Provided are systems and methods of sample preparation and analyte detection.

Provided are systems and methods of sample preparation and analyte detection.

A magnetic particle is disclosed. The magnetic particle comprises a magnetic material having a maximum field strength in a range of from about 20 emu/g to about 250 emu/g and a remanence in a range of from about 0 emu/g to about 30 emu/g. The magnetic particle further comprises an outer surface containing a ligand. The ligand interacts with an analyte of interest in the sample solution.

The present disclosure provides methods, systems, and kits for detecting molecules in a sample with a pre-equilibrium digital immunoassay. The methods and systems provide means for quantifying molecules in a biological sample of minimal volume in short amounts of time.

The present disclosure provides methods, systems, and kits for detecting molecules in a sample with a pre-equilibrium digital immunoassay. The methods and systems provide means for quantifying molecules in a biological sample of minimal volume in short amounts of time.

The invention features methods panels, cartridges, and systems for detecting pathogens and for diagnosing and treating diseases, including bacteremia and sepsis.

The invention features methods panels, cartridges, and systems for detecting pathogens and for diagnosing and treating diseases, including bacteremia and sepsis.

An exosome to be analyzed having a first bead and a second bead bound thereto is collected from a buffer fluid containing the exosome to be analyzed having the first bead and the second bead bound thereto. A first antibody that specifically binds to a first antigen associated with a first disease is fixed to a surface of the first bead. A second antibody that specifically binds to a second antigen associated with a second disease is fixed to a surface of the second bead. The first bead is separated from the exosome, and the exosome having the second bead bound thereto is collected. The exosome having the second bead bound thereto is dissolved, and the second bead and an inclusion of the exosome are collected. The inclusion of the exosome is analyzed, and the number of second beads is counted.

An exosome to be analyzed having a first bead and a second bead bound thereto is collected from a buffer fluid containing the exosome to be analyzed having the first bead and the second bead bound thereto. A first antibody that specifically binds to a first antigen associated with a first disease is fixed to a surface of the first bead. A second antibody that specifically binds to a second antigen associated with a second disease is fixed to a surface of the second bead. The first bead is separated from the exosome, and the exosome having the second bead bound thereto is collected. The exosome having the second bead bound thereto is dissolved, and the second bead and an inclusion of the exosome are collected. The inclusion of the exosome is analyzed, and the number of second beads is counted.

Sequencing-by-synthesis (SBS) method is provided that includes providing a detection apparatus that includes an array of magnetically-responsive sensors. Each of the magnetically-responsive sensors is located proximate to a respective designated space to detect a magnetic property therefrom. The detection apparatus also includes a plurality of nucleic acid template strands located within corresponding designated spaces. The method also includes conducting a plurality of SBS events to grow a complementary strand by incorporating nucleotides along each template strand. At least some of the nucleotides are attached to corresponding magnetic particles having respective magnetic properties. Each of the plurality of SBS events includes detecting changes in electrical resistance at the magnetically-responsive sensors caused by the respective magnetic properties of the magnetic particles. The method also includes determining genetic characteristics of the complementary strands based on the detected changes in electrical resistance.