The invention encompasses methods and test strips for detecting the presence of cerebrospinal fluid (CSF) in a biological sample with a lateral flow device which uses lectin conjugates, anti-antigen conjugates, an immobilized serum line, and an immobilized anti-antigen line.

An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries and includes a valve system. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective intersections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes. The apparatus may also include a plurality of valves surrounding each of the analyte concentrators to localize each of the concentrators to improve the binding of one or more analytes of interest.

An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries and includes a valve system. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective intersections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes. The apparatus may also include a plurality of valves surrounding each of the analyte concentrators to localize each of the concentrators to improve the binding of one or more analytes of interest.

An electrophoretic device for detecting biomarkers in collected bodily fluid and methods of using the same.

An electrophoretic device for detecting biomarkers in collected bodily fluid and methods of using the same.

A system for determining chemistry of a molecule in a high background interfering liquid environment by application of an electronic signal at a biased metal-electrolyte interface is disclosed. One or more of a resonant exchange of energy between one or more electrons exchanged by the metal and the electrolyte and vibrating bonds of a molecular analyte, for example, may be sensed by measuring small signal conductivity of an electrochemical interface.

A system for determining chemistry of a molecule in a high background interfering liquid environment by application of an electronic signal at a biased metal-electrolyte interface is disclosed. One or more of a resonant exchange of energy between one or more electrons exchanged by the metal and the electrolyte and vibrating bonds of a molecular analyte, for example, may be sensed by measuring small signal conductivity of an electrochemical interface.

Articles and methods for the active transport of molecules into, within, and/or from a matrix are generally described. In some embodiments, an electric field may be used to alter the position of the molecule with respect to the matrix. The electric field may be used to move the molecule to a new location within the matrix, remove the molecule from the matrix, or infuse the molecule into the matrix. For instance, the electric field may be used to move a molecule having a binding partner within the matrix into or away from the vicinity of the binding partner. In some embodiments, the position of the molecule may be altered by exposing the molecule to an electrodynamic field. In some such embodiments, the molecule exposed to the dynamic electric field may have enhanced mobility and minimal adverse matrix interactions relative to conventional molecular transport methods, and in some cases, a molecule exposed to an electrostatic field. The active transport methods and articles, described herein, may be particularly well-suited for a variety of applications including histological, biological, and pharmaceutical applications.

Electrophoretic separation methods and systems for performing the same are provided. The methods and systems find use in a variety of different electrophoretic separation applications, such as sub-cellular Western blotting of single cells.

Electrophoretic separation methods and systems for performing the same are provided. The methods and systems find use in a variety of different electrophoretic separation applications, such as sub-cellular Western blotting of single cells.