The present invention relates to means and methods suitable for risk prediction of chronic kidney disease (CKD) using Pro-Enkephalin or fragments thereof as biomarker. The risk prediction methods of the invention are intended for healthy subjects and for subjects suffering from diseases such as hypertension, cardiovascular diseases and events, diabetes, metabolic syndrome, obesity, or autoimmune diseases. Subject matter of the invention is also a method of predicting the worsening or improvement of kidney function or dysfunction in healthy and diseased individuals.

The present invention relates to means and methods suitable for risk prediction of chronic kidney disease (CKD) using Pro-Enkephalin or fragments thereof as biomarker. The risk prediction methods of the invention are intended for healthy subjects and for subjects suffering from diseases such as hypertension, cardiovascular diseases and events, diabetes, metabolic syndrome, obesity, or autoimmune diseases. Subject matter of the invention is also a method of predicting the worsening or improvement of kidney function or dysfunction in healthy and diseased individuals.

A sensor for the detection of an analyte in a fluid includes an electrode having a detection surface, a polydopamine layer adhered to the electrode detection surface; and optionally a receptor chemically functionalized to the polydopamine of the detection surface of the electrode. The receptor selectively binds to the analyte of interest and the analyte once bound is detectable by measuring the change of capacitance of the electrode.

A method for (a) diagnosing or monitoring kidney function in subject or (b) diagnosing kidney dysfunction in a subject or (c) predicting or monitoring the risk of an adverse events in a diseased subject or (d) predicting or monitoring the success of a therapy or intervention comprising determining the level of Pro-Enkephalin (PENK) or fragments thereof of at least 5 amino acids in a bodily fluid obtained from said subject; and correlating said level of Pro-Enkephalin or fragments thereof with (a) kidney function in a subject or (b) kidney dysfunction in said subject or (c) enhanced risk of adverse events or (d) success of a therapy or intervention in a diseased subject.

A method for (a) diagnosing or monitoring kidney function in subject or (b) diagnosing kidney dysfunction in a subject or (c) predicting or monitoring the risk of an adverse events in a diseased subject or (d) predicting or monitoring the success of a therapy or intervention comprising determining the level of Pro-Enkephalin (PENK) or fragments thereof of at least 5 amino acids in a bodily fluid obtained from said subject; and correlating said level of Pro-Enkephalin or fragments thereof with (a) kidney function in a subject or (b) kidney dysfunction in said subject or (c) enhanced risk of adverse events or (d) success of a therapy or intervention in a diseased subject.

Provided herein are antibodies and related molecules that bind to N-cadherin. In particular, provided herein are antibodies and related molecules that binding to canine N-cadherin and uses thereof (e.g., for identifying a variety of different cancer cells).

A method for predicting the risk of getting cancer in a subject that does not suffer from cancer or alternatively diagnosing cancer in a subject, where the method includes determining the level of Pro-Tachykinin, its splice variants or fragments thereof of at least 5 amino acids, where the fragments including Substance P and Neurokinin, in a bodily fluid obtained from the subject; and correlating the level of Pro-Tachykinin, its splice variants or fragments thereof with a risk for getting cancer, wherein a reduced Pro-Tachykinin level is predictive for an enhanced risk of getting cancer or alternatively diagnosing cancer wherein a reduced level is correlated with the diagnosis of cancer.

A method for (a) diagnosing or monitoring kidney function in subject or (b) diagnosing kidney dysfunction in a subject or (c) predicting or monitoring the risk of an adverse events in a diseased subject or (d) predicting or monitoring the success of a therapy or intervention comprising determining the level of Pro-Enkephalin (PENK) or fragments thereof of at least 5 amino acids in a bodily fluid obtained from said subject; and correlating said level of Pro-Enkephalin or fragments thereof with (a) kidney function in a subject or (b) kidney dysfunction in said subject or (c) enhanced risk of adverse events or (d) success of a therapy or intervention in a diseased subject.

A method for (a) diagnosing or monitoring kidney function in subject or (b) diagnosing kidney dysfunction in a subject or (c) predicting or monitoring the risk of an adverse events in a diseased subject or (d) predicting or monitoring the success of a therapy or intervention comprising determining the level of Pro-Enkephalin (PENK) or fragments thereof of at least 5 amino acids in a bodily fluid obtained from said subject; and correlating said level of Pro-Enkephalin or fragments thereof with (a) kidney function in a subject or (b) kidney dysfunction in said subject or (c) enhanced risk of adverse events or (d) success of a therapy or intervention in a diseased subject.

A sensor for the detection of an analyte in a fluid includes an electrode having a detection surface, a polydopamine layer adhered to the electrode detection surface; and optionally a receptor chemically functionalized to the polydopamine of the detection surface of the electrode. The receptor selectively binds to the analyte of interest and the analyte once bound is detectable by measuring the change of capacitance of the electrode.