This invention provides mass spectrometry (MS) compatible nanomaterials for the selective capture and enrichment of low abundance proteins as well as MS analysis of different proteoforms of proteins, particularly cardiac proteins and different proteoforms of cardiac troponin I (cTnI) arising from post-translational modifications and sequence variations. The surface of superparamagnetic nanoparticles is functionalized with probe molecules that specifically bind to the desired protein. In an embodiment, the nanoparticles are functionalized with probe molecules having high affinity and selectivity for cTnI within the human cardiac troponin complex. This allows for MS-analysis and characterization of cTnI proteoforms from human heart tissue lysates and human blood or serum samples, and provides an accurate assay for detection of cTnI with molecular details. Such assays are useful for accurate diagnosis of acute coronary syndrome and chronic diseases, including acute myocardial infarction and other cardiac injuries, as well as risk stratification and outcome assessment for patients.

This invention provides mass spectrometry (MS) compatible nanomaterials for the selective capture and enrichment of low abundance proteins as well as MS analysis of different proteoforms of proteins, particularly cardiac proteins and different proteoforms of cardiac troponin I (cTnI) arising from post-translational modifications and sequence variations. The surface of superparamagnetic nanoparticles is functionalized with probe molecules that specifically bind to the desired protein. In an embodiment, the nanoparticles are functionalized with probe molecules having high affinity and selectivity for cTnI within the human cardiac troponin complex. This allows for MS-analysis and characterization of cTnI proteoforms from human heart tissue lysates and human blood or serum samples, and provides an accurate assay for detection of cTnI with molecular details. Such assays are useful for accurate diagnosis of acute coronary syndrome and chronic diseases, including acute myocardial infarction and other cardiac injuries, as well as risk stratification and outcome assessment for patients.

The invention concerns the use of hepcidin for the diagnosis and therapy of disorders of iron homeostasis. Hepcidin can be used in the treatment of disorders resulting from iron overload, while inhibitors of hepcidin can he used in the treatment of anaemia.

The invention concerns the use of hepcidin for the diagnosis and therapy of disorders of iron homeostasis. Hepcidin can be used in the treatment of disorders resulting from iron overload, while inhibitors of hepcidin can he used in the treatment of anaemia.

Provided herein are systems and methods of assessing a concentration of iron in a body fluid sample, such as whole blood. Systems include a highly stable, fast reacting, and accurate sensing area of a sensor for contacting with a body fluid sample, wherein upon contact, the body fluid sample causes a color change to the sensor that correlates with the concentration of iron in the body fluid sample. The disclosed systems and methods generate one or more signal outputs of light intensity data, from which the concentration of iron in the body fluid sample is determined.

Provided herein are systems and methods of assessing a concentration of iron in a body fluid sample, such as whole blood. Systems include a highly stable, fast reacting, and accurate sensing area of a sensor for contacting with a body fluid sample, wherein upon contact, the body fluid sample causes a color change to the sensor that correlates with the concentration of iron in the body fluid sample. The disclosed systems and methods generate one or more signal outputs of light intensity data, from which the concentration of iron in the body fluid sample is determined.

The present invention relates to methods for treating iron deficiency in a subject comprising noninvasively determining the hemoglobin level in the subject, and providing the subject with an iron supplement accordingly.

In certain aspects, the present invention provides methods for dosing a patient with an ActRIIb antagonist and methods for managing patients treated with an ActRIIb anatagonist. In certain aspects, the methods involve measuring one or more hematologic parameters in a patient.

In certain aspects, the present invention provides methods for dosing a patient with an ActRIIb antagonist and methods for managing patients treated with an ActRIIb anatagonist. In certain aspects, the methods involve measuring one or more hematologic parameters in a patient.

The present invention relates to the field of treating iron deficiency with IV iron carbohydrate complexes such ferric carboxymaltose, monitoring or identifying subjects to determine their eligibility for being administered said IV iron carbohydrate complexes, and combining said IV iron carbohydrate complexes with additional drugs in order to mitigate or reduce side effects induced by said IV iron carbohydrate complexes.