The method of claim 12, wherein the applying a different reagent solution to each of the reservoirs step comprises applying the reagent solution through a port in each of the reservoirs or in the cover.ġ5. The method of claim 11, wherein the contacting the substrate comprising proteins to the planar region of the wicking pad comprises contacting an upper surface or a lower surface of the wicking pad.ġ4. A method of performing a lateral flow assay, the method comprising providing the device of claim 1 removing the cover from the base optionally applying a lateral flow buffer to the wicking pad contacting the substrate comprising proteins to the planar region of the wicking pad for contacting the substrate positioning the cover on the base, thereby placing a protrusion formed from the first end of the wicking pad into each of the reservoirs applying a different reagent solution to each of the reservoirs starting with a reservoir closest to the planar region for applying the substrate such that each reagent solution contacts different portions of the first end of the wicking pad and allowing lateral flow of the reagent solutions from the reservoirs to the pump such that each of the reagents in the reagent solutions is sequentially transported in the wicking pad and is contacted to the proteins on the substrate.ġ3. A method of performing a lateral flow assay, the method comprising providing the device of claim 1 removing the cover from the base optionally applying a lateral flow buffer to the wicking pad contacting the substrate comprising proteins to the planar region of the wicking pad for contacting the substrate applying a different reagent solution to each of the reservoirs starting with a reservoir closest to the planar region for applying the substrate contacting each reagent solution with the first end of the wicking pad by placing the cover on the base and dipping at least two protrusions formed in different portions of the first end of the wicking pad into the reagent solutions and allowing lateral flow of the reagent solutions from the reservoirs to the pump such that each of the reagents in the reagent solutions is sequentially transported in the wicking pad and is contacted to the proteins on the substrate.ġ2. ![]() The device of claim 1, wherein the pump contacts an upper surface or a lower surface of the second end of the wicking pad.ġ1. The device of claim 1, wherein the reservoirs are attached to each other on at least one side.ġ0. The device of claim 1, wherein a cross-section of each of the reservoirs has a shape selected from the group consisting of a v, a semicircle, an oval, a u, a rectangle, a square, and a trapezoid.ĩ. The device of claim 1, wherein each of the reservoirs spans a width of the wicking pad.Ĩ. The device of claim 1, wherein a lowest point of one or more of the reservoirs is located below the plane of the planar region for contacting the substrate.ħ. The device of claim 1, wherein each reservoir has a longest dimension perpendicular to the lateral edges of the wicking pad.Ħ. The device of claim 1, wherein each of the reservoirs is a depression.ĥ. The device of claim 2, wherein the wicking pad is bonded to the cover in the planar region that contacts the substrate.Ĥ. ![]() The device of claim 1, wherein the cover is attached to the base.ģ. A lateral flow device comprising: a wicking pad composed of a porous material, the wicking pad having a planar region for contacting a substrate comprising immobilized analytes and wherein the wicking pad has a first end, a second end and two lateral edges a base comprising two or more reservoirs having top openings that are spatially separated from each other by reservoir walls, wherein each of the reservoirs receives and is in fluid communication with the first end of the wicking pad, wherein the first end of the wicking pad is received from the top openings of each reservoir and passes over the reservoir walls a pump comprising an absorbent pad contacting the second end of the wicking pad and a cover covering the base, wherein at least two portions of the wicking pad are formed into protrusions each of which project into a different reservoir when the cover is placed onto the device and wherein at least a part of the wicking pad is bonded to the cover.Ģ.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |