Disclosed are methods and systems using liquid chromatography/tandem mass spectrometry (LC-MS/MS and 2D-LC-MS/MS) for the proteomic analysis of genotypes. In certain embodiments, samples used in the analysis comprise dried bodily fluids.

A device includes: a first portion configured to be grasped by the hand of the user, and a second portion defining a reservoir containing a control material, wherein the control material contains a target analyte in a known or predetermined concentration. A method of verifying the accuracy of an analyte monitoring device includes receiving control information, receiving a fluid sample, identifying the fluid sample as a control solution, and analyzing the control solution.

A method for increasing the number of analyte/assay combinations in a single chip or cartridge of an in vitro diagnostic system may include: prioritizing a set of analyte/assay combinations based on characteristics of each analyte in the set of analyte/assay combinations, wherein the characteristics comprise one selected from the group consisting of a prevalence of each analyte, a clinical relevance of each analyte, a clinical actionability of each analyte, a patient benefit, a cost savings, and any combination thereof; deriving an analyte/analyte interactivity for two or more analytes in the set of analyte/assay combinations; designing a plurality of candidate panel layouts based on panel layout rules, the prioritization of the set of analyte/assay combinations, and the analyte/analyte interactivity, wherein the panel layout comprises one or more chips each comprising a chamber with two or more analytes; and validating the plurality of candidate panel layouts to produce panel layout solutions.

There is provided a method of analyzing a biological sample component that allows easy and accurate quantification and counting of any of a plasma component and a blood cell component in a trace and unknown amount of a whole blood sample collected from a finger, for example. The method of the present invention is a method of analyzing a biological sample component in a trace amount of blood, comprising analyzing a diluent buffer into which the blood has been mixed and an internal standard substance and/or an external standard substance contained in the diluent buffer, calculating a dilution ratio, and analyzing a biological component in a plasma or serum component in the blood.

There is provided a method of analyzing a biological sample component that allows easy and accurate quantification and counting of any of a plasma component and a blood cell component in a trace and unknown amount of a whole blood sample collected from a finger, for example. The method of the present invention is a method of analyzing a biological sample component in a trace amount of blood, comprising analyzing a diluent buffer into which the blood has been mixed and an internal standard substance and/or an external standard substance contained in the diluent buffer, calculating a dilution ratio, and analyzing a biological component in a plasma or serum component in the blood.

There is provided a method of analyzing a biological sample component that allows easy and accurate quantification and counting of any of a plasma component and a blood cell component in a trace and unknown amount of a whole blood sample collected from a finger, for example. The method of the present invention is a method of analyzing a biological sample component in a trace amount of blood, comprising analyzing a diluent buffer into which the blood has been mixed and an internal standard substance and/or an external standard substance contained in the diluent buffer, calculating a dilution ratio, and analyzing a biological component in a plasma or serum component in the blood.

Disclosed is a method of diagnosing multiple sclerosis (MS), wherein a blood sample from a patient is incubated with a DNA-replication associated (REP) protein. The present invention relates to a DNA-replication-associated (Rep) protein for use in the diagnosis of multiple sclerosis (MS), wherein (a) an increased amount of Rep protein or fragments thereof in the sample as compared to an amount in a control sample; or an increased amount of anti-Rep protein antibodies with antigen in a sample from a subject as compared to an amount in a control sample correlates with a diagnosis of MS, wherein the Rep protein is MSBI1 Rep or MSBI2 Rep.

There is provided a method of analyzing a biological sample component that allows easy and accurate quantification and counting of any of a plasma component and a blood cell component in a trace and unknown amount of a whole blood sample collected from a finger, for example. The method of the present invention is a method of analyzing a biological sample component in a trace amount of blood, comprising analyzing a diluent buffer into which the blood has been mixed and an internal standard substance and/or an external standard substance contained in the diluent buffer, calculating a dilution ratio, and analyzing a biological component in a plasma or serum component in the blood.

Provided herein are assay control materials comprising stable analytes and lyophilized unstable analytes, and methods of making and using the same.

A device includes: a first portion configured to be grasped by the hand of the user, and a second portion defining a reservoir containing a control material, wherein the control material contains a target analyte in a known or predetermined concentration. A method of verifying the accuracy of an analyte monitoring device includes receiving a fluid sample, identifying the fluid sample as a control solution, and analyzing the fluid sample.