We developed a chemiluminescent enzyme immunoassay (CLEIA) to quantify such tumor markers as carcinoembryonic antigen (CEA), alpha-fetoprotein (AFP), CA19-9, and CA125. We used a novel chemiluminescent substrate, a derivative of 1,2-dioxetane phosphate (AMPPD), to measure alkaline phosphatase as a labeling enzyme to Fab' fragments of antibody. Regardless of the solid phase, i.e., polystyrene beads (6 mm diameter) or ferrite-coated particles (0.3 microns diameter), the standard curves within the dynamic ranges of the conventional RIA or enzyme immunoassay (EIA) were linear in all cases except for those with AFP. Use of the ferrite particles further shortens the immunoreaction, so the assay can be performed in 30 min. In addition, the relationships between concentrations of the marker and chemiluminescent signals for CA19-9, CA125, and CEA were linear up to concentrations about 10-fold greater than the ordinary dynamic ranges. Intra- and interassay CVs (averages for individual analyte) were 2.2%-4.9% and 2.0%-5.8%, respectively. In an analysis of serum samples, results of the CLEIA correlated reasonably well with those of RIA or EIA. The lower limit of detection by CLEIA with ferrite particles was 390 arb. units/L for CA19-9, 990 arb. units/L for CA125, 0.06 micrograms/L for CEA, and 0.03 micrograms/L for AFP. Thus, the sensitivity increased to between two- and 10-fold that of RIA or colorimetric EIA, depending on the analytes.
A new lipid nano-emulsion (LNE) was prepared from soybean oil and phosphatidylcholine (PC) employing two cosurfactants, sodium palmitate (PA) for reduced droplet size and sucrose palmitate (SP) for stability enhancement. The mean droplet size of LNEs prepared at a PA/PC (w/w) ratio of larger than 1/10 was found to be ca. 50 nm by dynamic light scattering and atomic force microscopy. However, during the 12-month storage, the PA/PC (1/10)-LNE showed an increase in mean droplet size and broadening of the droplet size distribution due to coalescence of the LNE particles. In a saline solution, the coalescence proceeded very rapidly, i.e., the mean droplet size increased to more than 150 nm within 0.5 h. To suppress the coalescence of LNE particles, four sucrose fatty acid esters of different chain lengths were examined as candidate cosurfactants. The results showed that PA/SP/PC (1/4/10)-LNE could maintain a mean droplet size around 50 nm for 12 months. In a saline solution, the mean droplet size could be maintained within 100 nm even after 24 h. Slight formation of flocculation in the LNEs depending on the storage period was suggested by measurement of the 31 P nuclear magnetic resonance line width of the LNEs.
Hollow-core toroidal micro-cavities are obtained by self-rolling of double-layer (polyvinyl pyridine/polystyrole) polymer films. Rolling of the bilayer is due to preferential swelling of polyvinyl pyridine in water solution of dodecyl benzene sulfonic acid. The tube formation proceeds from a circular opening in the film made by photolithography or by mechanical scratching. Toroid equilibrium dimensions are determined by the balance of the elastic energy relaxation via the film scrolling and the work of the in-plane stretching that is due to increasing radius of the toroid. The principle features of the micro-toroid formation process are captured by a simple analytical model. The inner walls of the cavities can be made metal coated. For this aim, the polymer bilayer can be metallized by vacuum sputtering prior to lithographic patterning and rolling of the bilayer. The toroids with metallic inner surfaces are promising for the future research as IR-frequency range resonators.
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