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Polycarbonate filter

Multi-well modified Boyden chambers can be obtained from Neuro Probe Inc. (Gaithersburg, MD). Model AP48 has been widely used for endothelial cell chemotaxis assays. The apparatus consists of top and bottom acrylic plates, a silicon gasket and assembly screws. The bottom plate has 48 wells, each with 25 pL final volume. These correspond to holes on the top plate, and form the upper wells when the chamber is assembled. The filter (polycarbonate, 25 x 80 mm) is placed between the top and bottom plates, and a gasket is placed over the filter to create the seal. The apparatus can be purchased with a selection of accessories, such as curved forceps, filter clamps, and wipers. These are required to process the filters after use. Filters can also be obtained from Nucleopore Inc. (Pleasanton, CA) and Costar (Cambridge, MA). [Pg.123]

Transport experiments are usually carried out using Caco-2 cells grown on artificial filters (polycarbonate or polyethylene terephtalate) in wells. The chamber system is adapted to allow electrophysiological parameters such as potential difference to be measured in parallel so that cellular integrity can be monitored. [Pg.394]

FIGURE 1 Effect of (sequential) extrusion of MLV dispersions through polycarbonate membrane filters (Unipore) with pore sizes of 1.0, 0.6, 0.4, 0.2, and 0.1 ym on the mean liposome diameter. DXR-containing MLV (phosphatidylcholine/phosphatidylserine/ cholesterol 10 1 4) mean diameter of nonextruded dispersion about 2 ym pH 4. Mean particle size determined by dynamic Light scattering (Nanosizer, Coulter Electronics). (From Crommelin and Storm, 1987.)... [Pg.264]

A similar system has been reported based on polycarbonate filters coated with hexadecane, also called hexadecane membranes (HDM) [124, 125]. Thus, this... [Pg.38]

The in vitro system we have been using to study the transepithelial transport is cultured Madin-Darby canine kidney (MDCK) epithelial cells (11). When cultured on microporous polycarbonate filters (Transwell, Costar, Cambridge, MA), MDCK cells will develop into monolayers mimicking the mucosal epithelium (11). When these cells reach confluence, tight junctions will be established between the cells, and free diffusion of solutes across the cell monolayer will be markedly inhibited. Tight junction formation can be monitored by measuring the transepithelial electrical resistance (TEER) across the cell monolayers. In Figure 1, MDCK cells were seeded at 2 X 104 cells per well in Transwells (0.4 p pore size) as described previously. TEER and 14C-sucrose transport were measured daily. To determine 14C-sucrose... [Pg.121]

Efforts to overcome the limitations of the fragile membranes (as delicate as soap bubbles) have evolved with the use of membrane supports, such as polycarbonate filters (straight-through pores) [543] or other more porous microfilters (sponge-like pore structure) [545-548]. [Pg.124]

Faller and Wohnsland [509,554] developed the PAMPA assay using phospholipid-free hexadecane, supported on 10-pm thick polycarbonate filters(20% porosity,... [Pg.129]

Figure 5 The Costar Transwell system with a cell monolayer grown on a porous polycarbonate filter that is mounted onto a removable plastic insert forming the apical chamber. Two other systems, (1) the Costar diffusion chamber system, where a filter-grown (Snap-well) cell monolayer is sandwiched between two chambers of equal volume and the bathing solutions are agitated and/or gassed and (2) filter-grown cell monolayers mounted in a two-chamber rotating cylinder device (Imanidis et al., 1996), are not shown. Figure 5 The Costar Transwell system with a cell monolayer grown on a porous polycarbonate filter that is mounted onto a removable plastic insert forming the apical chamber. Two other systems, (1) the Costar diffusion chamber system, where a filter-grown (Snap-well) cell monolayer is sandwiched between two chambers of equal volume and the bathing solutions are agitated and/or gassed and (2) filter-grown cell monolayers mounted in a two-chamber rotating cylinder device (Imanidis et al., 1996), are not shown.
Air Collection of sample onto nudeopore polycarbonate filter EPXMA No data No data Van Borm et al. [Pg.452]

Faller and Wohnsland [18, 19] developed the PAMPA assay using phospholipid-free hexadecane, supported on 10 pm-thick polycarbonate filters, and were able to demonstrate interesting predictions. Their PAMPA method appeared to be a satisfactory substitute for obtaining alkane/water partition coefficients, which are usually very difficult to measure directly, due to the poor solubility of drug molecules in alkanes. Apparently, membrane retention was not measured. [Pg.50]

While nuclepore polycarbonate membranes (0.4 ]im) were preferred as backup filters when sulfate was to be measured, glass-fiber filters had to be used in the HVI measurements. [Pg.383]

Because of potential glass fiber sulfate artifacts, a separate sampling for total sulfate was made using a polycarbonate filter. [Pg.383]

Bisphenols is a broad term that includes many chemicals with the common chemical structure of two phenolic rings joined together by a bridging carbon. Bisphenol A is a monomer widely used in the manufacture of epoxy and phenolic resins, polycarbonates, polyacrylates and corrosion-resistant unsaturated polyester-styrene resins. It can be found in a diverse range of products, including the interior coatings of food cans and filters, water containers, dental composites and sealants. [4]. BPA and BP-5 were selected for testing by the whole... [Pg.933]

The interaction of solutes (especially adsorption) with the filter material and the retained particles. The problem is especially serious with trace elements (heavy metals) that adsorb especially at pH values of 7 and above on filter walls and on the filter materials (glass, acrylic copolymers, cellulose esters, polycarbonates etc.). One also needs to consider that... [Pg.283]


See other pages where Polycarbonate filter is mentioned: [Pg.139]    [Pg.373]    [Pg.76]    [Pg.336]    [Pg.87]    [Pg.36]    [Pg.578]    [Pg.402]    [Pg.336]    [Pg.263]    [Pg.264]    [Pg.38]    [Pg.152]    [Pg.124]    [Pg.131]    [Pg.277]    [Pg.11]    [Pg.12]    [Pg.49]    [Pg.51]    [Pg.100]    [Pg.100]    [Pg.102]    [Pg.226]    [Pg.382]    [Pg.431]    [Pg.304]    [Pg.224]    [Pg.284]    [Pg.169]    [Pg.408]    [Pg.163]   
See also in sourсe #XX -- [ Pg.30 , Pg.73 ]




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