Interference immunoassay development

CK-MB can be measured in numerous ways. Immunoassays developed in recent years have improved on the analytical and clinical sensitivity and specificity of the earlier immunoinhibition and immunoprecipitation assays. These assays now (1) measure CK-MB directly and provide mass measurements, (2) are easily automated, and (3) provide rapid results (<30 minutes). Mass assays reliably measure low CK-MB concentrations in both samples with low total enzyme activity (<100 U/L) and with high total enzyme activity (>10,000 U/L). Furthermore, no interferences from other proteins have been documented. The majority of commercially available immunoassays that use monoclonal anti-CK-MB antibodies are the same as those listed in Table 5-2 for cardiac troponin assays. Excellent concordance has been shown between mass concentration and activity assays. A primary reference material is commercially available to assist in harmonization. If used for assay standardization, then this material allows... 

Beasley et al. developed a panel of immunoassays to monitor DDT, its metabolites, and structurally related compounds, but they found that milk has a severe effect on the assay performance. They found that when directly utilizing whole milk, color development was completely inhibited. Even when using 1 100 dilutions of whole milk, the assay sensitivity was reduced by 90% (based on the IC50 shift, not simply the dilution factor). A number of procedures were evaluated to eliminate the interferences from the fat-soluble analytes. However, many of the procedures that removed interferences also removed the analytes. Extraction with a mixture of solvents and the use of similarly processed blank milk to prepare the standards ultimately yielded more accurate results. This article demonstrates the difficulties encountered in analyzing lipid-soluble analytes. 

The test kit is based on immunoassay techniques and the method takes about 10 minutes to provide an analysis. A unique tag, permanently attached to the polymer, changes the color of special test strips exposed to ppm levels of polymer. The strips indicate the amount of tagged polymer that is present, without interference from other additives and contaminants. This technology is not currently available for continuous inhibitor detection, but given the importance of AH Organic Programs, there is little doubt that further developments will take place. The Water Additives Division of Great Lakes Chemical Corp. have also recently introduced a similar simple and accurate immunoassay test for the detection of Belclene 200 antiscalent. 

Immunoglobulin Levels in Serum.Similar immunoassays were developed for human IgM and IgE. Levels of these Igs were determined in the sera of normal individuals and are shown in Table VI. The IgE analyses were performed on samples that were absorbed with PA-Sepharose as described above to remove components responsible for nonspecific (lipids) and specific (IgG) interference in the assay. The IgE levels were comparable to values obtained for the same samples by double-antibody RIA. The concentration of IgG in these sera (Table VI) was determined by the procedure described above [Eq. (1)]. 

Unfortunately, the dose-survival times for the DSP toxins in the mouse assay fluctuate considerably and fatty acids interfere with the assay, giving false-positive results consequently, a suckling mouse assay that has been developed and used for control of DSP measures fluid accumulation after injection of the shellfish extract. Considerable effort has been applied recently to development of chemical assays to replace these bioassays. As a result a good high performance liquid chromatography (HPLC) procedure has been developed to identify individual PSP toxins (detection limit for saxitoxin = 20 fg per 100 g of meats 0.2 ppm), an excellent HPLC procedure (detection limit for okadaic acid = 400 ngg 0.4 ppm), a commercially available immunoassay (detection limit for okadaic acid=lfg per 100 g of meats 0.01 ppm) for DSP, and a totally satisfactory HPLC procedure for ASP (detection limit for domoic acid = 750 ngg 0.75 ppm). 

Evaluation, characterization, and testing of a particular analytical method is necessary to ensure the intended use of the method is met. In general, this process requires the determination of intra-and interlaboratory studies for precision and bias, method detection limits, matrix effects, interferences, limits of reliable measurements and ruggedness of the method. Before the EPA commits time and resources for an in-depth evaluation study, the developer must meet certain developmental criteria or justify why they were not met. The developer must also clearly define all necessary reagents as well as the underlying basis of the immunoassay. 

Much effort has been made to detect steroids in biological fluids. Even simple TLC methods have been used for qualitative analysis [38], One method that been used for quantification involves an immunoassay, but several problems exist with that method, most notably cross-reactions and interference with other substances [39], On the other hand, a number of chromatographic methods have been developed to overcome these problems. The majority of analytical methods involved GC, which has good detection limits, but requires previous derivatization [40] of the steroids to accomplish volatilization. Many methods have also been reported using HPLC with UV detection or LC-MS [40, 41], Previously used stationary phases for LC was e.g., Sephadex LH-20, Celite and Lipidex, but they could not be operated with high pressure [42], These columns were therefore slow to run and the separation of steroids was very time-consuming [43], Nowadays applications mainly use HPLC as a separation method with both normal-phase and re-versed-phase chromatography. 

Free or unbound cortisol represents the biologically active form of the circulating hormone, and its concentration is practically independent of alterations of its transport proteins. Various methods have been developed for estimating the free fraction in serum, but these assays are technically demanding, expensive, and not in general use. The measurement of urine free cortisol comes closest to providing an estimate of the free hormone concentration. As mentioned previously, approximately 2% of cortisol is excreted into the urine in a free form, and its measurement has been shown to be of use as a screening test for cortisol hypersecretion. However, P-hydroxycortisol has been reported to interfere with the immunoassay of free cortisol in urine. ... 

---