CN112626170A - Uric acid kit for quickly and simply eliminating drug interference and preparation method thereof - Google Patents

Abstract

The invention relates to a uric acid kit for quickly and simply eliminating drug interference and a preparation method thereof, and the key points of the technical scheme are as follows: the reagent comprises a reagent R1 and a reagent R2, wherein the reagent R1 comprises buffer solution, creatinase, sarcosine oxidase, ascorbic acid oxidase, peroxidase or catalase, serum albumin, a nonionic surfactant, a preservative, Trinder's reagent A, laccase or metallate; the reagent R2 contained buffer, serum albumin, creatinine, preservative, and Trinder's reagent B. The invention overcomes the defect that the creatinine measurement is inaccurate due to negative deviation caused by calcium dobesilate and etamsylate contained in serum samples when creatinine is measured in clinical examination of various hospitals at present, and is suitable for serum creatinine detection of a full-automatic biochemical analyzer.

Description

Uric acid kit for quickly and simply eliminating drug interference and preparation method thereof

The present case is the divisional application, specifically is application number: 2020108215098, the name is: a uric acid kit capable of eliminating interference of calcium dobesilate and etamsylate medicines in serum and a preparation method thereof are disclosed, and the application date is as follows: 2020.08.15.

Technical Field

The invention belongs to the technical field of medical examination, and relates to a uric acid kit for quickly and simply eliminating drug interference and a preparation method thereof.

Background

Uric Acid (UA) is the end product of purine metabolism in vivo, and is weakly acidic. Uric acid can be obtained from the body or from the catabolism of purines in food. In vivo, uric acid is mainly produced in the liver, a small part of which is excreted through the liver along with bile, and the majority of the rest is excreted from the kidney. Uric acid has low solubility and is therefore likely to crystallize at a high in vivo concentration. Uric acid is considered to be closely related to the occurrence and development of gout, cardiovascular and cerebrovascular diseases, metabolic syndrome, ureteral calculus, kidney diseases, and the like. In recent years, the number of people suffering from hyperuricemia and gout has been on the rise with the improvement of living standard and the change of inclusion structure of people, especially the increase of food intake rich in protein and purine. Therefore, the clinical detection of the serum uric acid concentration has very important reference value and significance, and the detection principle is as follows:

the existing commercial detection kit is double reagents, the uricase-peroxidase coupling method based on Trinder reaction has the advantages of sensitivity, suitability for automatic biochemical analyzers and the like, a reagent R1 contains peroxidase and Trinder's A reagent, after R2 is added, R2 contains uricase and Trinder's reagent B, the uricase hydrolyzes uric acid into allantoin and H2O2, and H2O2 and the peroxidase in R1 and the Trinder's A reagent are jointly existed for color generation and determination. The reaction process utilizes the specificity of enzyme, but generates H₂O₂Is a strong oxidant, and is easily consumed by reducing drugs in serum to generate negative interference.

Uric acid is the final metabolite of purine, and when purine metabolism is abnormal or the excretion of uric acid by kidney is obstructed, the uric acid concentration in blood can be increased or reduced; gout and kidneyDysfunction, malignant tumor, heavy metal poisoning such as cadmium and lead can cause the increase of blood uric acid concentration, and the blood uric acid content can be reduced due to the administration of drugs such as salicylic acid and purinol and the increase of renal excretion for severe liver diseases. Calcium dobesilate is used as a common medicine for protecting and treating capillaries, etamsylate is used as a common medicine for stopping bleeding, the medicines are strong reducing agents, and when a patient taking the medicines measures the content of uric acid in blood plasma, the reducing medicines and uricase decompose H generated by uric acid to generate₂O₂Direct reaction, consuming H₂O₂The negative deviation of the uric acid level can be serious, and the misjudgment of the doctor during diagnosis and treatment can be caused.

Disclosure of Invention

The invention discloses a uric acid kit for quickly and simply eliminating drug interference, which is characterized in that one or more of the oxidation type metal acid salt with high oxidation-reduction potential, vanadium pentoxide or vanadium oxychloride is added into a reagent R1, calcium dobesilate and etamsylate are oxidized by utilizing the oxidation characteristics of the metal acid salt, vanadium pentoxide or vanadium oxychloride, so that H2O2 generated by decomposing uric acid by uricase after the reagent R2 is added is prevented from being consumed, the operation is simple, and the accurate uric acid measurement value is quickly obtained.

The invention also discloses a uric acid kit for quickly and simply eliminating drug interference, which comprises a reagent R1 and a reagent R2, wherein the reagent R1 comprises buffer solution, peroxidase, ascorbic acid oxidase, a preservative, Trinder's reactant A and metallate; the reagent R2 contains buffer, serum albumin, uricase, preservative, and Trinder's reagent B. The proper metal acid salt is selected as the oxidant to eliminate the negative deviation caused by the interference of calcium dobesilate and etamsylate in serum during the uric acid determination, simultaneously the stability of each component in the reagent R1 and the reagent R2 is not influenced, the calcium dobesilate and the etamsylate in the serum can be oxidized before the uricase (the reagent R2) is added, and the consumption of H generated during the uric acid determination is avoided₂O₂So that the uric acid measurement value is accurate.

Preferably, the metalate comprises one or more of oxidation state nickelate, ferrite, cobaltate, chromate, manganate and vanadate, the vanadate is one or more of metavanadate, poly-vanadate, vanadium pentoxide or vanadium oxytrichloride, and the high oxidation-reduction potential metalate comprises sodium, potassium and ammonium salts containing the metal acid. In multiple experiments, it is found that the oxidation states nickelate, cobaltate, chromate, manganate, vanadate, metavanadate, polyvanadate, vanadic anhydride or vanadyl trichloride with high oxidation-reduction potential can be selected as oxidants to eliminate negative deviation caused by interference of calcium dobesilate and etamsylate in serum during uric acid determination by adopting 23, 24, 25, 26, 27 and 28 bits of metal element acid salts in the periodic table of elements, and the stability of each component in the reagent R1 and the reagent R2 is not influenced.

Preferably, the Trinder's reactant A is 4-Aminoantipyrine (4-Aminoantipyrine, 4-AAP for short). In a series of experiments, the invention discovers that 4-AAP can coexist with the metal acid salt or vanadium pentoxide and vanadium oxychloride as well as other components in the reagent R1 only by adding the reagent R1, and Trinder's reacts with another reagent phenol compound and uricase to coexist in the reagent R2, so that the uric acid kit can eliminate the interference of calcium dobesilate and phenolsulfoethylamine, can keep the stability of the kit for more than one year at the temperature of 2-8 ℃, and can effectively reduce the interference of ascorbic acid in blood samples on uric acid determination when the amount of the ascorbic acid oxidase is in the range.

Preferably, in the reagent R1, the concentration of a buffer solution is 5-200 mM, and the pH value is 6.5-9.5;

the content of the peroxidase is 1.0-10 ku/L;

1.0-10 ku/L ascorbic acid oxidase;

trinder's reagent A0.3-5 mM/L;

when the weight ratio of the preservative is 0.01-0.5%, a metalate oxidant or a vanadium pentoxide or a vanadium oxychloride oxidant with the content of 0.1-10 mM is adopted.

Preferably, the buffer solution of the reagent R1 is one or more of BES, BICINE, DIPSO, EPPS, PIPES, HEPES, MOPS, TAPS, TAPSO, TES, Tricine, Tris, glycylglycine and phosphate; the buffer solution of the reagent R2 is one or more of BES, BICINE, DIPSO, EPPS, PIPES, HEPES, MOPS, TAPS, TAPSO, TES, TRICINE, TRIS, diglycine and phosphate.

Preferably, the reagent R1 and the reagent R2 further contain a nonionic surfactant, the weight ratio of the nonionic surfactant is 0.01-0.3%, and the nonionic surfactant is specifically one or two of BRIJ, EMULGEN, TRITON and TWEEN.

Preferably, the preservative is one or two of Proclin, gentamicin sulfate, PARABEN, chloramphenicol, sodium azide and borax. The antiseptic can inhibit the action of biological enzyme in the reagent, so that the reagent can keep stable efficacy in a certain time, such as borax, sodium azide and the like.

Preferably, in the reagent R2, the concentration of a buffer solution is 10-200 mM, and the pH value is 6.5-9.0; the uricase content is 5-20 ku/liter; the Trinder's reagent B content is 0.1-20 mM.

Preferably, the Trinder's reagent B in the reagent R2 is one or more of TOOS, DHBS, DAOS, HDAOS, TBHBA, TOPS, TODB and 4-chlorophenol.

A preparation method of a uric acid kit for quickly and simply eliminating drug interference comprises the following steps:

preparation of reagent R1:

weighing buffer solution → adding preservative → stirring and dissolving → adjusting pH to 8.0 with sodium hydroxide or hydrochloric acid → adding metalate → stirring and dissolving → adjusting pH to 8.0 → adding Trinder's reactant A and nonionic surfactant, mixing uniformly → 2-8 ℃ overnight → adding ascorbic acid oxidase and peroxidase → stirring and dissolving → 2-8 ℃ overnight → detecting, and subpackaging;

preparation of reagent R2:

weighing buffer solution → adding preservative → stirring and dissolving → adjusting pH to 8.0 → adding Trinder's reactant B and surfactant → mixing evenly → overnight at 2-8 deg.C → adding serum albumin, uricase → mixing evenly → overnight at 2-8 deg.C → detecting and subpackaging.

The uric acid kit consists of a reagent R1 and a reagent R2, wherein the reagent R1 is firstly mixed with the reagent R2When the specimen is mixed, for example, when the specimen contains calcium dobesilate or etamsylate as a therapeutic drug, the oxidized form metal acid salt or vanadium pentoxide or vanadium oxytrichloride in the reagent R1 can be oxidized first, thereby avoiding the generation of H generated by the reaction of uricase added into the reagent R2₂O₂Consumed by the above-mentioned medicine, at the same time the reagent R2 contains Trinder's reactant B, i.e. phenol compound and H produced by reaction of 4-AAP in reagent R1 and uricase₂O₂Color is developed, the absorbance is measured, and the content is calculated.

The invention has the beneficial effects that:

the uric acid kit capable of eliminating interference of calcium dobesilate and etamsylate in serum has the advantages of good stability, simplicity in operation and rapidness in detection reaction, particularly, peroxidase and uricase are respectively prepared in a reagent R1 and a reagent R2, and the kit is different from the existing kit components in the market, can prolong the stability of the kit within a period of time, continuously eliminates negative interference of calcium dobesilate and etamsylate, avoids misjudgment of doctors in clinical diagnosis, can accurately use medicines and treat, and is suitable for a full-automatic biochemical analyzer.

The preparation method of the uric acid kit capable of eliminating interference of calcium dobesilate and etamsylate in serum has the advantages of good kit stability, simplicity and rapidness in operation, elimination of negative interference of calcium dobesilate and etamsylate, high accuracy and suitability for a full-automatic biochemical analyzer.

Drawings

FIG. 1 is a schematic diagram of the absorbance measurement process.

Detailed Description

The uric acid kit capable of eliminating interference of calcium dobesilate and etamsylate in serum of the invention is further described by combining specific embodiments as follows:

the interference of calcium dobesilate and etamsylate is determined by a uricase method kit which is currently sold and approved by the national drug administration of China, and the results are shown in the table I:

the reagent composition is as follows in the specification:

[ major Components]From the reagent R₁Reagent R₂And a calibrator.

Reagent R1: dichlorohydroxybenzenesulfonic acid (DHBS), phosphate buffer;

reagent R2: uricase, peroxidase (in cross-substrate peroxidase in the component of R1), 4-aminoantipyrine.

Calibration products: the creatinine-containing aqueous solution with the concentration shown in the label can be traced to the Randox CAL3 calibrator.

[ measurement method ]

(1) The double reagents are not required to be prepared and are directly used.

(2) The test conditions are as follows: sample (S): 3 μ l reagent 1 (R1): 240 μ l reagent 2 (R2): temperature of 60. mu.l: 37 deg.C

The determination type is as follows: dominant wavelength of endpoint method: sub-wavelength of 505 nm: 660nm reaction direction: rise up

The method comprises the following steps: the standard or sample is mixed with R1, the reagent R2 is added after 5 minutes at 37 ℃, and then the reaction absorbance 5 minutes after the reagent R2 is added is measured. (see FIG. 1)

(3) And (3) calibration procedure: calibration is performed using a calibrator, which should be performed each time a reagent batch is changed. After calibration, each laboratory was verified with quality controls. If the quality control result is not in the acceptable range value, recalibration is needed.

(4) Quality control procedure: selecting proper quality control material for quality control. And establishing respective quality control frequency and acceptable range value by each laboratory. When the measurement result is out of the acceptable range, it is necessary to take corresponding measures.

(5) Computing

Measurement instruments and parameters:

unit: mu mol/L, normal value 90-420 mu mol/L

The measuring instrument: hitachi 7180

Measurement parameters are as follows: r1: r2: (sample size) 240:60: 3. mu.l

Primary/secondary wavelength: 505/660nm

2POINT END,INC.

Table 1 interference results determined by the existing two-reagent creatinine enzymatic kit: (unit: mu mol/L)

And (4) conclusion: the measurement result shows that calcium dobesilate and etamsylate both cause negative deviation on the uric acid measurement result.

Specifically, the effect of the uric acid kit capable of eliminating interference of calcium dobesilate and etamsylate in serum is described in combination with examples 1 to 4:

table 2 reagent components for examples 1-4:

the creatinine reagents according to the present invention are described in detail as follows:

example 1:

reagent R1 component:

reagent R2 component:

example 2:

reagent R1 component:

reagent R2 component:

example 3:

reagent R1 component:

reagent R2 component:

example 4:

reagent R1 component:

reagent R2 component:

the preparation process of examples 1-4 comprises the following steps:

preparation of reagent R1:

weighing buffer solution → adding preservative → stirring and dissolving → adjusting pH to 8.0 with sodium hydroxide or hydrochloric acid → adding metalate → stirring and dissolving → adjusting pH to 8.0 → adding Trinder's reactant A and nonionic surfactant, mixing uniformly → 2-8 ℃ overnight → adding ascorbic acid oxidase and peroxidase → stirring and dissolving → 2-8 ℃ overnight → detecting, and subpackaging;

preparation of reagent R2:

weighing buffer solution → adding preservative → stirring and dissolving → adjusting pH to 8.0 → adding Trinder's reactant B and surfactant → mixing evenly → overnight at 2-8 deg.C → adding serum albumin, uricase → mixing evenly → overnight at 2-8 deg.C → detecting and subpackaging.

The determination method comprises the following steps:

placing the reagent R1 and the reagent R2 prepared in examples 1-4 at the corresponding reagent position of a full-automatic blood coagulation analyzer (Hitachi 7180), sucking the reagent R1210 μ l, the reagent R270 μ l, the calibration solution or the specimen 10 μ l, the calibration solution concentration 300 μ M, the main/auxiliary wavelength 540/660nm, the two-point end point method, the reaction direction: and INC, calibrating and measuring creatinine values of various samples containing calcium dobesilate or etamsylate with different concentrations by using the calibration solution.

TABLE 3 measurement results of example 1: (unit: mu mol/L)

Measurement of	1	2	3	Mean value of	Relative deviation of
						Mother liquor	356	355	356	355.7
Calcium dobesilate 8ml/L	357	355	356	356	0.1％
						Hydroxy benzene16ml/L calcium sulfonate	357	358	356	357	0.4％
32ml/L calcium dobesilate	356	356	355	355.7	0.0％
						Calcium dobesilate 64ml/L	349	348	349	348.7	2.0％
Etamsylate 12.5mg/L	357	358	358	357.7	0.6％
						Etamsylate 25mg/L	357	357	357	357.0	0.4％
Etamsylate 50mg/L	357	356	355	356.0	0.1％
						Etamsylate 100mg/L	358	357	358	357.7	0.6％

TABLE 4 measurement results of example 2: (unit: mu mol/L)

TABLE 5 results of the measurements of example 3: (unit: mu mol/L)

Measurement of	1	2	3	Mean value of	Relative deviation of
						Mother liquor	360	360	362	361.0
Calcium dobesilate 8ml/L	360	360	362	360.7	－0.1％
						Calcium dobesilate 16ml/L	361	361	361	361	0.0％
32ml/L calcium dobesilate	360	360	359	359.7	－0.4％
						Calcium dobesilate 64ml/L	359	359	360	359.3	－0.2％
Etamsylate 12.5mg/L	360	360	360	360.0	－0.3％
						Etamsylate 25mg/L	360	361	359	360.0	－0.3％
Etamsylate 50mg/L	358	360	359	359	－0.6％
						Etamsylate 100mg/L	359	359	358	358.7	－0.6％

TABLE 6 measurement results of example 4: (unit: mu mol/L)

Measurement of	1	2	3	Mean value of	Relative deviation of
						Mother liquor	360	360	360	360.0
Calcium dobesilate 8ml/L	361	360	361	360.7	0.2％
						Calcium dobesilate 16ml/L	360	361	358	359.7	-0.1％
32ml/L calcium dobesilate	359	359	358	358.7	-0.4％
						Calcium dobesilate 64ml/L	358	357	357	357.3	-0.8％
Etamsylate 12.5mg/L	361	360	361	360.7	0.2％
						Etamsylate 25mg/L	361	360	359	360.0	0％
Etamsylate 50mg/L	359	359	360	359.3	-0.2％
						Etamsylate 100mg/L	359	357	359	358.3	-0.5％

The results of the above examples 1-4 show that the uric acid kit capable of eliminating interference of calcium dobesilate and etamsylate in serum of the present invention can effectively eliminate interference of calcium dobesilate and etamsylate in uric acid measurement by adding high oxidation-reduction potential oxidized ferrate, or poly-metavanadate, or vanadium pentoxide or vanadyl trichloride, and the kit has good stability, simple operation, and rapid detection reaction, and particularly, peroxidase and uricase are respectively prepared in reagents R1 and R2, which is different from the existing kit components in the market, can prolong the stability of the kit in a period of time, continuously eliminate negative interference of calcium dobesilate and etamsylate, and avoid misjudgment of doctors in clinical diagnosis, can accurately use drugs and treatments, and is suitable for full-automatic biochemical analyzers.

Claims (7)

1. A uric acid kit for quickly and simply eliminating drug interference is characterized in that: the reagent comprises a reagent R1 and a reagent R2, wherein the reagent R1 comprises a buffer solution, peroxidase, ascorbic acid oxidase, a preservative, Trinder's reactant A, an oxidant and a nonionic surfactant; the reagent R2 comprises buffer, serum albumin, uricase, preservative, Trinder's reagent B and non-ionic surfactant; the Trinder's reactant A is 4-aminoantipyrine, the oxidant comprises any one of vanadium pentoxide, sodium ferrate, sodium metavanadate and vanadium oxychloride, and the Trinder's reactant B is one or a mixture of more than two of TOOS, DHBS, HDAOS, TBHBA, TOPS, TODB and 4-chlorophenol; the reagent R1 and the reagent R2 further contain nonionic surfactants, the weight ratio of the nonionic surfactants is 0.01-0.3%, and the nonionic surfactants are specifically one or two of BRIJ, EMULGEN, TRITON and TWEEN.

2. The uric acid kit for rapidly and simply eliminating drug interference according to claim 1, wherein the kit comprises: the peroxidase is bound to uricase.

3. The uric acid kit for rapidly and simply eliminating drug interference according to claim 1, wherein the kit comprises:

in the R1, the concentration of a buffer solution is 5-200 mM, and the pH value is 6.5-9.5;

the content of the peroxidase is 1.5-9 ku/liter;

1-10 ku/L ascorbic acid oxidase;

trinder's reagent A0.3-5 mM/L;

0.01-0.5 percent of preservative by weight and 0.1-10 mM of oxidant.

4. The uric acid kit for rapidly and simply eliminating drug interference according to claim 1, wherein the kit comprises: the buffer solution of the R1 is one or more of BES, BICINE, DIPSO, EPPS, PIPES, HEPES, MOPS, TAPS, TAPSO, TES, Tricine, Tris, glycylglycine and phosphate; the buffer solution of the reagent R2 is one or more of BES, BICINE, DIPSO, EPPS, PIPES, HEPES, MOPS, TAPS, TAPSO, TES, TRICINE, TRTS, glycylglycine and phosphate.

5. The uric acid kit for rapidly and simply eliminating drug interference according to claim 1, wherein the kit comprises: the preservative is one or two of Proclin, gentamicin sulfate, PARABEN, chloramphenicol, sodium azide and borax.

6. The uric acid kit for rapidly and simply eliminating drug interference according to claim 1, wherein the kit comprises: in the R2, the concentration of a buffer solution is 20-200 mM, and the pH value is 6.5-9.5; the uricase content is 5-20 ku/liter; the Trinder's reagent B content is 0.1-20 mM.

7. A preparation method of a uric acid kit for quickly and simply eliminating drug interference is characterized by comprising the following steps:

preparation of R1 reagent:

weighing buffer solution → adding preservative → stirring and dissolving → adjusting PH to 8.0 with sodium hydroxide or hydrochloric acid → adding oxidant → stirring and dissolving → adjusting PH to 8.0 → adding Trinder's reactant A and nonionic surfactant, mixing evenly → 2-8 ℃ overnight → adding ascorbic acid oxidase and peroxidase → stirring and dissolving → 2-8 ℃ overnight → detecting, and subpackaging; the Trinder's reactant A is 4-aminoantipyrine, and the oxidant comprises any one of vanadium pentoxide, sodium ferrate, sodium metavanadate and vanadium oxychloride;

preparation of R2 reagent:

weighing buffer solution → adding preservative → stirring and dissolving → adjusting PH to 8.0 → adding Trinder's reactant B and surfactant → mixing evenly → overnight at 2-8 ℃ → adding serum albumin, uricase → mixing evenly → overnight at 2-8 ℃ → detecting and subpackaging, wherein the Trinder's reactant B is one or more than two of TOOS, DHBS, HDAOS, TBHBA, TOPS, TODB and 4-chlorophenol.

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