,例如偶氮苯類、鄰羥苯亞甲基苯胺類、浮精酸酐類、螺吡喃類或螺噁嗪類。 In one example, the time zone 704 will change color due to light once the sample test strip 700 is removed from the opaque sealed package. The timing zone 704 linearly changes color to respond to the light, indicating how much time the sample test strip 700 is taken out of the package, indicating that the sample test piece should be read. The reaction time of the reaction zone 702 of 700 with a sample of the sample. A clean protective film can cover the timing zone 704. In one example, timing zone 704 comprises photochromic dyes such as azobenzenes, o-hydroxybenzylidene anilines, physicochemicals, spiropyrans or spirooxazines.
在一個範例中,一旦檢體試片700從密封包裝中取出時,計時區704會由於濕度而變色。計時區704線性改變顏色來回應濕度,指出檢體試片700從包裝取出的時間多寡,大約是指出應該讀取檢體試片700的反應區702與一檢體樣本之反應時間。一控制曝露至濕度的穿孔乾淨保護膜可覆蓋計時區704。在一個範例中,計時區704包含從藍色改變成粉紅色的CoCl2。 In one example, the time zone 704 may change color due to humidity once the sample test strip 700 is removed from the sealed package. The timing zone 704 linearly changes color to respond to humidity, indicating how long the sample strip 700 is removed from the package, approximately indicating the reaction time of the reaction zone 702 and a sample sample from which the sample strip 700 should be read. A perforated clean protective film that controls exposure to humidity can cover the timing zone 704. In one example, timing zone 704 includes CoCl2 that changes from blue to pink.
取代使用計時區704,計算裝置210可使用內建計時器約略計算反應區702與該檢體樣本的反應時間。 Instead of using timing zone 704, computing device 210 can use the built-in timer to approximate the reaction time of reaction zone 702 with the sample of the sample.
第八圖為讓一計算裝置(例如第二圖內的計算裝置210)執行一診斷應用,以讀取本發明一或更多範例內一檢體試片(例如第二圖內的檢體試片200)的方法800之流程。在本發明描述的任何方法中,雖然依序例示區塊,不過這些區塊也可同時及/或以跟所描述不同的順序來執行。另外,許多區塊可根據所要的實施結合成更少區塊、分成額外區塊及/或消除。方法800從區塊802開始。 Figure 8 is a diagram of a computing device (e.g., computing device 210 in the second diagram) executing a diagnostic application to read a sample test piece in one or more of the examples of the present invention (e.g., a test sample in the second image) The flow of method 800 of slice 200). In any of the methods described herein, although the blocks are sequentially illustrated, the blocks may be executed simultaneously and/or in a different order than described. In addition, many of the blocks may be combined into fewer blocks, divided into additional blocks, and/or eliminated, depending on the desired implementation. Method 800 begins at block 802.
在區塊802內,計算裝置210擷取檢體試片200的一或更多影像212。可擷取多個影像212,如此可從影像212中選擇無任何模糊的穩定影像。影像212可用快速作業方式拍攝(例如在連續或快速拍攝模式中),或來自一視頻的畫面。在一個範例中,每一影像212都包含反應區202以及校色區204。在另一範例中,每一影像212也包含校溫區206。尚且在另一範例中,每一影像212另包含計時區602或704。 Within block 802, computing device 210 captures one or more images 212 of sample test strip 200. A plurality of images 212 can be captured so that a stable image without any blur can be selected from the image 212. The image 212 can be taken in a quick mode (eg, in continuous or fast shooting mode), or from a video. In one example, each image 212 includes a reaction zone 202 and a color correction zone 204. In another example, each image 212 also includes a temperature zone 206. In yet another example, each image 212 further includes a timing zone 602 or 704.
校色區204為灰色卡時,計算裝置210可使用校色區204當成擷取影像212的曝光參考。另外,計算裝置210可使用接近檢體試片具有大約18%反射係數的物體(例如青草或人類皮膚)當成一曝光參考。計算裝置210可自動辨識該曝光參考,或使用者可以該曝光參考引導成像裝置208,以設定正確曝光度。 When the color correction area 204 is a gray card, the computing device 210 can use the color correction area 204 as an exposure reference for capturing the image 212. Additionally, computing device 210 may use an object (eg, grass or human skin) having a reflection coefficient of approximately 18% close to the specimen coupon as an exposure reference. The computing device 210 can automatically identify the exposure reference, or the user can direct the imaging device 208 with the exposure reference to set the correct exposure.
在一個範例中,計算裝置210在該檢體樣本放置在檢體試片 200之後,在適當時間上擷取影像212。如先前所描述,計時區602或704可指示何時應該擷取影像212。計算裝置210可監控計時區602或704並且自動擷取影像212,或使用者可指引成像裝置208從目視檢查計時區602或704來擷取影像212。區塊802之後接著選擇性區塊803。 In one example, the computing device 210 places the sample in the specimen on the specimen. After 200, the image 212 is captured at an appropriate time. As previously described, the timing zone 602 or 704 can indicate when the image 212 should be captured. The computing device 210 can monitor the time zone 602 or 704 and automatically capture the image 212, or the user can direct the imaging device 208 to capture the image 212 from the visual inspection time zone 602 or 704. Block 802 is followed by selective block 803.
在選擇性區塊803內,計算裝置210選擇沒有任何模糊的穩定影像212。該診斷應用程式可使用計算裝置210內建加速計判定一影像212是否穩定,以判定計算裝置210在擷取影像212時是否穩定。該診斷應用程式也可使用內建加速計,在要擷取影像212而使用者未拿穩計算裝置210時提出警示。選擇性區塊803之後接著區塊804。 Within selective block 803, computing device 210 selects stable image 212 without any blurring. The diagnostic application can use the built-in accelerometer of the computing device 210 to determine whether an image 212 is stable to determine whether the computing device 210 is stable when capturing the image 212. The diagnostic application can also use the built-in accelerometer to alert when the image 212 is to be captured and the user has not stabilized the computing device 210. Selective block 803 is followed by block 804.
在區塊804內,計算裝置210校正影像212內反應區202的亮度。如先前所述,計算裝置210評估影像212內反應區202的亮度曲線,然後在亮度不一致時修正影像212內反應區202的亮度。區塊804之後接著區塊806。 Within block 804, computing device 210 corrects the brightness of reaction zone 202 within image 212. As previously described, computing device 210 evaluates the brightness profile of reaction zone 202 within image 212 and then corrects the brightness of reaction zone 202 within image 212 when the brightness is inconsistent. Block 804 is followed by block 806.
在區塊806內,計算裝置210判定影像212內反應區202的顏色。如之前所述,計算裝置210在校色區204為色圖時,根據影像212內的校色區204來判定反應區202的顏色。否則計算裝置210從影像212簡單讀取反應區202的顏色。區塊806之後接著區塊807。 Within block 806, computing device 210 determines the color of reaction zone 202 within image 212. As previously described, the computing device 210 determines the color of the reaction zone 202 based on the color correction zone 204 within the image 212 when the color correction zone 204 is a color map. Otherwise computing device 210 simply reads the color of reaction zone 202 from image 212. Block 806 is followed by block 807.
在區塊807內,計算裝置210根據一或更多校正區來修正反應區202的顏色。在一個範例中,計算裝置210在校色區202為色圖時,根據影像212內的校色區204來針對白平衡修正反應區202的顏色。在一個範例中,計算裝置210根據影像212內的校溫區206,針對溫度修正反應區202的顏色。請注意,區塊806和807的順序可顛倒。區塊807之後接著區塊808。 Within block 807, computing device 210 modifies the color of reaction zone 202 based on one or more correction zones. In one example, computing device 210 corrects the color of reaction zone 202 for white balance based on color correction zone 204 within image 212 when color correction zone 202 is a color map. In one example, computing device 210 corrects the color of reaction zone 202 for temperature based on temperature zone 206 within image 212. Note that the order of blocks 806 and 807 can be reversed. Block 807 is followed by block 808.
在區塊808內,計算裝置210將來自影像212內反應區202的樣本像素之顏色或顏色與色彩濃度關聯於一分析物特性值(例如葡萄糖位準)。 Within block 808, computing device 210 associates the color or color of the sample pixels from reaction zone 202 within image 212 with the color density to an analyte property value (eg, a glucose level).
反應區202內顏色參數之變更率可根據該分析物特性值。針對每一分析物特性值,該顏色參數的變更率可繪製成曲線時間圖。第九圖為圖表900,針對三個分析物特性值(例如三個葡萄糖位準)例示繪製一顏色 參數(例如色彩濃度)經過時間之三條曲線902、904和906。每一曲線在時間視窗內(例如時間視窗908)都具有不同斜率,對於對應的分析物特性值都是獨一的。如此至少兩顏色參數值之間的差異與擷取兩值時之間的差異可用來識別該對應的分析物特性值。該時間視窗的放置時間要比等待讀取一傳統檢體試片的時間,例如10秒或以上,還要早,例如在該檢體樣本放置在檢體試片200上之後2與3秒時。 The rate of change of the color parameters in reaction zone 202 can be based on the analyte property value. The rate of change of the color parameter can be plotted as a curve time plot for each analyte property value. The ninth diagram is a chart 900 illustrating the drawing of a color for three analyte property values (eg, three glucose levels) The parameters (eg, color density) elapse through three curves 902, 904, and 906 of time. Each curve has a different slope in the time window (e.g., time window 908) and is unique to the corresponding analyte property value. Thus the difference between the at least two color parameter values and the difference between the two values can be used to identify the corresponding analyte property value. The time window is placed for a period of time longer than waiting for a conventional sample test piece, for example, 10 seconds or more, for example, 2 and 3 seconds after the sample sample is placed on the sample test piece 200. .
第十圖為讓一計算裝置(例如第二圖內的計算裝置210)執行一診斷應用,以使用差異計算來快速讀取本發明一或更多範例內一檢體試片(例如第二圖內的檢體試片200)的方法1000之流程。方法1000從區塊902開始。 Figure 11 is a diagram of a computing device (e.g., computing device 210 in the second diagram) executing a diagnostic application to quickly read a sample of one or more of the samples of the present invention using a difference calculation (e.g., a second image) The flow of the method 1000 of the sample test piece 200). Method 1000 begins at block 902.
在區塊1002內,計算裝置210在時間視窗908內擷取檢體試片200的至少兩個影像212。影像212可用快速作業方式拍攝(例如在連續或快速拍攝模式中),或來自一視頻的畫面。例如:第一影像212在第一時間上擷取,並且第二影像212在第二時間上擷取。該第一與第二時間之間的時間差計算為一時間視窗(例如第九圖內顯示的時間視窗908)。每一影像212都包含在檢體試片200上的反應區202。在一個範例中,每一影像212也包含在檢體試片200上的校色區204。在另一範例中,每一影像另包含在檢體試片200上的一或更多額外校正區,例如校溫區206。在一個範例中,計算裝置210根據計時區602或704選擇在時間視窗908上擷取的影像212。區塊1002之後接著區塊1004。 Within block 1002, computing device 210 captures at least two images 212 of sample test strip 200 in time window 908. The image 212 can be taken in a quick mode (eg, in continuous or fast shooting mode), or from a video. For example, the first image 212 is captured at a first time and the second image 212 is captured at a second time. The time difference between the first and second times is calculated as a time window (e.g., time window 908 shown in the ninth figure). Each image 212 is contained in a reaction zone 202 on the sample strip 200. In one example, each image 212 is also included in the color correction area 204 on the sample test strip 200. In another example, each image further includes one or more additional correction zones on the specimen strip 200, such as the temperature zone 206. In one example, computing device 210 selects image 212 captured on time window 908 based on time zone 602 or 704. Block 1002 is followed by block 1004.
在區塊1004內,計算裝置210使用本發明所述的任意方法,包含照明修正、顏色修正以及溫度修正,來判定每一影像212內反應區202的顏色。區塊1004之後接著區塊1006。 Within block 1004, computing device 210 determines the color of reaction zone 202 within each image 212 using any of the methods described herein, including illumination correction, color correction, and temperature correction. Block 1004 is followed by block 1006.
在區塊1006內,計算裝置210從影像212判定反應區202的色彩濃度變化。區塊1006之後接著區塊1008。 Within block 1006, computing device 210 determines a change in color density of reaction zone 202 from image 212. Block 1006 is followed by block 1008.
在區塊1008內,計算裝置210將色彩濃度變化關聯於一分析物特性值。計算裝置210使用圖表900或圖表900的算術表示,來判定該分析物特性值。尤其是,計算裝置210沿著曲線902、904和906移動時間視窗908。該時間視窗內一曲線的濃度變化匹配反應區202的濃度變化 時,反應區202具有該曲線的分析物特性值。 Within block 1008, computing device 210 correlates the color density change to an analyte property value. Computing device 210 uses the arithmetic representation of chart 900 or chart 900 to determine the analyte property value. In particular, computing device 210 moves time window 908 along curves 902, 904, and 906. The concentration change of a curve in the time window matches the concentration change of the reaction zone 202. Reaction zone 202 has an analyte property value for the curve.
第十一圖為讓一計算裝置(例如第二圖內的計算裝置210)執行一診斷應用,以搭配本發明一或更多範例內一分析物特性值來追蹤使用者飲食的方法1100之流程。方法1100從區塊1102開始。 11 is a flow diagram of a method 1100 for a computing device (eg, computing device 210 in the second diagram) to perform a diagnostic application to track a user's diet with an analyte property value in one or more of the examples of the present invention. . Method 1100 begins at block 1102.
在區塊1102內,計算裝置210擷取一餐的影像。區塊1102之後接著區塊1104。 Within block 1102, computing device 210 captures an image of a meal. Block 1102 is followed by block 1104.
在區塊1104內,計算裝置210記錄一餐的時間。區塊1104之後接著區塊1106。 Within block 1104, computing device 210 records the time of a meal. Block 1104 is followed by block 1106.
在區塊1106內,計算裝置210將該餐與時間關聯於相同時間下所決定的一分析物特性值,並記錄此關聯性。該分析特性值可使用本發明內描述的任意方法來判定。區塊1102、1104和1106可重複來追蹤一段時間內一使用者的飲食。區塊1106之後接著區塊1108。 Within block 1106, computing device 210 associates the meal with time for an analyte property value determined at the same time and records the association. The analytical property values can be determined using any of the methods described within the present invention. Blocks 1102, 1104, and 1106 can be repeated to track the diet of a user over a period of time. Block 1106 is followed by block 1108.
在區塊1108內,計算裝置210顯示該記錄的關聯性。計算裝置210也可透過電腦網路將該記錄的關聯性傳輸給另一計算裝置,例如為了診療而傳輸給醫生的電腦。第十二圖以圖形例示在本發明一或更多範例內餐點、用餐次數以及分析物特性值在一天之內的關聯性。 Within block 1108, computing device 210 displays the relevance of the record. The computing device 210 can also transmit the relevance of the record to another computing device via a computer network, for example, to a doctor's computer for medical treatment. The twelfth graph graphically illustrates the association of meal points, meal times, and analyte property values within one day in one or more of the examples of the present invention.
第十三A圖顯示在本發明一或更多範例內的一檢體試片1300。檢體試片1300包含一組反應區1302A、1302B、1302C和1302D(統稱為「反應區1302」或單獨稱為一般「反應區1302」)。每一反應區1302用於偵測該檢體樣本內一分析物特性值的不同範圍。在偵測葡萄糖位準的範例中,反應區1302A偵測每分升0至100毫克(mg/dL)、反應區1302B偵測0至200mg/dL、反應區1302C偵測0至400mg/dL並且反應區1302D偵測0至800mg/dL。要偵測該分析物特性值的不同範圍,反應區1302具有一或更多試劑的不同濃度。另外,反應區1302具有不同試劑。 Fig. 13A shows a sample test piece 1300 in one or more examples of the present invention. The sample test piece 1300 includes a set of reaction zones 1302A, 1302B, 1302C, and 1302D (collectively referred to as "reaction zone 1302" or separately referred to as a general "reaction zone 1302"). Each reaction zone 1302 is for detecting a different range of analyte property values within the sample of the sample. In the example of detecting glucose levels, reaction zone 1302A detects 0 to 100 milligrams per milliliter (mg/dL), reaction zone 1302B detects 0 to 200 mg/dL, and reaction zone 1302C detects 0 to 400 mg/dL. Reaction zone 1302D detects 0 to 800 mg/dL. To detect different ranges of analyte property values, reaction zone 1302 has different concentrations of one or more reagents. Additionally, reaction zone 1302 has different reagents.
檢體試片1300可包含一毛細管入口以及穿過接觸的反應區1302之毛細管,用於遞送一檢體樣本。另外,檢體試片1300可包含一塗敷區,其重疊並接觸反應區1302,將該樣本分散至反應區1302。在無任何結構將該樣本傳遞至反應區1302的範例中,使用者也可手動將該樣本塗敷到反應區1302。檢體試片1300可另包含一校色區1304以及一校溫區1306。 The specimen strip 1300 can include a capillary inlet and a capillary through the contact reaction zone 1302 for delivering a sample of the sample. Additionally, the test strip 1300 can include a coating zone that overlaps and contacts the reaction zone 1302 to disperse the sample into the reaction zone 1302. In an example where the sample is delivered to reaction zone 1302 without any structure, the user can also manually apply the sample to reaction zone 1302. The sample test strip 1300 may further include a calibration color area 1304 and a calibration temperature area 1306.
第十三A圖顯示在預先測試情況下的檢體試片1300。第十三B圖顯示在本發明一或更多範例內接收150mg/dL葡萄糖檢體樣本的檢體試片1300。葡萄糖的濃度高於反應區1302A的範圍時,會出現過飽和顏色,如此無法用來判定葡萄糖的位準。不過,可使用反應區1302B、1302C和1302D。反應區1302B的顏色具有良好的飽和度,如此提供比反應區1302C和1302D更好的讀數。 Fig. 13A shows a sample test piece 1300 in the case of a pre-test. Fig. 13B shows a sample test piece 1300 that receives a 150 mg/dL glucose sample sample in one or more examples of the present invention. When the concentration of glucose is higher than the range of the reaction zone 1302A, an oversaturated color occurs, which cannot be used to determine the level of glucose. However, reaction zones 1302B, 1302C, and 1302D can be used. The color of reaction zone 1302B has good saturation, thus providing better readings than reaction zones 1302C and 1302D.
第十三C圖顯示在本發明一或更多範例內接收300mg/dL葡萄糖檢體樣本的檢體試片1300。葡萄糖的濃度高於反應區1302A和1302B的範圍時,會出現過飽和顏色,如此無法用來判定葡萄糖的位準。不過,可使用反應區1302C和1302D。反應區1302C的顏色具有良好的飽和度,如此提供比反應區1302D更好的讀數。 A thirteenth C-C shows a sample test piece 1300 that receives a 300 mg/dL glucose sample sample in one or more examples of the present invention. When the concentration of glucose is higher than the range of the reaction zones 1302A and 1302B, an oversaturated color occurs, which cannot be used to determine the level of glucose. However, reaction zones 1302C and 1302D can be used. The color of reaction zone 1302C has good saturation, thus providing a better reading than reaction zone 1302D.
第十三D圖顯示在本發明一或更多範例內接收600mg/dL葡萄糖檢體樣本的檢體試片1300。葡萄糖的濃度高於反應區1302A、1302B和1302C的範圍時,會出現過飽和顏色,如此無法用來判定葡萄糖的位準。反應區1302D的顏色具有良好的飽和度,所以用來判定葡萄糖位準。 A thirteenth D-ray shows a sample test piece 1300 that receives a 600 mg/dL glucose sample sample in one or more examples of the present invention. When the concentration of glucose is higher than the range of the reaction zones 1302A, 1302B, and 1302C, an oversaturated color occurs, which cannot be used to determine the level of glucose. The color of reaction zone 1302D has good saturation and is therefore used to determine the glucose level.
在一個範例中,反應區1302為矩形並且排成一欄,具有大體上矩形界線。反應區1302可採用其他形狀與配置。 In one example, reaction zone 1302 is rectangular and arranged in a column with a generally rectangular boundary. Reaction zone 1302 can take on other shapes and configurations.
第十四圖顯示一檢體試片1400,其在本發明一或更多範例內具有不同的反應區1402A、1402B、1402C和1402D(統稱為「反應區1402」)之配置。在檢體試片1400內,反應區1402為方形並且配置成具有一方形外部界線。類似於檢體試片1300,檢體試片1400可包含傳遞樣本至反應區1402的結構,或使用者可手動將樣本塗敷至反應區1402。 The fourteenth image shows a sample test piece 1400 having different configurations of reaction zones 1402A, 1402B, 1402C, and 1402D (collectively referred to as "reaction zones 1402") in one or more examples of the present invention. Within the test strip 1400, the reaction zone 1402 is square and configured to have a square outer boundary. Similar to the specimen test strip 1300, the specimen test strip 1400 can include a structure for transferring the sample to the reaction zone 1402, or the user can manually apply the sample to the reaction zone 1402.
第十五圖顯示一檢體試片1500,其在本發明一或更多範例內具有不同的反應區1502A、1502B、1502C和1502D(統稱為「反應區1502」)之配置。在檢體試片1500內,反應區1502為三角形並且配置成具有一方形外部界線。類似於檢體試片1300,檢體試片1500可包含傳遞樣本至反應區1502的結構,或使用者可手動將樣本塗敷至反應區1502。 The fifteenth diagram shows a sample test strip 1500 having different configurations of reaction zones 1502A, 1502B, 1502C, and 1502D (collectively referred to as "reaction zones 1502") in one or more examples of the present invention. Within the specimen test strip 1500, the reaction zone 1502 is triangular and configured to have a square outer boundary. Similar to the specimen test strip 1300, the specimen test strip 1500 can include a structure for transferring the sample to the reaction zone 1502, or the user can manually apply the sample to the reaction zone 1502.
第十六圖顯示一檢體試片1600,其在本發明一或更多範例內具有不同的反應區1602A、1602B、1602C和1602D(統稱為「反應區1602」) 之配置。在檢體試片1600內,一毛細管入口1604由一毛細管1606連接至反應區1602。反應區1602在與毛細管入口1604相同距離上等距圍繞毛細管入口1604。 Figure 16 shows a sample test strip 1600 having different reaction zones 1602A, 1602B, 1602C, and 1602D (collectively referred to as "reaction zone 1602") in one or more examples of the present invention. Configuration. Within the specimen strip 1600, a capillary inlet 1604 is coupled to the reaction zone 1602 by a capillary 1606. Reaction zone 1602 surrounds capillary inlet 1604 equidistantly at the same distance from capillary inlet 1604.
第十七圖為讓一計算裝置(例如第二圖內的計算裝置210)執行一診斷應用,以讀取本發明一或更多範例內具有多個反應區來偵測一分析物特性值不同範圍的一檢體試片(例如第十三圖內的檢體試片1300)之方法1700流程。方法1700從區塊1702開始。 Figure 17 is a diagram of a computing device (e.g., computing device 210 in the second diagram) executing a diagnostic application to read that there are multiple reaction zones in one or more of the examples of the present invention to detect an analyte characteristic value that is different. A method 1700 procedure for a range of test strips (e.g., sample strip 1300 in Fig. 13). Method 1700 begins at block 1702.
在區塊1702內,計算裝置210擷取檢體試片1300的影像。該影像包含反應區1302。如先前所述,每一反應區1302都用於偵測一分析物特性值的不同範圍。計算裝置210使用本發明內描述的任意方法來判定每一反應區1302的顏色。區塊1702之後接著區塊1704。 In block 1702, computing device 210 captures an image of sample test strip 1300. The image contains a reaction zone 1302. As previously described, each reaction zone 1302 is used to detect a different range of analyte property values. Computing device 210 determines the color of each reaction zone 1302 using any of the methods described within this invention. Block 1702 is followed by block 1704.
在區塊1704內,計算裝置210選擇適當飽和度的反應區1302。計算裝置210從具有最小範圍往具有最大範圍的反應區1302開始試驗。反應區1302的平均RGB值接近其雜訊位準時(例如~10),表示該分析物濃度已經超出偵測限制,計算裝置210前往試驗下一個反應區1302。此處理持續到計算裝置210選擇出平均RGB值大於其雜訊位準的一反應區1302。區塊1704之後接著區塊1706。 Within block 1704, computing device 210 selects reaction zone 1302 of appropriate saturation. The computing device 210 begins the test from the smallest range to the reaction zone 1302 having the largest range. When the average RGB value of reaction zone 1302 is near its noise level (e.g., ~10), indicating that the analyte concentration has exceeded the detection limit, computing device 210 proceeds to test the next reaction zone 1302. This process continues until computing device 210 selects a reaction zone 1302 whose average RGB value is greater than its noise level. Block 1704 is followed by block 1706.
在區塊1706內,計算裝置210將所選反應區1302的顏色或顏色與色彩濃度關聯於一分析物特性值。 Within block 1706, computing device 210 associates the color or color of selected reaction zone 1302 with the color density for an analyte property value.
利用在本發明一或更多範例內多重曝光上拍攝檢體試片1300的多張影像,來擴充方法1700。第十八圖顯示在本發明一或更多範例內檢體試片1300分別在1/60、1/30和1/15秒快門下的影像1802、1804和1806。在一個極端中,影像1802曝光不足來加強用於偵測較高濃度的一或更多反應區(例如反應區1302D)之細節,藉此提高這些反應區的感光度。在另一個極端中,影像1806曝光過度來加強用於偵測較低濃度的一或更多反應區(例如反應區1302B)之細節,藉此提高這些反應區的感光度。運用極端之間的曝光度,影像1804加強用於偵測中間濃度的一或更多反應區(例如反應區1302C)之細節,藉此提高這些反應區的感光度。 Method 1700 is augmented by taking multiple images of sample test strip 1300 on multiple exposures in one or more examples of the present invention. The eighteenth image shows images 1802, 1804, and 1806 of the specimen strip 1300 at 1/60, 1/30, and 1/15 second shutters, respectively, in one or more examples of the present invention. In one extreme, image 1802 is underexposed to enhance detail for detecting higher concentrations of one or more reaction zones (e.g., reaction zone 1302D), thereby increasing the sensitivity of these reaction zones. At the other extreme, image 1806 is overexposed to enhance detail for detecting lower concentrations of one or more reaction zones (e.g., reaction zone 1302B), thereby increasing the sensitivity of these reaction zones. Using the exposure between extremes, image 1804 enhances the details of one or more reaction zones (e.g., reaction zone 1302C) used to detect intermediate concentrations, thereby increasing the sensitivity of these reaction zones.
計算裝置210可根據每一影像內所有反應區1302的平均 RGB值,來選擇影像1802、1804和1806之一者。一影像內所有反應區1302的平均RGB值太低(例如<30)或太高(例如>240)時,表示此影像的曝光時間不適當,計算裝置210選擇另一個影像。 Computing device 210 can be based on the average of all reaction zones 1302 within each image The RGB value is used to select one of the images 1802, 1804, and 1806. When the average RGB value of all of the reaction zones 1302 in an image is too low (e.g., <30) or too high (e.g., >240), indicating that the exposure time of the image is not appropriate, the computing device 210 selects another image.
取代調整曝光時,利用在本發明一或更多範例內多重亮度(例如閃光燈或強光)之下拍攝檢體試片1300的多張影像,來擴充方法1700。第十九圖顯示在本發明一或更多範例內檢體試片1300分別在低、中和高閃光強度之下的影像1902、1904和1906。在一個極端中,影像1902在低亮度之下來加強用於偵測較低濃度的一或更多反應區(例如反應區1302A)之細節,藉此提高這些反應區的感光度。在其他極端中,影像1906在高亮度之下來加強用於偵測較高濃度的一或更多反應區(例如反應區1302D)之細節,藉此提高這些反應區的感光度。運用中亮度,影像1904加強用於偵測中間濃度的一或更多反應區(例如反應區1302C)之細節,藉此提高這些反應區的感光度。 Instead of adjusting the exposure, method 1700 is augmented by taking multiple images of sample test strip 1300 under multiple brightness (eg, flash or intense light) within one or more examples of the present invention. The nineteenth image shows images 1902, 1904, and 1906 of the sample strip 1300 under low, medium, and high flash intensities, respectively, in one or more examples of the present invention. In one extreme, image 1902 is under low brightness to enhance detail for detecting lower concentrations of one or more reaction zones (e.g., reaction zone 1302A), thereby increasing the sensitivity of these reaction zones. In other extremes, image 1906 enhances the sensitivity of detecting the higher concentration of one or more reaction zones (e.g., reaction zone 1302D) under high brightness, thereby increasing the sensitivity of these reaction zones. Using medium brightness, image 1904 enhances the detail of one or more reaction zones (e.g., reaction zone 1302C) used to detect intermediate concentrations, thereby increasing the sensitivity of these reaction zones.
在此模式中,計算裝置210可在擷取影像1902、1904和1906之前測試光源(例如閃光燈),以確定運作正常。例如:計算裝置210打開閃光燈至少一次,並且使用偵測到的亮度變化來判定閃光燈是否運作。 In this mode, computing device 210 can test a light source (eg, a flash) before capturing images 1902, 1904, and 1906 to determine that operation is normal. For example, computing device 210 turns on the flash at least once and uses the detected change in brightness to determine if the flash is functioning.
計算裝置210可根據每一影像內整個或部分反應區1302的平均RGB值,來選擇影像1902、1904和1906之一者。一影像內反應區1302的平均RGB值太低(例如<30)或太高(例如>240)時,表示此影像的照明亮度不適當,計算裝置210選擇另一個影像。 Computing device 210 can select one of images 1902, 1904, and 1906 based on the average RGB value of all or a portion of reaction zone 1302 within each image. When the average RGB value of an intra-image reaction zone 1302 is too low (e.g., <30) or too high (e.g., >240), it indicates that the illumination brightness of the image is not appropriate, and the computing device 210 selects another image.
第二十圖顯示在本發明一或更多範例內的一檢體試片2000。檢體試片2000包含多個反應區,來偵測不同分析物的特性值。在一個範例中,檢體試片2000包含用於偵測一檢體樣本內第一分析物特性的一反應區2002、用於偵測該檢體樣本內第二分析物特性的一反應區或多個反應區2004(例如兩個反應區2004),以及偵測該檢體樣本內第三分析物特性的一反應區或多個反應區2006(例如三個反應區2006)。類似於第十三A圖內描述的反應區1302,多個反應區2004每個都偵測該第二分析物特性值的不同範圍,並且多個反應區2006每個都偵測該第三分析物特性值的不同範圍。 Fig. 20 shows a sample test piece 2000 in one or more examples of the present invention. The sample test strip 2000 contains a plurality of reaction zones to detect characteristic values of different analytes. In one example, the sample test strip 2000 includes a reaction zone 2002 for detecting a characteristic of a first analyte in a sample of the sample, a reaction zone for detecting characteristics of the second analyte in the sample of the sample, or A plurality of reaction zones 2004 (e.g., two reaction zones 2004), and a reaction zone or plurality of reaction zones 2006 (e.g., three reaction zones 2006) that detect the characteristics of the third analyte in the sample of the sample. Similar to the reaction zone 1302 described in FIG. 13A, the plurality of reaction zones 2004 each detect a different range of the second analyte property values, and each of the plurality of reaction zones 2006 detects the third analysis. Different ranges of property values.
在一個範例中,該檢體樣本內的一個分析物已知會影響另一個分析物的偵測。例如:反應區2006偵測血液樣本內的葡萄糖,並且反應區2004偵測血液樣本內的血細胞比容(HCT)位準。HCT位準可直接或間接偵測(即藉由判定血液樣本內另一物質的位準)。該診斷應用程式判定該HCT位準,然後運用該HCT與該葡萄糖位準之間的已知關係來修正該葡萄糖位準。此關係可由實驗、算術或這兩者決定。該診斷應用程式可在本發明中描述的任何其他修正之前或之後,執行該HCT修正。 In one example, an analyte within the sample of the sample is known to affect the detection of another analyte. For example, reaction zone 2006 detects glucose in a blood sample, and reaction zone 2004 detects hematocrit (HCT) levels within the blood sample. The HCT level can be detected directly or indirectly (ie by determining the level of another substance in the blood sample). The diagnostic application determines the HCT level and then uses the known relationship between the HCT and the glucose level to correct the glucose level. This relationship can be determined by experiment, arithmetic, or both. The diagnostic application can perform the HCT correction either before or after any other modifications described in the present invention.
計算裝置210也可用其他方式從檢體試片中判定該HCT位準。第二十一圖顯示在本發明一或更多範例內一檢體試片2100的剖面圖。在檢體試片2100內,於血液樣本的路徑內提供一孔,一光線照射通過該血液樣本,並且將該結果光顏色關聯於該HCT位準。在一個範例中,檢體試片2100包含一毛細管入口2102、連接至毛細管入口2102的一毛細管2104以及連接至毛細管2104的一反應區2106。一孔2108定義穿過毛細管2104。一透明膜2112覆蓋孔2108的頂端開口2110,並且一透明膜2116覆蓋底部開口2114。計算裝置210將光線照射過孔2108並且擷取離開孔2108的光線顏色,然後根據該血液內紅血球的百分比關聯至該HCT位準。在另一個範例中,膜2116的反射係數超過膜2112。部分光線會反射或散射回頂端開口2110,並且由計算裝置210擷取來判定該HCT位準。 The computing device 210 can also determine the HCT level from the sample test strips in other manners. The twenty-first figure shows a cross-sectional view of a sample test piece 2100 in one or more examples of the present invention. Within the specimen test strip 2100, a hole is provided in the path of the blood sample, a light illuminates through the blood sample, and the resulting light color is correlated to the HCT level. In one example, the test strip 2100 includes a capillary inlet 2102, a capillary 2104 coupled to the capillary inlet 2102, and a reaction zone 2106 coupled to the capillary 2104. A hole 2108 is defined through the capillary 2104. A transparent film 2112 covers the top opening 2110 of the aperture 2108 and a transparent film 2116 covers the bottom opening 2114. The computing device 210 illuminates the light through the aperture 2108 and extracts the color of the light exiting the aperture 2108 and then correlates to the HCT level based on the percentage of red blood cells within the blood. In another example, the film 2116 has a coefficient of reflection that exceeds the film 2112. Part of the light is reflected or scattered back to the top opening 2110 and is retrieved by computing device 210 to determine the HCT level.
在另一個範例中,在檢體試片上提供過濾紅血球並且吸收血漿的一矩形材料片。然後將該HCT位準關聯於已經吸收的血漿量,這從該血液樣本在試片中往上移動的距離來判定。 In another example, a piece of rectangular material that filters red blood cells and absorbs plasma is provided on the test strip. The HCT level is then correlated to the amount of plasma that has been absorbed, as determined by the distance the blood sample is moved upward in the test strip.
方法800並未使用與一反應區分開的計時區(例如計時區602或704),可利用一反應區的第二顏色成分來偵測時間,並且該反應區的第一顏色成分來偵測本發明一或更多範例內一分析物特性。 The method 800 does not use a timing zone (eg, timing zone 602 or 704) that is separate from a reaction zone, and the second color component of a reaction zone can be utilized to detect time, and the first color component of the reaction zone is used to detect the present Inventing one or more of the examples within an analyte property.
第二十二圖為例示針對本發明一或更多範例內一分析物特性值(例如血液中的葡萄糖位準),繪製隨時間而變的該反應區第一顏色成分(例如紅色)變化之曲線圖2200。如所見,該第一顏色成分的曲線迅速轉變成常數值,因此可用於指示該分析物特性的個別值。 Figure 22 is a diagram illustrating the change in the first color component (e.g., red) of the reaction zone as a function of time for an analyte characteristic value (e.g., glucose level in blood) for one or more of the examples of the present invention. Graph 2200. As can be seen, the curve of the first color component is rapidly converted to a constant value and thus can be used to indicate individual values of the analyte characteristics.
第二十三圖為例示針對本發明一或更多範例內該分析物特 性值,繪製隨時間而變的該反應區第二顏色成分(例如藍色成分)變化之曲線圖2300。如所見,該第二顏色成分的曲線隨時間而變化,因此可用來當成計時器,指示何時讀取該第一顏色成分,並且判定該分析物特性值(即在該第一顏色成分安定之後)。在一個範例中,於方法800的區塊802內,計算裝置210可擷取多張影像212、判定該第二顏色成分何時指示適當時間來讀取該第一顏色成分,以及在該時間上讀取該第一顏色成分來判定該分析物特性值。 A twenty-third figure is an illustration of the analyte in one or more examples of the invention. A property value plotting a graph 2300 of the change in the second color component (e.g., blue component) of the reaction zone as a function of time. As can be seen, the curve of the second color component changes over time and can therefore be used as a timer to indicate when to read the first color component and to determine the analyte property value (ie, after the first color component is settled) . In one example, within block 802 of method 800, computing device 210 can retrieve a plurality of images 212, determine when the second color component indicates an appropriate time to read the first color component, and read at that time. The first color component is taken to determine the analyte property value.
本說明書內揭示的試片、系統及方法都可用於測試特定分析的存在及/或濃度,例如但不受限於葡萄糖、膽固醇、尿酸、肌鈣蛋白I、酮、蛋白質、亞硝酸鹽和白血球。各種液體都可測試,例如但不受限於血液、組織液、尿液、唾液以及其他體液。 The test strips, systems and methods disclosed in this specification can be used to test for the presence and/or concentration of a particular assay, such as, but not limited to, glucose, cholesterol, uric acid, troponin I, ketones, proteins, nitrites, and white blood cells. . Various fluids can be tested, for example, but not limited to blood, tissue fluids, urine, saliva, and other body fluids.
從上述吾人可了解到本說明書中揭露的許多本發明具體實施例,並且在不悖離本發明精神和領域之下可進行許多修改。因此,本說明書中揭露的許多具體實施例並不用於限制,以之下的申請專利範圍所示的範疇和精神為準。 Many of the specific embodiments of the present invention disclosed in the present specification are understood, and many modifications may be made without departing from the spirit and scope of the invention. Therefore, the specific embodiments disclosed in the specification are not to be construed as limiting
200‧‧‧檢體試片 200‧‧‧sample test piece
202‧‧‧反應區 202‧‧‧Reaction zone
204‧‧‧校色區 204‧‧‧ School color area
206‧‧‧校溫區 206‧‧‧School area
208‧‧‧成像裝置 208‧‧‧ imaging device
210‧‧‧計算裝置 210‧‧‧ Computing device
212‧‧‧影像 212‧‧‧ images
Claims (42)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW102113439A TWI534430B (en) | 2013-04-16 | 2013-04-16 | Test strips and method for reading test strips |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW102113439A TWI534430B (en) | 2013-04-16 | 2013-04-16 | Test strips and method for reading test strips |
Publications (2)
Publication Number | Publication Date |
---|---|
TW201441619A TW201441619A (en) | 2014-11-01 |
TWI534430B true TWI534430B (en) | 2016-05-21 |
Family
ID=52422871
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW102113439A TWI534430B (en) | 2013-04-16 | 2013-04-16 | Test strips and method for reading test strips |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWI534430B (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9810639B2 (en) | 2015-05-04 | 2017-11-07 | Htc Corporation | System for physiologic parameter examination and method for test strip recognition and interpretation |
TWI577982B (en) * | 2015-11-19 | 2017-04-11 | 光寶電子(廣州)有限公司 | Biochemistry measurement device and method thereof |
CN112020640B (en) * | 2018-02-26 | 2024-03-08 | 豪夫迈·罗氏有限公司 | Method and system for calibrating and detecting analytes in a sample using a camera |
US11530991B2 (en) | 2018-05-30 | 2022-12-20 | Ixensor Co., Ltd. | Apparatus and method of determining biological property with test strip adaptor |
-
2013
- 2013-04-16 TW TW102113439A patent/TWI534430B/en active
Also Published As
Publication number | Publication date |
---|---|
TW201441619A (en) | 2014-11-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP6906573B2 (en) | Test paper and reading method of test paper | |
US9466104B2 (en) | Reading test strip with multiple reaction areas under different exposures or light intensities | |
JP2021177181A5 (en) | ||
EP3811061B1 (en) | A detection method for detecting an analyte in a sample | |
TWI534430B (en) | Test strips and method for reading test strips | |
EP3581921A1 (en) | Method for evaluating a suitability of lighting conditions for detecting an analyte in a sample using a camera of a mobile device | |
EP2181334B1 (en) | Read-out method and apparatus | |
TWI846721B (en) | Devices and method for measuring an analyte concentration in a sample of bodily fluid | |
RU2797009C9 (en) | Devices and method for measuring analyte concentration in physiological fluid sample | |
RU2791101C2 (en) | Method for assessment of lighting condition suitability for analyte determination in sample, using mobile device camera |