TWI652470B - Test strip module, screen protector, protective case, and method for measuring test strip of test strip module with mobile devices - Google Patents
Test strip module, screen protector, protective case, and method for measuring test strip of test strip module with mobile devices Download PDFInfo
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Abstract
一種測試條模組包括一殼體;一測試條,其在該殼體中;以及一定位錨栓,其向下延伸經過一配合面至行動運算載具之一面。該定位錨栓具有匹配該行動運算載具之該面上的特徵的形狀。 A test strip module includes a housing; a test strip in the housing; and a positioning anchor extending downwardly through a mating surface to one side of the mobile computing carrier. The locating anchor has a shape that matches a feature on the face of the mobile computing carrier.
Description
本發明所揭示內容通常係關於對測試條上的分析物進行光度分析的方法及系統。 The present disclosure is generally directed to methods and systems for photometric analysis of analytes on test strips.
試樣測試條具有反應區,其含有會與試樣樣本中之分析物發生反應的試劑,例如血液樣本中的膽固醇或葡萄糖。該反應區會根據該分析物性質改變顏色,例如血液中的膽固醇或血糖濃度。該試樣測試條係插入光學測定分析物之特性的計量器。 The sample test strip has a reaction zone containing reagents that will react with the analyte in the sample sample, such as cholesterol or glucose in a blood sample. The reaction zone will change color depending on the nature of the analyte, such as cholesterol or blood glucose levels in the blood. The test strip is inserted into a meter that optically measures the characteristics of the analyte.
在本發明之範例中,一種測試條模組包括一殼體;一測試條,其在該殼體中;以及一定位錨栓,其向下延伸經過一配合面至一行動運算載具之一面。該定位錨栓具有一形狀,其匹配該行動運算載具之該面上的特徵。 In an example of the present invention, a test strip module includes a housing; a test strip in the housing; and a positioning anchor extending downwardly through a mating surface to one of the mobile computing carriers . The locating anchor has a shape that matches a feature on the face of the mobile computing carrier.
100、400、500、600、700、800、900、1000、1100、1200、1302(1302-1、1302-2、1302-3、1302-4、1302-5)、1404、1504、2500‧‧‧測試條模組 100, 400, 500, 600, 700, 800, 900, 1000, 1100, 1200, 1302 (1302-1, 1302-2, 1302-3, 1302-4, 1302-5), 1404, 1504, 2500‧ ‧ test strip module
102‧‧‧行動運算載具;行動電話;攜帶式運算載具 102‧‧‧Mobile computing vehicles; mobile phones; portable computing vehicles
104‧‧‧相機 104‧‧‧ camera
106‧‧‧耳揚聲器;耳揚聲器孔口 106‧‧‧ ear speaker; ear speaker aperture
108‧‧‧螢幕 108‧‧‧ screen
110‧‧‧面 110‧‧‧ face
112‧‧‧處理器 112‧‧‧ processor
114‧‧‧非揮發性記憶體 114‧‧‧Non-volatile memory
116‧‧‧揮發性記憶體 116‧‧‧ volatile memory
117‧‧‧光度測試條分析儀 117‧‧‧Photometric test strip analyzer
118‧‧‧光源區 118‧‧‧Light source area
202、602、702、1002、1201、2502‧‧‧殼體 202, 602, 702, 1002, 1201, 2502‧‧‧ housing
204、708、1202‧‧‧測試條 204, 708, 1202‧‧‧ test strips
206‧‧‧底蓋 206‧‧‧ bottom cover
207、208‧‧‧底面;配合面 207, 208‧‧‧ bottom surface; mating surface
210‧‧‧定位特徵;定位錨栓 210‧‧‧Positioning features; positioning anchors
212‧‧‧光連接埠 212‧‧‧ optical connection埠
214‧‧‧相機連接埠 214‧‧‧ Camera connection埠
400、500、2500‧‧‧變化例 400, 500, 2500‧‧‧ variations
410、920‧‧‧定位錨栓 410, 920‧‧ ‧ positioning anchor
510‧‧‧定位特徵;定位孔 510‧‧‧ positioning features; positioning holes
604‧‧‧內隔室 604‧‧ ‧ inner compartment
606‧‧‧外隔室 606‧‧‧outer compartment
610、710、1118、1120‧‧‧環境光 610, 710, 1118, 1120‧‧‧ Ambient light
611、711‧‧‧界面 611, 711‧‧‧ interface
612、712、1012‧‧‧周邊壁面 612, 712, 1012‧‧‧ perimeter wall
704、904‧‧‧裙部 704, 904‧‧ ‧ skirt
922‧‧‧匹配孔 922‧‧‧ matching holes
924‧‧‧面 924‧‧‧ face
926‧‧‧攜帶式運算載具 926‧‧‧Portable computing vehicle
1024‧‧‧底部界面 1024‧‧‧ bottom interface
1104‧‧‧取樣通道 1104‧‧‧Sampling channel
1106‧‧‧殼頂 1106‧‧‧shell top
1108‧‧‧天花板 1108‧‧‧ ceiling
1112‧‧‧高端 1112‧‧‧High end
1113‧‧‧第二端 1113‧‧‧ second end
1114‧‧‧低端 1114‧‧‧Low end
1115‧‧‧第一端 1115‧‧‧ first end
1204‧‧‧尖端 1204‧‧‧ tip
1206、1902‧‧‧反應區 1206, 1902‧‧‧Reaction zone
1208‧‧‧貯槽 1208‧‧‧storage tank
1210‧‧‧觀察窗 1210‧‧‧ observation window
1300‧‧‧測試條包裝 1300‧‧‧Test strip packaging
1400‧‧‧螢幕保護件 1400‧‧‧ screen protectors
1402、1502‧‧‧狹槽或切口 1402, 1502‧‧ slits or slits
1500‧‧‧保護殼體 1500‧‧‧protective housing
1600、1800、2000‧‧‧方法 1600, 1800, 2000‧‧‧ method
1702‧‧‧橫幅 1702‧‧‧ banner
1904‧‧‧顏色校正區 1904‧‧‧Color Correction Area
1906(1906-1、1906-2、1906-3)‧‧‧子區 1906 (1906-1, 1906-2, 1906-3) ‧ ‧ sub-area
1908‧‧‧剖面 1908‧‧‧ profile
2100‧‧‧組合圖表;圖表 2100‧‧‧ combination chart; chart
2202‧‧‧手 2202‧‧‧Hand
2302‧‧‧盒頂部 2302‧‧‧ box top
2400‧‧‧圖表 2400‧‧‧ Chart
2504‧‧‧指型導件 2504‧‧‧Finger guides
2506‧‧‧樣本收集器 2506‧‧‧sample collector
2508‧‧‧流體輸送膜 2508‧‧‧ Fluid transport film
2510‧‧‧刺血針蓋 2510‧‧‧Lancet cap
2602‧‧‧底部 2602‧‧‧ bottom
2604‧‧‧親水層;親水性塗層 2604‧‧‧Hydrophilic layer; hydrophilic coating
2606‧‧‧通道 2606‧‧‧ channel
T1、T2、T3‧‧‧時間點 T1, T2, T3‧‧‧ time points
C1、C2、C3‧‧‧顏色 C1, C2, C3‧‧‧ colors
(C1,T1)‧‧‧第一點 (C1, T1) ‧ ‧ first point
(C2,T2)‧‧‧第二點 (C2, T2) ‧ ‧ second point
本發明所揭示內容之前述與其他特徵結合所附圖式,從以下說明與所附諸申請專利範圍將變得更明白。這些圖式僅描繪出根據所揭示內容的數個具體實施例,故因此不應被視為對其範圍之限制。所揭示內容將透過所附圖式的使用附加明確說明與細節進行描述。 The foregoing description of the preferred embodiments of the invention in the claims The drawings depict only a few specific embodiments in accordance with the disclosure, and therefore should not be construed as limiting the scope. The disclosure will be described in detail with the use of the accompanying drawings.
在所附圖式中:第一圖例示在本發明之範例中即將與行動運算載具共用的測試條模組之俯視等角視圖;第二圖例示在本發明之範例中的第一圖之該測試條模組之 仰視等角視圖;第三圖例示在本發明之範例中的第一圖之該行動運算載具上的第一圖之該測試條模組之剖面圖;第四圖例示在本發明之範例中的第一圖之該測試條模組之變化例;第五圖例示在本發明之範例中的第一圖之該測試條模組之變化例;第六圖為在本發明之範例中具有內外隔室的測試條模組之剖面圖;第七圖為在本發明之範例中具有裙部的測試條模組之剖面圖;第八圖為在本發明之範例中具有裙部的測試條模組之剖面圖;第九圖為在本發明之範例中在裙部上具有定位錨栓的測試條模組之剖面圖;第十圖為在本發明之範例中對行動運算載具之一面具有精細或易曲折底部界面的測試條模組之剖面圖;第十一圖為在本發明之範例中具有傾斜取樣通道的測試條模組之剖面圖;第十二圖為在本發明之範例中具有樣本觀察窗的測試條模組之剖面圖;第十三圖為在本發明之範例中的測試條包裝之俯視圖;第十四圖為在本發明之範例中具有狹槽以承接測試條模組的螢幕保護件之俯視圖;第十五圖為在本發明之範例中具有狹槽以承接測試條模組的保護殼體之俯視等角視圖;第十六圖為在本發明之範例中的一種用於在第一圖之該行動運算載具中由處理器執行的光度測試條分析儀,從測試條模組中的測試條測定分析物性質的方法之流程圖; 第十七圖例示在本發明之範例中將通知限制於第一圖之該行動運算載具之特定邊緣;第十八圖為在本發明之範例中的一種用於在第十六圖之該方法中實施測量預測試的方法之流程圖;第十九圖顯示在本發明之範例中的一種測試條;第二十圖為在本發明之範例中的一種用於在第十六圖中的該方法中實施校正及測量的方法之流程圖;第二十一圖例示在本發明之範例中繪製出在校正階段及測量階段中的光強度與相機回應的組合圖表;第二十二圖與第二十三圖顯示在本發明之範例中的測試條模組可能如何進行屏蔽;第二十四圖為在本發明之範例中對分析物性質之不同數值繪製出顏色數值相對於環境照明度的圖表;第二十五圖為在本發明之範例中的第一圖之該測試條模組之變化例之等角視圖;以及第二十六圖為在本發明之範例中的第二十五圖之該測試條模組之放大剖面圖。 In the drawings: the first figure illustrates a top isometric view of a test strip module to be shared with a mobile computing carrier in an example of the present invention; the second figure illustrates a first figure in an example of the present invention. The test strip module Looking up at an isometric view; the third figure illustrates a cross-sectional view of the test strip module of the first diagram on the mobile computing carrier of the first figure in the example of the present invention; the fourth figure is illustrated in the example of the present invention A variation of the test strip module of the first diagram; a fifth diagram illustrating a variation of the test strip module of the first diagram in the example of the present invention; and a sixth diagram having internal and external examples in the example of the present invention A cross-sectional view of the test strip module of the compartment; a seventh view is a cross-sectional view of the test strip module having a skirt in the example of the present invention; and an eighth illustration is a test strip mold having a skirt in the example of the present invention. A sectional view of the set; a ninth view is a cross-sectional view of a test strip module having a positioning anchor on the skirt in the example of the present invention; and a tenth view showing one of the operational computing vehicles in the example of the present invention A cross-sectional view of a test strip module having a fine or tortuous bottom interface; an eleventh view is a cross-sectional view of a test strip module having a tilted sampling channel in an example of the present invention; and a twelfth view is an example of the present invention Sectional view of test strip module with sample observation window; tenth The figure is a top view of the test strip package in the example of the present invention; the fourteenth view is a top view of the screen protector having the slot to receive the test strip module in the example of the present invention; the fifteenth figure is in the present invention A top isometric view of a protective housing having a slot to receive a test strip module in an example; and a sixteenth embodiment of the present invention for processing in the mobile computing carrier of the first embodiment a photometric test strip analyzer executed by the device, a flow chart of a method for determining the properties of an analyte from a test strip in a test strip module; Figure 17 illustrates that in the example of the present invention, the notification is limited to a particular edge of the mobile computing carrier of the first figure; the eighteenth figure is one of the examples of the present invention for use in the sixteenth A flowchart of a method of performing a measurement pre-test in a method; a nineteenth diagram showing a test strip in an example of the present invention; and a twentieth diagram showing one of the examples of the present invention for use in the sixteenth diagram A flowchart of a method for performing correction and measurement in the method; a twenty-first diagram illustrating a combination chart of light intensity and camera response in the calibration phase and the measurement phase in the example of the present invention; The twenty-third figure shows how the test strip module may be shielded in the example of the present invention; the twenty-fourth figure shows the color value relative to the ambient illumination level for different values of the analyte properties in the example of the present invention. Figure 25 is an isometric view of a variation of the test strip module of the first diagram in the example of the present invention; and a twenty-sixth diagram is the twentieth of the example of the present invention The test strip module of the five figures An enlarged cross-sectional view of FIG.
如本說明書使用,用語「包括」意指包括但不限於,用語「包含」意指包括但不限於。用語「一」係欲表示特定元件中至少一者。用語「基於」意指至少部分基於。用語「或」除非另有所指,否則意指非排他性,使得「A或B」包括「是A非B」、「是B非A」及「是A與B」。 As used in this specification, the term "comprising" means including but not limited to, the term "comprising" means including but not limited to. The term "a" is intended to mean at least one of the specified elements. The term "based on" means at least in part based on. The term "or", unless otherwise indicated, means non-exclusive, such that "A or B" includes "is A not B", "is B non-A" and "is A and B".
第一圖例示在本發明之範例中將與行動運算載具102共用的測試條模組100之俯視等角視圖。行動運算載具102具有一相機104;一耳揚聲器106;及一螢幕108,其位在行動運算載具102之一面110(如正面)。在面110上,相機104可位於耳揚聲器106上方。耳揚聲器106可具有在面110上方的一孔中(如所示)或突起部(未顯示)之形式。行動運算載具102包括一處理器112、一非揮發性記憶體114及一揮發性記憶體116。非揮發性記憶體114儲存適用於光度測試條分析儀117的程式碼。行動運算 載具102可為一行動電話、一平板電腦、或一膝上型電腦。以下「行動電話(mobile phone)102」用於表示行動運算載具102之變化例。 The first figure illustrates a top isometric view of a test strip module 100 that will be shared with the mobile computing carrier 102 in an example of the present invention. The mobile computing carrier 102 has a camera 104; an ear speaker 106; and a screen 108 positioned on one side 110 (e.g., the front side) of the mobile computing carrier 102. On face 110, camera 104 can be located above ear speaker 106. The ear speaker 106 can have the form of a hole (as shown) or a protrusion (not shown) above the face 110. The mobile computing carrier 102 includes a processor 112, a non-volatile memory 114, and a volatile memory 116. The non-volatile memory 114 stores a code suitable for the photometric strip analyzer 117. Action computing The carrier 102 can be a mobile phone, a tablet, or a laptop. The following "mobile phone 102" is used to indicate a variation of the mobile computing vehicle 102.
第二圖例示在本發明之範例中的測試條模組100之仰視等角視圖。測試條模組100具有一殼體202,其具開口底部;一測試條204(以虛線顯示),其托住於殼體202內部;及一底蓋206,其封閉殼體202之開口底部。殼體202具有一底面207,且底蓋206具有一底面208,其可以與不齊平於殼體202之底面207。底蓋206亦具有一定位特徵210,其可為向下延伸經過測試條模組100之配合面至行動電話102之面110的定位錨栓。該配合面可為底面207或208。定位錨栓210具有形狀,其匹配在行動電話102(第一圖)之面110上的對應特徵,例如耳揚聲器孔口106(第一圖)。定位錨栓210可具有矩形或長圓形形狀。 The second figure illustrates a bottom isometric view of the test strip module 100 in an example of the present invention. The test strip module 100 has a housing 202 having an open bottom, a test strip 204 (shown in phantom) that rests within the housing 202, and a bottom cover 206 that closes the open bottom of the housing 202. The housing 202 has a bottom surface 207, and the bottom cover 206 has a bottom surface 208 that can be flush with the bottom surface 207 of the housing 202. The bottom cover 206 also has a locating feature 210 that can be a locating anchor that extends downwardly through the mating face of the test strip module 100 to the face 110 of the mobile phone 102. The mating surface can be a bottom surface 207 or 208. The positioning anchor 210 has a shape that matches a corresponding feature on the face 110 of the mobile phone 102 (first figure), such as the ear speaker aperture 106 (first figure). The positioning anchor 210 can have a rectangular or oblong shape.
底蓋206定義光連接埠212及相機連接埠214。光連接埠212允許螢幕108之光源區118(第一圖)所發出光線進入測試條模組100並照亮測試條模組100之內部,包括在測試條204上的一反應區。相機連接埠214允許行動電話102之相機104(第一圖)在測試條模組100的內部拍攝影像,包括在測試條204上的該反應區。相機連接埠214可位於定位錨栓210上方以匹配相機104之結構及對應於在行動電話102上的定位錨栓210的特徵,例如耳揚聲器孔口106。光連接埠212及相機連接埠214可為孔口或視窗。 The bottom cover 206 defines an optical port 212 and a camera port 214. The optical port 212 allows light from the source region 118 (first image) of the screen 108 to enter the test strip module 100 and illuminate the interior of the test strip module 100, including a reaction zone on the test strip 204. The camera port 214 allows the camera 104 (first image) of the mobile phone 102 to take an image of the interior of the test strip module 100, including the reaction zone on the test strip 204. A camera port 214 can be positioned over the positioning anchor 210 to match the structure of the camera 104 and features corresponding to the positioning anchor 210 on the mobile phone 102, such as the ear speaker aperture 106. The optical port 212 and the camera port 214 can be apertures or windows.
第三圖例示在本發明之範例中在行動電話102上的測試條模組100之剖面圖。在使用中,使用者將行動電話102平放於水平表面上,並將測試條模組100置放於行動電話102之面110上。然後,使用者在面110上到處滑動測試條模組100直到定位錨栓210接合在面110上的該對應特徵,例如收合於耳揚聲器孔口106中。當定位錨栓210收合於耳揚聲器孔口106中時,配合面207或208可與面110緊密接觸,且相機連接埠214及光連接埠212變得分別與相機104及光源區118完全對準。注意定位錨栓210之確切形狀與位置依行動電話102之相機104及耳揚聲器106之結構而定。 The third figure illustrates a cross-sectional view of test strip module 100 on mobile phone 102 in an example of the present invention. In use, the user places the mobile phone 102 flat on a horizontal surface and places the test strip module 100 on the face 110 of the mobile phone 102. The user then slides the test strip module 100 around the face 110 until the corresponding feature of the positioning anchor 210 engages on the face 110, such as in the ear speaker aperture 106. When the positioning anchor 210 is folded into the ear speaker aperture 106, the mating surface 207 or 208 can be in close contact with the surface 110, and the camera port 214 and the optical port 212 become completely opposite to the camera 104 and the light source region 118, respectively. quasi. Note that the exact shape and position of the positioning anchor 210 depends on the structure of the camera 104 and the ear speaker 106 of the mobile phone 102.
第四圖例示在本發明之範例中的測試條模組100(第一圖) 之變化例400。測試條模組400類似於測試條模組100,除了定位錨栓210已置換為在不同位置的定位錨栓410以匹配對應特徵之位置,例如在另一行動電話之該面上的該耳揚聲器孔。 The fourth figure illustrates the test strip module 100 in the example of the present invention (first figure) Variation 400. The test strip module 400 is similar to the test strip module 100 except that the positioning anchor 210 has been replaced with a positioning anchor 410 at a different location to match the position of the corresponding feature, such as the ear speaker on the face of another mobile phone hole.
第五圖例示在本發明之範例中的測試條模組100(第一圖)之變化例500。測試條模組500類似於測試條模組100,除了定位錨栓210已置換為定位特徵510,其可為由底蓋206定義的定位孔。定位孔510匹配對應特徵之結構,例如在另一行動電話之該面上的突出式耳揚聲器。在使用中,使用者在該行動電話之該面上到處滑動測試條模組500直到定位孔510接合在該行動電話之該面上的該對應特徵,例如承接該耳揚聲器突起部。當定位孔510承接該耳揚聲器突起部時,配合面207或208可與該行動電話之該面緊密接觸,且相機連接埠214及光連接埠212變得分別與在該行動電話之該面上的該相機及該光源區完全對準。 The fifth figure illustrates a variation 500 of the test strip module 100 (first map) in an example of the present invention. The test strip module 500 is similar to the test strip module 100 except that the positioning anchor 210 has been replaced with a locating feature 510, which may be a locating aperture defined by the bottom cover 206. The locating aperture 510 matches the structure of the corresponding feature, such as a protruding ear speaker on the face of another mobile phone. In use, the user slides the test strip module 500 around the face of the mobile phone until the locating hole 510 engages the corresponding feature on the face of the mobile phone, such as the ear speaker protrusion. When the positioning hole 510 receives the ear speaker protrusion, the mating surface 207 or 208 can be in close contact with the surface of the mobile phone, and the camera port 214 and the optical port 212 become respectively on the face of the mobile phone. The camera and the light source area are fully aligned.
第六圖為在本發明之範例中的測試條模組600之剖面圖。測試條模組600可為在本發明所揭示內容中的另一測試條模組之變化例,因此測試條模組600可與其他測試條模組分享元件。測試條模組600具有開口底部的殼體602、內隔室604及圍繞至少部分內隔室604的外隔室606。測試條204位於內隔室604中,且外隔室606屏蔽測試條204免於環境光610,其可透過介於殼體602之周邊壁面612與行動電話102之面110之間的界面611滲漏至測試條模組600所放置的界面上。外隔室606捕捉並吸收環境光610,因此環境光610不會照亮在內隔室604中的測試條204。外隔室606可具有紋理或以吸光材料構成。若無外隔室606,則環境光610可干擾來自在面110上的螢幕108之光源區118(第三圖)的預期照明。 The sixth figure is a cross-sectional view of the test strip module 600 in an example of the present invention. The test strip module 600 can be a variation of another test strip module in the disclosure of the present invention, so the test strip module 600 can share components with other test strip modules. The test strip module 600 has a housing 602 with an open bottom, an inner compartment 604, and an outer compartment 606 surrounding at least a portion of the inner compartment 604. The test strip 204 is located in the inner compartment 604, and the outer compartment 606 shields the test strip 204 from ambient light 610, which is permeable to the interface 611 between the peripheral wall 612 of the housing 602 and the face 110 of the mobile phone 102. Leaks to the interface where the test strip module 600 is placed. The outer compartment 606 captures and absorbs ambient light 610 such that ambient light 610 does not illuminate the test strip 204 in the inner compartment 604. The outer compartment 606 can be textured or constructed of a light absorbing material. Without the outer compartment 606, the ambient light 610 can interfere with the intended illumination from the light source zone 118 (third map) of the screen 108 on the face 110.
第七圖為在本發明之範例中的測試條模組700之剖面圖。測試條模組700可為在本發明所揭示內容中的另一測試條模組之變化例,因此測試條模組700可與其他測試條模組分享元件。測試條模組700具有殼體702,其具有周邊壁面712及環繞至少部分周邊壁面712的裙部704。測試條204位於殼體702中,且裙部704屏蔽測試條204免於環境光710,其可透過介於周邊壁面712與行動電話102之面110之間的界面711滲漏至測試條模組700所放置的界面上。裙部704可抵著行動電話102之面110 平放。裙部704捕捉並吸收環境光710,因此環境光710不會照亮測試條708。裙部704可具有紋理或以吸光材料構成。若無裙部704,則環境光710可干擾來自在面110上的螢幕108之光源區118(第三圖)的預期照明。 The seventh figure is a cross-sectional view of the test strip module 700 in an example of the present invention. The test strip module 700 can be a variation of another test strip module in the disclosure of the present invention, so the test strip module 700 can share components with other test strip modules. The test strip module 700 has a housing 702 having a perimeter wall 712 and a skirt 704 surrounding at least a portion of the perimeter wall 712. The test strip 204 is located in the housing 702, and the skirt 704 shields the test strip 204 from ambient light 710, which can leak through the interface 711 between the peripheral wall surface 712 and the surface 110 of the mobile phone 102 to the test strip module. 700 placed on the interface. The skirt 704 can be placed against the face 110 of the mobile phone 102 Lay flat. The skirt 704 captures and absorbs ambient light 710 such that the ambient light 710 does not illuminate the test strip 708. The skirt 704 can be textured or constructed of a light absorbing material. Without skirt 704, ambient light 710 can interfere with the intended illumination from light source region 118 (third map) of screen 108 on face 110.
在本發明之一些範例中,裙部704係滑動接合於殼體702。裙部704起始可存放於殼體702內部的縮回位置(以虛線顯示)。在使用中,裙部704可從該縮回位置滑出至在殼體702外部的延伸位置。 In some examples of the invention, the skirt 704 is slidably coupled to the housing 702. The skirt 704 initially can be stored in a retracted position inside the housing 702 (shown in phantom). In use, the skirt 704 can slide out of the retracted position to an extended position external to the housing 702.
第八圖為在本發明之範例中的測試條模組800之剖面圖。測試條模組800類似於測試條模組700,除了裙部704現在係鉸鏈於殼體702之周邊壁面712。裙部704起始可存放於抵著殼體702之周邊壁面712的直立位置(以虛線例示)。在使用中,裙部704可從該直立位置旋轉至抵著測試條模組800所置放於其上的行動電話102之面110的水平位置。 The eighth figure is a cross-sectional view of the test strip module 800 in an example of the present invention. The test strip module 800 is similar to the test strip module 700 except that the skirt 704 is now hinged to the peripheral wall surface 712 of the housing 702. The skirt 704 can initially be stored in an upright position against the peripheral wall surface 712 of the housing 702 (illustrated by dashed lines). In use, the skirt 704 can be rotated from the upright position to a horizontal position against the face 110 of the mobile phone 102 on which the test strip module 800 is placed.
第九圖為在本發明之範例中的測試條模組900之剖面圖。測試條模組900可為在本發明所揭示內容中的另一測試條模組之變化例,因此測試條模組900可與其他測試條模組分享元件。測試條模組900具有環繞殼體702之至少部分周邊壁面712的裙部904。裙部904可類似於裙部704(第七圖或第八圖)。裙部904具有定位錨栓920,其從裙部904向下延伸並收合於在攜帶式運算載具926之面924上的匹配孔922中,而非具有定位錨栓或定位孔的底蓋。或者,裙部904定義定位孔(未顯示),其承接在面924上的匹配突起部(未顯示)。 The ninth view is a cross-sectional view of the test strip module 900 in an example of the present invention. The test strip module 900 can be a variation of another test strip module in the disclosure of the present invention, so the test strip module 900 can share components with other test strip modules. The test strip module 900 has a skirt 904 that surrounds at least a portion of the perimeter wall surface 712 of the housing 702. The skirt 904 can be similar to the skirt 704 (seventh or eighth). The skirt 904 has a positioning anchor 920 that extends downwardly from the skirt 904 and fits into a mating hole 922 on the face 924 of the portable computing carrier 926, rather than a bottom cover having a positioning anchor or locating hole . Alternatively, the skirt 904 defines a locating aperture (not shown) that receives a matching protrusion (not shown) on the face 924.
第十圖為在本發明之範例中的測試條模組1000之剖面圖。測試條模組1000可為在本發明所揭示內容中的另一測試條模組之變化例,因此測試條模組1000可與其他測試條模組共用元件。測試條模組1000包括一殼體1002,其具有周邊壁面1012。周邊壁面1012具有底部界面1024,其與攜帶式運算載具102之面110緊密接觸,以防止環境光透過介於底部界面1024與面110之間的任何間隙進入。在一些範例中,底部界面1024經砂磨或用其他方式處理成平滑,以具有100微米之粗糙度。在其他範例中,底部界面1024可為易曲折材料,例如固定於周邊壁面1012之本體的聚氨酯觸感柔軟塗層。 Figure 11 is a cross-sectional view of the test strip module 1000 in an example of the present invention. The test strip module 1000 can be a variation of another test strip module in the disclosure of the present invention, so the test strip module 1000 can share components with other test strip modules. The test strip module 1000 includes a housing 1002 having a peripheral wall surface 1012. The perimeter wall 1012 has a bottom interface 1024 that is in intimate contact with the face 110 of the portable computing carrier 102 to prevent ambient light from entering through any gaps between the bottom interface 1024 and the face 110. In some examples, the bottom interface 1024 is sanded or otherwise processed to be smooth to have a roughness of 100 microns. In other examples, the bottom interface 1024 can be a tortuous material, such as a polyurethane soft touch coating that is secured to the body of the perimeter wall 1012.
第十一圖為在本發明之範例中的測試條模組1100之剖面 圖。測試條模組1100可為在本發明所揭示內容中的另一測試條模組之變化例,因此測試條模組1100可與其他測試條模組分享元件。測試條模組1100包括殼體202,其具有該開口底部;測試條204,其托住於殼體202內部;以及底蓋206,其封閉殼體202之開口底部。殼體202定義從殼體202之外部至內部的取樣(如血液)通道1104,例如從殼頂1106至天花板1108。取樣通道1104相對於配合面207或208傾斜。取樣通道1104具有附帶入口的高端1112及附帶出口的低端1114。樣本進入在高端1112處的入口,行經取樣通道1104,透過在低端1114處的出口離開,並進入在測試條204上的反應區1116。 Figure 11 is a cross section of the test strip module 1100 in an example of the present invention. Figure. The test strip module 1100 can be a variation of another test strip module in the disclosure of the present invention, so the test strip module 1100 can share components with other test strip modules. The test strip module 1100 includes a housing 202 having the open bottom, a test strip 204 that seats inside the housing 202, and a bottom cover 206 that closes the open bottom of the housing 202. The housing 202 defines a sampling (e.g., blood) passage 1104 from the exterior to the interior of the housing 202, such as from the housing top 1106 to the ceiling 1108. The sampling channel 1104 is tilted relative to the mating face 207 or 208. The sampling channel 1104 has a high end 1112 with an inlet and a low end 1114 with an outlet. The sample enters the inlet at the high end 1112, passes through the sampling channel 1104, exits through the outlet at the lower end 1114, and enters the reaction zone 1116 on the test strip 204.
取樣通道1104係取向因此低端1114位於具有測試條204及相機連接埠214的測試條模組1100之第一端1115中或緊鄰其,且高端1112位於具有相機連接埠214的測試條模組1100之第二端1113中或緊鄰其。第一端1115可為遠離使用者的末端,而第二端1113可為貼近該使用者的緊鄰端。當環境光1118在使用期間來自使用者之前面(或側面)時,環境光1118不會與取樣通道1104對準,故因此無法透過取樣通道1104進入測試條模組1100。當環境光1120來自使用者之背面時,環境光1120會被該使用者阻擋,故因此無法透過取樣通道1104進入測試條模組1100。 The sampling channel 1104 is oriented such that the low end 1114 is located in or immediately adjacent to the first end 1115 of the test strip module 1100 having the test strip 204 and the camera port 214, and the high end 1112 is located in the test strip module 1100 having the camera port 214 In or immediately adjacent to the second end 1113. The first end 1115 can be the end remote from the user, and the second end 1113 can be proximate to the user. When the ambient light 1118 is from the front (or side) of the user during use, the ambient light 1118 is not aligned with the sampling channel 1104 and therefore cannot enter the test strip module 1100 through the sampling channel 1104. When the ambient light 1120 is from the back of the user, the ambient light 1120 is blocked by the user, so the test strip module 1100 cannot be accessed through the sampling channel 1104.
第十二圖為在本發明之範例中的測試條模組1200之剖面圖。測試條模組1200可為在本發明所揭示內容中的另一測試條模組之變化例,因此測試條模組1200可與其他測試條模組分享元件。測試條模組1200包括一殼體1201,其具有一開口底部;一測試條1202,其同時位於殼體1201之內部與外部;以及底蓋206,其封閉殼體1201之該開口底部。測試條1202具有位於殼體1201之外部以承接樣本的尖端1204,以及位於殼體1201內部的反應區1206及貯槽1208。樣本行進至反應區1206,且部分樣本更向下行進至貯槽1208。殼體1201包括一觀察窗1210,其可至貯槽1208。當使用者在觀察窗1210中看見樣本時,該使用者即得知測試條1202已承接足夠樣本量。 Figure 12 is a cross-sectional view of the test strip module 1200 in an example of the present invention. The test strip module 1200 can be a variation of another test strip module in the disclosure of the present invention, so the test strip module 1200 can share components with other test strip modules. The test strip module 1200 includes a housing 1201 having an open bottom, a test strip 1202 located both inside and outside the housing 1201, and a bottom cover 206 closing the open bottom of the housing 1201. The test strip 1202 has a tip end 1204 that is external to the housing 1201 to receive the sample, and a reaction zone 1206 and a sump 1208 that are located inside the housing 1201. The sample travels to reaction zone 1206 and a portion of the sample travels further down to sump 1208. The housing 1201 includes a viewing window 1210 that can be accessed to the sump 1208. When the user sees the sample in the viewing window 1210, the user knows that the test strip 1202 has taken a sufficient sample size.
第十三圖為在本發明之範例中的測試條包裝1300之俯視圖。測試條包裝1300包括多個測試條模組,例如測試條模組1302-1、 1302-2、1302-3、1302-4及1302-5(統稱為「測試條模組1302」或個別稱為通用測試條模組「1302」)。每個測試條模組1302皆可類似於在本發明所揭示內容中所描述的任何測試條模組。測試條模組1302可分享共用殼體及共用底蓋。該殼體可具有多重隔室,其每個皆托住測試條。該殼體可滑動接合該底蓋。該底蓋定義相機連接埠及光連接埠。該底蓋具有定位特徵,例如定位錨栓或孔口,其在行動電話102之面110上接合匹配特徵,例如耳揚聲器孔口或突起部,以將在該底蓋上的該相機連接埠及該光連接埠對準在行動電話102之螢幕108(第一圖)上的相機104(第一圖)及光源區118(第一圖)。 A thirteenth view is a top plan view of a test strip package 1300 in an example of the present invention. The test strip package 1300 includes a plurality of test strip modules, such as a test strip module 1302-1, 1302-2, 1302-3, 1302-4, and 1302-5 (collectively referred to as "test strip module 1302" or individually referred to as universal test strip module "1302"). Each test strip module 1302 can be similar to any of the test strip modules described in the present disclosure. The test strip module 1302 can share a common housing and a common bottom cover. The housing can have multiple compartments, each of which holds the test strip. The housing slidably engages the bottom cover. The bottom cover defines a camera port and an optical port. The bottom cover has locating features, such as locating anchors or apertures that engage mating features on the face 110 of the mobile phone 102, such as ear speaker apertures or protrusions, to connect the camera to the bottom cover The optical port is aligned with the camera 104 (first image) and the light source region 118 (first image) on the screen 108 (first image) of the mobile phone 102.
如第十三圖所示,該殼體可在該底蓋上方滑動以在該相機連接埠及該光連接埠上方一次放置一隔室。在該相機連接埠及該光連接埠上方的該隔室之位置可由在該殼體及該底蓋上的閂鎖機構定義,例如扣件突起部及凹陷。當一隔室就位時,該(等)鄰接的一或多個隔室可屏蔽該隔室免於環境光。 As shown in Fig. 13, the housing is slidable over the bottom cover to place a compartment once above the camera port and the optical port. The position of the compartment above the camera port and the optical port can be defined by latching mechanisms on the housing and the bottom cover, such as fastener projections and recesses. When a compartment is in place, the adjacent one or more compartments may shield the compartment from ambient light.
第十四圖為在本發明之範例中用於行動電話102的螢幕保護件1400之俯視圖。螢幕保護件1400定義狹槽或切口1402,以在行動電話102之螢幕108上的相機104(第一圖)及光源區118(第一圖)上方承接並定位測試條模組1404。測試條模組1404可為在本發明所揭示內容中所描述的任何測試條模組。 Figure 14 is a top plan view of a screen protector 1400 for a mobile phone 102 in an example of the present invention. The screen protector 1400 defines a slot or slit 1402 for receiving and positioning the test strip module 1404 above the camera 104 (first image) and the light source region 118 (first image) on the screen 108 of the mobile phone 102. Test strip module 1404 can be any of the test strip modules described in the present disclosure.
第十五圖為在本發明之範例中用於行動電話102的保護殼體1500之俯視等角視圖。保護殼體1500定義狹槽或切口1502,以在行動電話102之螢幕108上的相機104(第一圖)及光源區118(第一圖)上方承接並定位測試條模組1504。測試條模組1504可為在本發明所揭示內容中所描述的該等測試條模組任一者。 The fifteenth view is a top isometric view of a protective housing 1500 for a mobile phone 102 in an example of the present invention. The protective housing 1500 defines a slot or slit 1502 for receiving and positioning the test strip module 1504 over the camera 104 (first image) and the light source region 118 (first image) on the screen 108 of the mobile phone 102. Test strip module 1504 can be any of the test strip modules described in the present disclosure.
第十六圖為在本發明所申請內容之範例中的一種用於在行動電話102上由處理器112(第一圖)執行的光度測試條分析儀117(第一圖)從在測試條模組中的測試條(例如在第一圖之測試條模組100中的測試條204)測定分析物性質(例如膽固醇或葡萄糖濃度)的方法1600之流程圖。方法1600可包括一或多個操作、功能或動作,其由一或多個步驟例示。雖然 於文中所描述的方法1600與其他方法之該等步驟以順序次序例示,但這些步驟亦可並行或以不同於文中所描述者的次序進行。此外,該等各種步驟可基於該所需實作而組合成較少步驟、分成附加步驟、或去除步驟。方法1600是從步驟1602開始。 Figure 16 is a photometric test strip analyzer 117 (first image) for execution on the mobile phone 102 by the processor 112 (first image) from the example of the application of the present invention. A flow chart of a method 1600 for determining analyte properties (e.g., cholesterol or glucose concentration) in a test strip in a set (e.g., test strip 204 in test strip module 100 of the first panel). Method 1600 can include one or more operations, functions, or actions, which are illustrated by one or more steps. although The steps of method 1600 and other methods described herein are exemplified in a sequential order, but these steps can also be performed in parallel or in a different order than those described herein. Moreover, the various steps can be combined into fewer steps, divided into additional steps, or removed steps based on the desired implementation. Method 1600 begins at step 1602.
在步驟1602,處理器112接收使用者輸入以運行光度測試條分析儀117。作為回應,處理器112執行適用於光度測試條分析儀117的該程式碼。步驟1602接續步驟1604。 At step 1602, processor 112 receives user input to run photometric strip analyzer 117. In response, processor 112 executes the code suitable for photometric test strip analyzer 117. Step 1602 follows step 1604.
在步驟1604,處理器112將在行動電話102上的通知(如橫幅)限制於遠離在螢幕108(第一圖)上的光源區118(第一圖)的位置。 At step 1604, the processor 112 limits the notification (e.g., banner) on the mobile phone 102 to a location away from the light source zone 118 (first map) on the screen 108 (first map).
第十七圖例示在本發明之範例中通常會在行動電話102之短頂邊處出現的橫幅1702。可以看出,橫幅1702會取代亦位於螢幕108之該短頂邊上的光源區118。為避免這種情況,即使光度測試條分析儀117實際上為在縱向上運行,但處理器112會在橫向上鎖定行動電話102,因此橫幅1702在螢幕108之長側邊處出現。在其他範例中,處理器112可將橫幅1702改變為在螢幕108之中間而非螢幕108之短頂邊出現的警示。在其他範例中,當行動電話102之作業系統(Operating system,OS)容許時,處理器112可為其他應用程式暫時關閉或延遲通知。 The seventeenth figure illustrates a banner 1702 that would typically appear at the short top edge of the mobile phone 102 in the example of the present invention. It can be seen that the banner 1702 replaces the light source region 118 that is also located on the short top edge of the screen 108. To avoid this, even if the photometric strip analyzer 117 is actually running in the machine direction, the processor 112 will lock the mobile phone 102 in the landscape, so the banner 1702 appears at the long side of the screen 108. In other examples, processor 112 may change banner 1702 to an alert that appears in the middle of screen 108 rather than the short top edge of screen 108. In other examples, when the operating system (OS) of the mobile phone 102 allows, the processor 112 may temporarily turn off or delay notifications for other applications.
請即重新參考第十六圖,步驟1604接續步驟1606。 Please refer back to the sixteenth figure again, and step 1604 follows step 1606.
在步驟1606,處理器112進行測量預測試以判定行動電話102是否具有適當設定以測定該分析物性質。步驟1606後面接續步驟1608。 At step 1606, the processor 112 performs a measurement pre-test to determine if the mobile phone 102 has the appropriate settings to determine the analyte properties. Step 1606 is followed by step 1608.
在步驟1608,處理器112判定行動電話102是否已通過該測量預測試。若尚未通過,則步驟1608接續步驟1610。否則步驟1608接續步驟1612。 At step 1608, the processor 112 determines if the mobile phone 102 has passed the measurement pre-test. If not, step 1608 continues with step 1610. Otherwise step 1608 continues with step 1612.
在步驟1610,處理器112建議藉由在螢幕108上顯示訊息改變行動電話102之該設定。 At step 1610, the processor 112 suggests changing the setting of the mobile phone 102 by displaying a message on the screen 108.
第十八圖為在本發明之範例中用於實施方法1600的步驟1606、1608及1610之方法1800的流程圖。方法1800是從步骤1802開始,其接續方法1600中的步驟1604。 Figure 18 is a flow diagram of a method 1800 for implementing steps 1606, 1608, and 1610 of method 1600 in an example of the present invention. The method 1800 begins at step 1802, which continues at step 1604 of method 1600.
在步骤1802,處理器112判定是否為行動電話102開啟飛 航模式。在該飛航模式下,無線連線與服務為關閉,因此行動電話102並未接收到否則會中斷光度測試條分析儀117(第一圖)並改變光源區118(第一圖)所提供光線顏色的呼叫。若行動電話102不在該飛航模式下,則步骤1802接續步骤1804。否則步骤1802接續步骤1806。 At step 1802, the processor 112 determines whether to fly the mobile phone 102. Flight mode. In the flight mode, the wireless connection and service are off, so the mobile phone 102 does not receive the light that would otherwise interrupt the photometric test strip analyzer 117 (first image) and change the light provided by the light source region 118 (first image). Color call. If the mobile phone 102 is not in the flight mode, then step 1802 continues with step 1804. Otherwise, step 1802 continues with step 1806.
在步骤1804,處理器112建議藉由在螢幕108上顯示訊息開啟該飛航模式。處理器112可離開光度測試條分析儀117或迴圈回到步骤1802以判定該使用者是否已開啟該飛航模式。或者,處理器112可自動開啟該飛航模式並前進到步骤1806。 At step 1804, processor 112 suggests that the flight mode be turned on by displaying a message on screen 108. Processor 112 may exit photometric strip analyzer 117 or loop back to step 1802 to determine if the user has turned on the flight mode. Alternatively, processor 112 may automatically turn on the flight mode and proceed to step 1806.
在步骤1806,處理器112判定行動電話102之電池容量是否大於臨界值。該臨界值確保行動電話102具有足夠能源以測定該分析物性質。若行動電話102之電池容量未大於臨界值,則步骤1806接續步骤1808。否則步骤1806接續步骤1810。 At step 1806, processor 112 determines if the battery capacity of mobile phone 102 is greater than a threshold. This threshold ensures that the mobile phone 102 has sufficient energy to determine the analyte properties. If the battery capacity of the mobile phone 102 is not greater than the threshold, then step 1806 continues with step 1808. Otherwise step 1806 continues with step 1810.
在步骤1808,處理器112建議藉由在螢幕108上顯示訊息對行動電話102進行充電。處理器112可離開光度測試條分析儀117或迴圈回到步骤1806以判定該電池容量現在是否大於該臨界值。 At step 1808, the processor 112 suggests charging the mobile phone 102 by displaying a message on the screen 108. Processor 112 may exit photometric strip analyzer 117 or loop back to step 1806 to determine if the battery capacity is now greater than the threshold.
在步骤1810,處理器112判定行動電話102是否正在內部電池上運行。當行動運算載具102插入牆壁插座時,主電源中的電源波動可改變螢幕108(第一圖)之光源區118(第一圖)及相機104(第一圖)之感光元件回應所提供的光線。若行動電話102未在該內部電池上運行,則步骤1810接續步骤1812。否則步骤1810接續步骤1814。 At step 1810, the processor 112 determines if the mobile phone 102 is operating on an internal battery. When the mobile computing carrier 102 is plugged into a wall outlet, power fluctuations in the main power source can change the light source area 118 (first image) of the screen 108 (first image) and the photosensitive element response of the camera 104 (first image). Light. If the mobile phone 102 is not operating on the internal battery, then step 1810 continues with step 1812. Otherwise, step 1810 continues with step 1814.
在步骤1812,處理器112建議藉由在螢幕108上顯示訊息從該牆壁插座拔下行動電話102。處理器112可離開光度測試條分析儀117或迴圈回到步骤1810以判定行動電話102現在是否正利用內部電池運行。 At step 1812, the processor 112 suggests unplugging the mobile phone 102 from the wall outlet by displaying a message on the screen 108. Processor 112 may exit photometric strip analyzer 117 or loop back to step 1810 to determine if mobile phone 102 is now operating with an internal battery.
在步骤1814,處理器112判定環境照明度是否小於臨界值。當該環境照明度很高時,可滲漏至測試條模組100中並干擾螢幕108之光源區118所提供的光線。處理器112可使用相機104感測該環境照明度,其在此點上未涵蓋於任何測試條模組,並視需要進行記錄以在該測量階段中進一步使用。若該環境照明度未小於該臨界值,則步骤1814接續步骤1816。否則步骤1814接續方法1600中的步驟1612。 At step 1814, processor 112 determines if the ambient illumination level is less than a threshold. When the ambient illumination is high, it can leak into the test strip module 100 and interfere with the light provided by the light source region 118 of the screen 108. The processor 112 can sense the ambient illumination using the camera 104, which is not covered by any test strip module at this point and is recorded as needed for further use in the measurement phase. If the ambient illumination is not less than the threshold, then step 1814 continues with step 1816. Otherwise step 1814 continues with step 1612 of method 1600.
在步骤1816,處理器112建議藉由在螢幕108上顯示訊息移動或屏蔽行動電話102。處理器112可離開光度測試條分析儀117或迴圈回到步骤1814以判定該環境照明度現在是否小於該臨界值。 At step 1816, the processor 112 suggests moving or blocking the mobile phone 102 by displaying a message on the screen 108. Processor 112 may exit photometric strip analyzer 117 or loop back to step 1814 to determine if the ambient illumination is now less than the threshold.
請即重新參考第十六圖,在步驟1612,處理器112在測試條模組100置放於行動電話102上後,偵測在測試條模組100中的測試條204。處理器112藉由使用相機104以拍攝測試條模組100之內部影像及照亮測試條模組100之內部的光源區118偵測測試條204,並基於形狀、顏色或顏色強度在該影像中找出類似於測試條204的候選者。 Referring back to FIG. 16 again, in step 1612, the processor 112 detects the test strip 204 in the test strip module 100 after the test strip module 100 is placed on the mobile phone 102. The processor 112 detects the test strip 204 by using the camera 104 to capture the internal image of the test strip module 100 and illuminate the light source area 118 inside the test strip module 100, and is in the image based on shape, color or color intensity. Find candidates similar to test strip 204.
第十九圖顯示在本發明之範例中的測試條204。測試條204包括一反應區1902及一顏色校正區1904。反應區1902可包括子區1906-1、1906-2及1906-3(統稱為「子區(subarea)1906」),其針對不同分析物之一或多個分析物性質之不同數值範圍。子區1906在引入樣本前可具有相同顏色或不同顏色。顏色校正區1904可具有已知顏色或顏色強度,或包括已知顏色或顏色強度之子區。 A nineteenth diagram shows a test strip 204 in an example of the present invention. Test strip 204 includes a reaction zone 1902 and a color correction zone 1904. Reaction zone 1902 can include sub-regions 1906-1, 1906-2, and 1906-3 (collectively referred to as "subarea 1906") for different ranges of values for one or more analyte properties of different analytes. Sub-region 1906 can have the same color or a different color prior to introduction of the sample. Color correction zone 1904 can have a known color or color intensity, or a sub-region that includes a known color or color intensity.
一旦處理器112(第一圖)在該影像中找出類似於測試條204的候選者,則處理器112取得反應區1902應位於該候選者上的區域之剖面1908,並判定剖面是否包括具有不同顏色而匹配於子區1906-1、1906-2及1906-3的該等不同顏色之部分。 Once processor 112 (first map) finds a candidate in the image that is similar to test strip 204, processor 112 takes a profile 1908 of the region where reaction zone 1902 should be located on the candidate and determines if the profile includes Different colors match the portions of the different colors of sub-regions 1906-1, 1906-2, and 1906-3.
請即重新參考第十六圖,在步驟1614,處理器112判定測試條204是否已正確定位。測試條204在剖面1908包括匹配子區1906之該等不同顏色的該等不同顏色部分時,與相機104及光源區118對準。若並非如此,則步驟1614接續步驟1616。否則步驟1614接續步驟1618。 Referring again to the sixteenth diagram, at step 1614, the processor 112 determines if the test strip 204 has been properly positioned. Test strip 204 is aligned with camera 104 and light source region 118 when section 1908 includes the different color portions of the different colors of matching sub-region 1906. If not, step 1614 continues with step 1616. Otherwise step 1614 continues with step 1618.
在步驟1616,處理器112建議藉由在螢幕108上顯示訊息移動測試條模組100。處理器112可迴圈回到步驟1612以判定測試條204現在是否已正確定位。 At step 1616, the processor 112 suggests moving the test strip module 100 by displaying a message on the screen 108. Processor 112 may loop back to step 1612 to determine if test strip 204 is now properly positioned.
在步驟1618,處理器112將相機104之白平衡設定鎖定為已知數值。當行動電話102的OS不允許處理器112設定該白平衡設定時,處理器112可藉由使得相機104在弱光下(如光源區118為關閉)拍攝第一影像,然後立即在正常照明下(如光源區118為開啟)拍攝第二影像,暫時將該 白平衡設定鎖定為該已知數值。在相機104在弱光下拍攝該第一影像後緊接著的短時段中,該白平衡設定將維持為該已知數值,因此該第二影像亦在此已知的白平衡設定所拍攝。例如,在弱光下的該白平衡設定可提供1:1:1紅、綠及藍(RGB)比例。步驟1618接續步驟1620。 At step 1618, processor 112 locks the white balance setting of camera 104 to a known value. When the OS of the mobile phone 102 does not allow the processor 112 to set the white balance setting, the processor 112 can take the first image by causing the camera 104 to be in low light (eg, the light source area 118 is off), and then immediately under normal illumination. (If the light source area 118 is on), the second image is taken, and the The white balance setting is locked to this known value. The white balance setting will remain at the known value for a short period of time immediately after the camera 104 is capturing the first image in low light, so the second image is also captured at the known white balance setting. For example, the white balance setting in low light provides a 1:1:1 red, green, and blue (RGB) ratio. Step 1618 continues with step 1620.
在步驟1620,處理器112在測試條模組100內部進行照明條件之校正。步驟1620接續步驟1622。 At step 1620, processor 112 performs illumination condition corrections within test strip module 100. Step 1620 continues with step 1622.
在步驟1622,處理器112判定在測試條模組100內部的該照明條件是否已通過該校正。若未通過,則步驟1622接續步驟1624。否則步驟1622接續步驟1626。 At step 1622, the processor 112 determines if the illumination condition within the test strip module 100 has passed the correction. If not, then step 1622 continues with step 1624. Otherwise, step 1622 continues with step 1626.
在步驟1624,處理器112建議藉由在螢幕108上顯示訊息移動行動電話102或屏蔽測試條模組100。處理器112可迴圈回到步驟1620以判定在測試條模組100內部的該照明條件現在是否已通過該校正。 At step 1624, the processor 112 suggests moving the mobile phone 102 or masking the test strip module 100 by displaying a message on the screen 108. Processor 112 may loop back to step 1620 to determine if the illumination condition within test strip module 100 has now passed the correction.
在步驟1626,處理器112進行測試條204之測量。在該測量中,處理器112使用相機104以拍攝在測試條204上的反應區之影像、判定該反應區之一或多個顏色特性、校正該等一或多個顏色特性、將該等校正過的一或多個顏色特性關聯至該分析物性質。步驟1626接續步驟1628。 At step 1626, processor 112 performs a measurement of test strip 204. In this measurement, the processor 112 uses the camera 104 to capture an image of the reaction zone on the test strip 204, determine one or more color characteristics of the reaction zone, correct the one or more color characteristics, and correct the one or more color characteristics. One or more color characteristics are associated to the analyte property. Step 1626 continues with step 1628.
在步驟1628,處理器112在螢幕108上顯示該結果。 At step 1628, processor 112 displays the result on screen 108.
第二十圖為在本發明之範例中的一種用於實施方法1600之步驟1620、1622、1624及1626的方法2000之流程圖。方法2000可從步驟2001開始,其接續方法1600中步驟1618。 Figure 20 is a flow diagram of a method 2000 for implementing steps 1620, 1622, 1624, and 1626 of method 1600 in an example of the present invention. Method 2000 can begin at step 2001, which continues with step 1618 of method 1600.
在步驟2001,處理器112進入校正階段,並使用相機104在特定圖案之光線及光源區118所提供的遞增強度下拍攝一系列影像。光源區118從關閉遞增至充分開啟。在一些範例中,該等光強度包括0、0.2、0.4、0.6、0.8及0.9。在其他範例中,該等遞增光強度僅包括0及0.9。該光圖案可為由於測試條模組100之該內部幾何形狀故均勻照亮測試條204(如第十九圖)的正方形、三角形或另一形狀。步驟2001接續步驟2002。 At step 2001, processor 112 enters a correction phase and uses camera 104 to take a series of images at the intensity of the particular pattern and the incremental intensity provided by source region 118. Light source region 118 is incremented from off to fully on. In some examples, the light intensities include 0, 0.2, 0.4, 0.6, 0.8, and 0.9. In other examples, the incremental light intensities include only 0 and 0.9. The light pattern may be a square, triangle or another shape that uniformly illuminates the test strip 204 (as in the nineteenth image) due to the internal geometry of the test strip module 100. Step 2001 continues with step 2002.
在步驟2002,處理器112基於在步驟2001中所拍攝的該等影像為所有顏色通道線性化該相機之回應。相機104之影像感光元件可在其範圍之該等極值處具有非線性。線性化該相機之回應校正該非線性以提 供實際的顏色通道數值。步驟2002接續步驟2004。 At step 2002, processor 112 linearizes the response of the camera for all color channels based on the images captured in step 2001. The image sensing elements of camera 104 may be non-linear at such extremes as their range. Linearize the response of the camera to correct the nonlinearity to For the actual color channel value. Step 2002 continues with step 2004.
在步驟2004,處理器112基於在該影像系列中在關閉光源區118時(如光強度=0)所拍攝的第一影像及開啟光源區118時(如光強度=0.9)所拍攝的第二影像上所拍攝的測試條204之顏色校正區1904(如第十九圖)判定環境光效果。顏色校正區1904具有對處理器112為已知的實際顏色通道數值。 At step 2004, the processor 112 is based on the first image captured in the image series when the light source region 118 is turned off (eg, light intensity = 0) and the second image taken when the light source region 118 is turned on (eg, light intensity = 0.9). The color correction area 1904 (as in the nineteenth image) of the test strip 204 taken on the image determines the ambient light effect. Color correction area 1904 has actual color channel values known to processor 112.
第二十一圖例示在本發明之範例中具有在校正階段及測量階段中隨時間繪製出光強度的上圖表及隨相同時間為顏色通道繪製出相機回應的下圖表的組合圖表2100。在圖表2100中的該等數值係為例示性目的所提供。該相機回應可為在對應於具有已知顏色通道數值的顏色校正區1904的該等第一及該等第二影像中的區域之該等顏色通道數值之平均。 The twenty-first figure illustrates a combination chart 2100 having an upper graph that plots light intensity over time in the correction phase and the measurement phase and a lower graph that plots the camera response for the color channel at the same time in the example of the present invention. These values in chart 2100 are provided for illustrative purposes. The camera response may be an average of the color channel values for the regions in the first and second images corresponding to color correction regions 1904 having known color channel values.
在該範例校正階段中,該相機回應在光源區118由於環境光滲漏至測試條模組100中故為關閉(如光強度=0)時,具有C關閉之顏色通道數值。該相機回應在光源區118為開啟(如光強度為0.9)時,具有C開啟之數值。以下公式可用於判定無該環境光效果的校正過的顏色通道數值:
其中Coff為在該校正階段期間關閉光源區118時顏色校正區1904之該所偵測的顏色通道數值,Con為在該校正階段期間開啟光源區118時顏色校正區1904之該所偵測的顏色通道數值,Cactual為顏色校正區1904之該實際顏色通道數值,Cdetected為在該測量階段期間開啟光源區118時所需區域(如第十九圖之反應區1902)之該所偵測的顏色通道數值,且Ccorrected為在測量階段期間該所需區域之該校正過的顏色通道數值。 Where Coff is the detected color channel value of the color correction area 1904 when the light source region 118 is turned off during the correction phase, and Con is the detected color correction region 1904 when the light source region 118 is turned on during the correction phase. The color channel value, C actual is the actual color channel value of the color correction zone 1904, and C detected is the area required for turning on the light source zone 118 during the measurement phase (such as the reaction zone 1902 of FIG. 19). The measured color channel value, and C corrected is the corrected color channel value for the desired region during the measurement phase.
請即重新參考第二十圖,步驟2004接續步驟2006。 Please refer back to the twentieth map, and step 2004 continues with step 2006.
在步驟2006,處理器112判定該環境光效果是否大於臨界值。該環境光效果由在該校正階段期間關閉光源區118時所偵測的顏色通道數值Cdetected表示。高環境光效果可導致無法被校正的所偵測的顏色通道 數值。當該環境光效果大於該臨界值時,步驟2006接續步驟2008,否則步驟2006接續步驟2010。 At step 2006, processor 112 determines if the ambient light effect is greater than a threshold. The ambient light effect is represented by the color channel value C detected detected when the light source region 118 is turned off during the correction phase. High ambient light effects can result in detected color channel values that cannot be corrected. When the ambient light effect is greater than the threshold, step 2006 continues with step 2008, otherwise step 2006 continues with step 2010.
在步驟2008,處理器112建議藉由在螢幕108上顯示訊息移動行動電話102或屏蔽測試條模組100。 At step 2008, the processor 112 suggests moving the mobile phone 102 or masking the test strip module 100 by displaying a message on the screen 108.
第二十二圖及第二十三圖顯示在本發明之範例中測試條模組100可如何進行屏蔽。在第二十二圖中,使用者將手2202置放於測試條模組100上方將其屏蔽免於環境光。在第二十三圖中,該使用者將盒頂部2302置放於測試條模組100上方。盒頂部2302可為部分測試條模組100包裝。 The twenty-second and twenty-third figures show how the test strip module 100 can be shielded in the example of the present invention. In the twenty-second figure, the user places the hand 2202 over the test strip module 100 to shield it from ambient light. In the twenty-third figure, the user places the top 2302 of the box above the test strip module 100. The box top 2302 can be packaged for a portion of the test strip module 100.
請即重新參考第二十圖,處理器112可迴圈回到步驟2001重新校正相機104。 Referring back to the twentieth diagram, the processor 112 may loop back to step 2001 to recalibrate the camera 104.
在步驟2010,處理器112進入該測量階段並在該樣本引入至在測試條模組100上的樣本入口後使得行動電話102振動。該振動有助於透過取樣通道1104(第十一圖)將該樣本移動至測試條204。步驟2010接續步驟2012。 At step 2010, the processor 112 enters the measurement phase and causes the mobile phone 102 to vibrate after the sample is introduced into the sample entry on the test strip module 100. This vibration assists in moving the sample to the test strip 204 through the sampling channel 1104 (Fig. 11). Step 2010 continues with step 2012.
在步驟2012,處理器112在開啟光源區118時拍攝在測試條204上的反應區1902之至少一影像,並偵測該反應區之至少一種顏色特性。在本發明之一些範例中,如第二十一圖所示,處理器112在時間點T1、T2拍攝反應區1902之兩個影像,並偵測反應區1902之兩種顏色C1、C2。步驟2012接續步驟2014。在一些範例中,如第二十一圖所示,處理器112在T3拍攝該反應區1902之一影像,並偵測反應區1902之顏色C3。 At step 2012, the processor 112 captures at least one image of the reaction zone 1902 on the test strip 204 when the light source zone 118 is turned on, and detects at least one color characteristic of the reaction zone. In some examples of the invention, as shown in FIG. 21, processor 112 captures two images of reaction zone 1902 at time points T1, T2 and detects two colors C1, C2 of reaction zone 1902. Step 2012 continues with step 2014. In some examples, as shown in FIG. 21, processor 112 captures an image of the reaction zone 1902 at T3 and detects color C3 of reaction zone 1902.
在步驟2014,處理器112校正該等所偵測一或多個顏色以去除在其數值中的該環境光效果。步驟2014接續步驟2016。 At step 2014, processor 112 corrects the detected one or more colors to remove the ambient light effect in its value. Step 2014 continues with step 2016.
在步驟2016,處理器112將該等校正過的一或多個顏色關聯至該分析物性質。在具有兩校正過的顏色的該等範例中,處理器112決定介於第一點(C1,T1)與第二點(C2,T2)之間的該線之斜率,並從將斜率映射至分析物性質數值的圖表將該斜率關聯至該分析物性質。 At step 2016, processor 112 associates the corrected one or more colors to the analyte properties. In these examples with two corrected colors, processor 112 determines the slope of the line between the first point (C1, T1) and the second point (C2, T2) and maps the slope from A graph of analyte property values correlates the slope to the analyte properties.
在本發明之一些範例中,處理器112並未藉由去除該環境光效果校正該反應區之該顏色。而是,處理器112使用顏色校正區1904之該 等已知的一或多個顏色及校正區1904之該等所偵測的一或多個顏色,以重新調整反應區1902之所偵測的顏色。反應區1902之該重新調整過的顏色會包括該環境光效果。然後,處理器112使用將重新調整過的顏色數值及環境照明度映射至分析物性質的圖表,將該重新調整過的顏色及在步驟1814(第十八圖)中所偵測的該環境照明度關聯至該分析物性質。第二十四圖例示在本發明之範例中的一此圖表2400。在圖表2400中,表示不同分析物性質(如血糖濃度)的多重線條繪製出相對於該等環境照明度的顏色數值。此圖表可針對不同的行動電話經實驗測定,並用光度測試條分析儀117儲存或依需求下載。 In some examples of the invention, processor 112 does not correct the color of the reaction zone by removing the ambient light effect. Instead, the processor 112 uses the color correction area 1904 One or more colors of the known one or more colors and the correction area 1904 are detected to re-adjust the detected color of the reaction zone 1902. The re-adjusted color of reaction zone 1902 will include the ambient light effect. The processor 112 then maps the re-adjusted color and the ambient illuminance to the analyte properties using the re-adjusted color and the ambient illumination detected in step 1814 (Fig. 18). Degree is associated to the analyte properties. The twenty-fourth figure illustrates one such chart 2400 in the example of the present invention. In chart 2400, multiple lines representing different analyte properties, such as blood glucose concentration, plot color values relative to the ambient illumination levels. This chart can be experimentally determined for different mobile phones and stored with the photometric strip analyzer 117 or downloaded as needed.
請即重新參考第二十圖,步驟2016接續方法1600中的步驟1628。 Referring back to the twentieth diagram, step 2016 continues with step 1628 of method 1600.
第二十五圖顯示在本發明之範例中的測試條模組100(第一圖)之變化例2500。第二十六圖顯示在本發明之範例中的測試條模組100之部分剖面。測試條模組2500具有殼體2502。殼體2502之頂部定義一指型導件2504及一樣本收集器2506。一流體輸送膜2508固定於鄰接樣本收集器2506的殼體2502之頂部。一刺血針蓋2510可收合於殼體2502,以密封保護在殼體2502內部的刺血針。 The twenty-fifth diagram shows a variation 2500 of the test strip module 100 (first map) in an example of the present invention. The twenty-sixth drawing shows a partial cross section of the test strip module 100 in the example of the present invention. The test strip module 2500 has a housing 2502. The top of the housing 2502 defines a finger guide 2504 and the same collector 2506. A fluid delivery membrane 2508 is secured to the top of the housing 2502 adjacent the sample collector 2506. A lancet cap 2510 can be retracted to the housing 2502 to seal the lancet that protects the interior of the housing 2502.
樣本收集器2506可具有半截漏斗之形狀。指型導件2504可為具有朝向樣本收集器2506之圓邊縮小的側壁的V形斜面,且該斜面朝向樣本收集器2506之圓邊向下傾斜。流體輸送膜2508抵著鄰接於漏斗形樣本收集器2506之開口半部。在使用中,使用者朝向樣本收集器2506沿著指型導件2504滑動手指,然後在樣本收集器2506中留下樣本。請即參考第二十六圖,該樣本會在樣本收集器2506之底部2602處收集。在流體輸送膜2508之背面上的親水層2604位置鄰接於樣本收集器2506之底部2602,並在殼體2502中將該樣本從底部2602橫向輸送至通道2606。通道2606由介於親水層2604與測試條204之間的殼體2502所定義。該樣本從親水層2604向下行經通道2606至測試條204。流體輸送膜2508可為在一側上具親水性塗層2604的聚酯膠膜(Mylar)。 The sample collector 2506 can have the shape of a half funnel. The finger guide 2504 can be a V-shaped bevel having a side wall that is tapered toward the rounded edge of the sample collector 2506, and the bevel slopes downward toward the rounded edge of the sample collector 2506. The fluid transport membrane 2508 abuts against the open half of the funnel-shaped sample collector 2506. In use, the user slides the finger along the finger guide 2504 toward the sample collector 2506 and then leaves the sample in the sample collector 2506. Referring now to Figure 26, the sample will be collected at the bottom 2602 of the sample collector 2506. The hydrophilic layer 2604 on the back side of the fluid transport membrane 2508 is positioned adjacent the bottom 2602 of the sample collector 2506 and laterally transports the sample from the bottom 2602 to the channel 2606 in the housing 2502. Channel 2606 is defined by a housing 2502 between hydrophilic layer 2604 and test strip 204. The sample passes from the hydrophilic layer 2604 down the channel 2606 to the test strip 204. The fluid transport film 2508 can be a polyester film (Mylar) having a hydrophilic coating 2604 on one side.
從前述內容應可明白,本發明之各種具體實施例在本說明書 中僅為描述目的,且可進行各種不同修改,不致悖離本發明之範疇與精神。因此,在本說明書中所揭示的各種具體實施例皆不欲限於文後申請專利範圍所表明的實際範疇與精神。 It will be apparent from the foregoing that various specific embodiments of the invention are in the description The description is for the purpose of illustration, and various modifications may be made without departing from the scope and spirit of the invention. Therefore, the various specific embodiments disclosed in the specification are not intended to be
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