초록 ▼

The present invention provides an underdrain having an improved spout. The underdrain has particular utility in the construction of both single-well and microarray filtration devices. In a principal embodiment, the underdrain is characterized by its incorporation of a straight-walled, roughly-textur

The present invention provides an underdrain having an improved spout. The underdrain has particular utility in the construction of both single-well and microarray filtration devices. In a principal embodiment, the underdrain is characterized by its incorporation of a straight-walled, roughly-textured spout, the spout being provided with microhole(s) at a terminal end thereof for the discharge of fluid conducted through the underdrain. An array comprising several of such underdrains can be mated with a corresponding array of wells, with separation material (e.g., membrane material) provided therebetween. The resultant microarray filtration device can be used for conducting several fluid assays contemporaneously with, for example, good "pendant drop" control and low "cross-talk".

대표청구항 ▼

The invention claimed is: 1. An array of underdrains capable of being fixed onto the bottom of a plurality of wells with separation material substantially therebetween, thereby providing a flow path wherein fluid placed in the wells is flowable first into and through said separation material, then

The invention claimed is: 1. An array of underdrains capable of being fixed onto the bottom of a plurality of wells with separation material substantially therebetween, thereby providing a flow path wherein fluid placed in the wells is flowable first into and through said separation material, then into and ultimately out of the underdrain; the array of underdrains comprising a monolithic construction, and having an upstream side and a downstream side, said fixation to said wells being enabled proximate said upstream side, said flow of fluid out of said underdrain occurring proximate said downstream side; the underdrain having a spout at said downstream side, the spout having a central axis and comprising an inner side surface, an outer side surface, and a floor having an inner and an outer end surface, the inner side surface defining a fluid pathway through said spout that runs substantially along said central axis, the fluid pathway terminating downstream at said inner end surface, said spout floor having a plurality of microholes provided therethrough or therearound where the plurality of microholes have diameters ranging from approximately 0.02 mm to approximately 0.76 mm and where the outer side surface of the spout runs substantially parallel with the central axis of the spout and wherein the outer side and end surfaces of said spout have a coarse microstructure formed by the use of an appropriately rough-textured mold, or by mechanical or chemical roughening. 2. The array of underdrains of claim 1, wherein said microholes have diameters approximately 0.76 mm. 3. The array of underdrains of claim 1, wherein said outer side surface runs substantially parallel to said central axis from its furthest downstream end to at least a point corresponding to midway said fluid pathway. 4. The array of underdrains of claim 3, wherein the distance along which said outer side surface runs parallel along said central axis from its furthest downstream end is within the range of approximately 0.5 mm to 5.0 mm. 5. The array of underdrains of claim 1, wherein the outer side surface of said spout has a coarse microstructure that enhances the chemically-inherent hydrophobicity of said outer side surface. 6. The array of underdrains of claim 1, wherein said array of underdrains comprises 96 individual underdrains arranged in an 8횞12 array. 7. The array of underdrains of claim 1, wherein said array of underdrains comprises 384 individual underdrains arranged in a 16횞24 array. 8. A microarray filtration device comprising an array of wells, wherein: (a) each of said wells has an underdrain; (b) separation material is provided discretely throughout such microfiltration device such that fluid placed in a well is flowable first into and through the separation material, then into and ultimately out of the underdrain of said well; (c) each underdrain has an upstream end and a downstream end, with a spout provided at said downstream end that enables said flowing of fluid out of said underdrain; and (d) each spout has a central axis and comprises an inner side surface, an outer side surface, and a floor having an inner and outer end surface, the inner side surface defining a fluid pathway through said spout that runs substantially along said central axis, the fluid pathway terminating downstream at said inner end surface, said spout floor having a plurality of microholes provided therethrough or therearound where the plurality of microholes have diameters ranging from approximately 0.02 mm to approximately 0.76 mm, and wherein the outer side and end surfaces of said spout have a coarse microstructure formed by the use of an appropriately rough-textured mold, or by mechanical or chemical roughening. 9. The microarray filtration device of claims 8, wherein each underdrain is formed continuously onto each well. 10. The microarray filtration device of claim 9, wherein said separation material is a membrane. 11. The microarray filtration device of 10, wherein each well has a predetermined maximum volume capacity within the range of approximately 1 milliliter to approximately 5 milliliters.