The present disclosure provides methods for the detection of multiple analytes using a single solid phase. The present disclosure also relates to the preparation of solid phases that include receptacles having affixed thereto antibodies directed to at least two different analytes. The methods of the present disclosure can be used, for example, for the quantitative detection of analytes in a sample and the measurement thereof.

Provided herein, in some embodiments, are methods and compositions for detecting differentially expressed genes in a sample obtained from a subject having or at risk for preeclampsia.

The present disclosure relates to IGF-IR (insulin like growth factor receptor-1) antibodies characterized by CDR sequences a, to be used in detection methods of IGF-IR expressing tumoral cells.

The invention provides IGFBP7 immunoassays with improved clinical performance, particularly when used in the evaluation of renal injuries. The immunoassays rely on the selection and use of antibodies and antibody pairs that exhibit improved assay performance when used in complex clinical specimens such as biological fluids, and particularly when used in rapid assay formats such as lateral flow test devices.

The purpose of the invention is to develop a method for screening anti-aging substances. The present inventors have found a phenomenon in which a dermis aging factor secreted by senescent cells acts on normal cells to promote the decomposition of dermal components and a reduction in the production of dermal components, and have arrived at developing a method for screening anti-aging substances by employing the dermis aging factor as an indicator.

Methods for the detection, enumeration and analysis of circulating tumor cells expressing insulin-like growth factor-1 receptors (IGF-1R) are disclosed. These methods are useful for cancer screening and staging, development of treatment regimens, and for monitoring for treatment responses, cancer recurrence or the like. Test kits that facilitate the detection, enumeration and analysis of such circulating tumor cells are also provided.

The present disclosure relates to a method for diagnosing preeclampsia or a preeclampsia-related condition in a pregnant subject. The method is based on the measurement of the amount of the biomarker IGFBP-7 (Insulin-like Growth Factor Binding Protein 7) in a sample from the subject and on the comparison of the measured amount to a reference. Also disclosed are methods for assessing the severity of preeclampsia or a preeclampsia-related condition and methods for monitoring a preeclampsia or a preeclampsia-related condition in a pregnant subject. The present disclosure further relates to the use of the biomarker IGFBP-7 or of an agent that specifically binds to IGFBP-7 in a sample from a pregnant subject for diagnosing, for monitoring or for assessing the severity of preeclampsia or a preeclampsia-related condition. Finally, the present disclosure relates to a device or kit adapted to carry out the method of the present invention.

Disclosed are methods for identifying a pregnant female who is susceptible to spontaneous preterm delivery. In particular, disclosed are methods for identifying a pregnant female who is susceptible to spontaneous preterm delivery based on ratios of steroids in samples obtained from the pregnant female. Further, the methods can include treating the pregnant female identified susceptible to spontaneous preterm delivery.

The disclosure provides a pair of isolated biomarkers selected from the group consisting of IBP4/SHBG, IBP4/PSG3, IBP4/LYAM1, IBP4/IGF2, CLUS/IBP3, CLUS/IGF2, CLUS/LYAM1, INHBC/PSG3, INHBC/IGF2, PSG2/LYAM1, PSG2/IGF2, PSG2/LYAM1, PEDF/PSG3, PEDF/SHBG, PEDF/LYAM1, CD14/LYAM1, and APOC3/LYAM1, wherein the pair of biomarkers exhibits a change in reversal value between pregnant females at risk for pre-term birth and term controls. Also provided is a method of determining probability for preterm birth in a pregnant female, the method comprising measuring in a biological sample obtained from the pregnant female a reversal value for at least one pair of biomarkers selected from the group consisting of IBP4/SHBG, IBP4/PSG3, IBP4/LYAM1, IBP4/IGF2, CLUS/IBP3, CLUS/IGF2, CLUS/LYAM1, INHBC/PSG3, INHBC/IGF2, PSG2/LYAM1, PSG2/IGF2, PSG2/LYAM1, PEDF/PSG3, PEDF/SHBG, PEDF/LYAM1, CD14/LYAM1, and APOC3/LYAM1 to determine the probability for preterm birth in the pregnant female.

Disclosed is a method for assessing heart failure in vitro including the steps of measuring in a sample the concentration of the marker IGFBP-7, of optionally measuring in the sample the concentration of one or more other marker(s) of heart failure, and of assessing heart failure by comparing the concentration determined in for IGFBP-7 and the concentration(s) determined for the optionally one or more other marker to the concentration of this marker or these markers as established in a reference population. Also disclosed are the use of IGFBP-7 as a marker protein in the assessment of heart failure, a marker combination comprising IGFBP-7 and a kit for measuring IGFBP-7.