This paper introduces a kind of immune colloidal gold detector instrument from the aspects of machinery,hardware and software.The instrument first collects one image through a CMOS sensor and then analyzes the image with image processing algorithm on Linux platform.Firstly,the instrument sets and stores the parameters separately for each test item,and then calls the saved item parameters when testing the item sample.So,the instrument can be used in a variety of fields and items.In this paper,a quantitative experimental test on C-reactive protein sample was performed,and the results indicate the coefficient of determination what denoted equal to 0.99,and the repeatability is greater than 93%.
Algorithms ; Gold Colloid ; Image Processing, Computer-Assisted ; instrumentation

Brucella ; Brucellosis/diagnosis* ; Chromatography, Affinity ; Gold Colloid ; Humans

8-hydroxy-2'-deoxyguanosine (8-OHdG) is a sensitive and stable biomarker for evaluating DNA oxidative damage. A rapid and sensitive colloidal gold immunochromatographic strip was developed for 8-OHdG detection by a competitive method. The sample pad (glass cellulose film), bonding pad (glass cellulose film), nitrocellulose film and absorbent pad were pasted on the polyvinyl chloride (PVC) base plate to construct the test strip. Colloidal gold (AuNPs) was prepared by the reduction of chloroauric acid with sodium citrate. 8-OHdG antibody (Ab) was coated on the outer layer of AuNPs to form Ab@AuNPs as a probe. Bovine serum albumin (BSA) and 8-OHdG were conjugated with carbodiimide hydrochloride to prepare an artificial antigen, which was used as the coating antigen of detection line. Goat anti mouse polyclonal antibody IgG was used as the coating antibody of control line. The experimental parameters were optimized including the type of nitrocellulose membrane, the formula of loading solution, and the spraying amount of gold labeled antibody. The results showed that the appropriate nitrocellulose membrane was CN 95. The optimal loading solution included BSA (1%), Tween-20 (3%), sucrose (3%) and NaCl (0.9%). The optimal spraying amount of gold labeled antibody was 4 μL. 8-OHdG can be detected by the strip under visible light, and the level of 8-OHdG in urine can be preliminarily determined by comparing the color intensity of T line and C line. The 8-OHdG concentration in urine was further calculated by the gray value of T line and the threshold of detection was 2.55 μg/L. This colloidal gold immunochromatographic strip is simple, rapid and specific for detecting 8-OHdG in human urine to preliminarily evaluate the human status.
8-Hydroxy-2'-Deoxyguanosine ; Animals ; Antibodies, Monoclonal ; Gold ; Gold Colloid/chemistry* ; Metal Nanoparticles ; Mice ; Sensitivity and Specificity

BACKGROUND: Fecal occult blood tests have been widely used for colorectal cancer screening. In recent years, many laboratories have used automated fecal occult blood test analyzers using immunologic techniques for convenience, fast reporting and quantitative handling. Hemo Techt NS-Plus C15 (NS-Plus C) (Alfresa pharma Co., Japan) is a newly-introduced automated fecal occult blood test analyzer using colloidal gold agglutination methods. We evaluated the performance of NS-Plus C. METHODS: The linearity, precision and carry-over rate of NS-Plus C were evaluated. We performed parallel test between NS-Plus C and HM-JACK (Kyowa Medix Co., Japan) using 219 stool specimens. RESULTS: The linearity was good (R2=0.998) and coefficient of variation (CVs) of within-day precision were 2.61% and 2.07% in low and high concentration, and between-day CVs for each group were 3.18% and 1.63%, respectively. Carry over rate was 0% and concordance rate between NS-Plus C and HM-JACK was 98.6%. CONCLUSIONS: NS-Plus C showed good performance for linearity, precision, carry over rate and comparison study. Therefore, this is believed to be a highly reliable measurement system for fecal occult blood test.
Agglutination ; Colorectal Neoplasms ; Gold Colloid ; Handling (Psychology) ; Immunologic Techniques ; Mass Screening ; Occult Blood

BACKGROUND: Recently, quantitative point-of-care testing (POCT) for cardiac markers using colloidal gold particles was developed in Korea. We evaluated the analytical performance of the HUBI-QUANPRO (Humasis, Korea) assay in comparison with two other assays. METHODS: We evaluated the analytical precision and linearity of HUBI-QUANPRO creatine kinase (CK)-MB, cardiac troponin I (cTnI), and B-type natriuretic peptides (BNP). HUBI-QUANPRO assay was compared with ADVIA Centaur (Siemens, Germany) and Triage (Biosite Diagnostics, USA) assays by using 100 blood samples. In addition, we evaluated the interference of hemoglobin on the HUBI-QUANPRO assay. RESULTS: The coefficients of variation of HUBI-QUANPRO CK-MB, cTnI, and BNP were 7.5-9.7%, 12.0-17.4%, and 14.7-15.7%, respectively. The linearity ranges of HUBI-QUANPRO CK-MB, cTnI, and BNP were 4.7-27.8 ng/mL, 0.76-6.51 ng/mL, and 76.2-762.2 ng/mL, respectively. The comparison study showed no significant difference among them. When 0.5% hemolysis occurred, remarkable hemoglobin interference was found in the three markers resulting in underestimation of the concentrations. CONCLUSIONS: HUBI-QUANPRO CK-MB and BNP showed good analytical performances compared with the other two assays. Hemoglobin interference was noted in the HUBI-QUANPRO assay, especially more in BNP. Although the linearity range of cTnI was narrow, its agreement rate with ADVIA Centaur was good, thus the HUBI-QUANPRO assay could be useful as a quantitative POCT for cardiac markers in the emergency department.
Creatine Kinase ; Emergencies ; Gold Colloid ; Hemoglobins ; Hemolysis ; Korea ; Natriuretic Peptides ; Triage ; Troponin I

OBJECTIVETo compare the sensitivity, the specificity and the anti-jamming of several excrement occult blood experimental techniques. To evaluate the effect of transferrin (Tf) in the excrement in the digestive tract hemorrhage detection rate.

METHODSFor 600 patients of clinical suspicious digestive tract hemorrhage, take their excrement specimen, using the chemical process (pyramidon semi-quantitative examination law) to detect hemoglobin (Hb), and using monoclonal antibody colloidal gold method to detect Hb and Tf.

RESULTSFinally the hemoglobin chemical process (hereafter refers to as chemical process) to detect upper gastrointestinal hemorrhage with the positive rate 57.3%, and the detection of hemorrhage of lower digestive tract's positive rate is 44.8%; Hemoglobin monoclonal antibody colloidal gold method (hereafter refers to as colloid gold law) to examine upper gastrointestinal hemorrhage with a positive rate 60.4%, under examination hemorrhage with positive rate 77.6%; transferrin monoclonal antibody colloidal gold method (hereafter refer to as transferrin law) to examine upper gastrointestinal hemorrhage with a positive rate 82.3%, examination hemorrhage of lower digestive tract with a positive rate 66.4%; The union examination law (hemoglobin and transferrin to be detected twice, once positive that is positive) examines upper gastrointestinal hemorrhage the positive rate is 90.8%, hemorrhage of lower digestive tract's positive rate is 97.6%.

CONCLUSIONExcrement transferrin has the high detection rate in the upper gastrointestinal hemorrhage; Hb and the Tf combined examination may obviously raise the digestive tract hemorrhagic disease's positive detection rate.

Ochratoxin A (OTA) is a toxic secondary metabolite mainly produced by Aspergillus and Penicillium species, existing in a variety of foodstuffs and Chinese medicines. OTA is difficult to be detected in practice because of the characteristics such as trace amounts, toxicity, existing in complex matrices. In the numerous detection technologies, colloidal gold chromatographic techniques are highly sensitive, specific, cost-effective and user-friendly, and are being used increasingly for OTA screening. Recently, with the development of aptamer technology and its application in chromatographic technique, a newly colloidal gold aptamer chromatographic technique has been developed. This review elaborates the structures and principles of both traditional and newly colloidal gold chromatographic techniques, focuses on newly colloidal gold aptamer chromatographic technique, summarizes and compares their use in rapid detection of OTA. Finally, in order to provide a reference for better research of related work, the development trends of this novel technique are prospected.
Base Sequence ; Chromatography ; methods ; Gold Colloid ; chemistry ; Molecular Sequence Data ; Ochratoxins ; analysis

Enzyme-Linked Immunosorbent Assay ; False Negative Reactions ; Gold Colloid ; HIV Antibodies ; blood ; Humans

Nanotechnology is the engineering and manipulation of materials and devices with sizes in the nanometer range. Colloidal gold, iron oxide nanoparticles and quantum dot semiconductor nanocrystals are examples of nanoparticles, with sizes generally ranging from 1 to 20 nm. These nanotechnologies have been researched tremendously in the last decade and this has led to a new area of “nanomedicine” which is the application of nanotechnology to human healthcare for diagnosis, monitoring, treatment, prediction and prevention of diseases. Recently progress has been made in overcoming some of the difficulties in the human use of nanomedicines. In the mid-1990s, Doxil was approved by the FDA, and now various nanoconstructs are on the market and in clinical trials. However, there are many obstacles in the human application of nanomaterials. For translation to clinical use, a detailed understanding is needed of the chemical and physical properties of particles and their pharmacokinetic behavior in the body, including their biodistribution, toxicity, and biocompatibility. In this review, we provide a broad introduction to nanomedicines and discuss the preclinical and clinical trials in which they have been evaluated.
Delivery of Health Care ; Diagnosis ; Gold Colloid ; Humans ; Iron ; Nanomedicine ; Nanoparticles ; Nanostructures ; Nanotechnology ; Quantum Dots

Colloidal gold immunochromatographic strip is a fast, sensitive and accurate solid-phase labeling detection technology, which has the advantages of low price, easy operation, rapid detection and high specificity, with the potential to qualitatively detect the relevant viruses in a short time with desired sensitivity and accuracy. It effectively addresses the disadvantages of long detection time, equipment inconvenience and professionalism requirement of the traditional detection methods used in the medical, veterinary, animal, plant virus detection, pesticide residue detection and other areas. Presently, the technology has been applied in the detection of bacterial diseases, viral diseases and prevention of extensive spread of infectious diseases, and has sufficient room for further development. This review summarizes the application of colloidal gold immunochromatography strip for biological virus detection, followed by prospecting future perspectives.
Animals ; Antibodies, Monoclonal/chemistry* ; Chromatography, Affinity ; Gold Colloid/chemistry* ; Pesticide Residues ; Sensitivity and Specificity