The present invention relates to a method for determining, predicting or estimating the biological age of a subject, or for providing a measurement for use in determining, predicting or estimating the biological age of a subject or for predicting the presence or absence of at least one disease in a subject, predicting the risk of a subject of having or developing at least one disease; and/or predicting the risk of mortality of a subject. This invention also relates to a device for determining the presence and/or amount of each biomarker in a set of biomarkers; a set of probes for determining the presence or amount of a set of biomarkers, and the use of such device and/or probes in any of the above methods. Also provided is a biomarker testing kit for use in a method as described herein and a computer-readable storage medium or a computer program comprising computer-executable instructions and associated method.

Methods and analyte sensors including at least a first working electrode having a first active area thereon, and performing a dip coating operation to deposit a bilayer membrane upon the first working electrode and the first active area. The bilayer may include an inner layer having a first membrane polymer and an outer layer having a second membrane polymer, the first membrane polymer and the second membrane polymer differing from one another. The dip coating operation may comprise one or more first dips in a first membrane formulation to form the inner layer of the bilayer membrane and one or more second dips in a second membrane formulation to form the outer layer of the bilayer membrane upon the inner layer.

Methods and analyte sensors including at least a first working electrode having a first active area thereon, and performing a dip coating operation to deposit a bilayer membrane upon the first working electrode and the first active area. The bilayer may include an inner layer having a first membrane polymer and an outer layer having a second membrane polymer, the first membrane polymer and the second membrane polymer differing from one another. The dip coating operation may comprise one or more first dips in a first membrane formulation to form the inner layer of the bilayer membrane and one or more second dips in a second membrane formulation to form the outer layer of the bilayer membrane upon the inner layer.

Provided herein are methods and systems of molecular profiling of diseases, such as cancer. In some embodiments, the molecular profiling can be used to identify treatments for a disease, such as treatments that were not initially identified as a treatment for the disease or not expected to be a treatment for a particular disease.

Multiple enzymes may be present in the active area(s) of an electrochemical sensor to facilitate analysis of one or more analytes. The multiple enzymes may function independently to detect several analytes or in concert to detect a single analyte. One sensor configuration includes a first active area and a second active area, where the first active area has an oxidation-reduction potential that is sufficiently separated from the oxidation-reduction potential of the second active area to allow independent signal production. Some sensor configurations may have an active area overcoated with a multi-component membrane containing two or more different membrane polymers. Sensor configurations having multiple enzymes capable of interacting in concert include those in which a first enzyme converts an analyte into a first product and a second enzyme converts the first product into a second product, thereby generating a signal at a working electrode that is proportional to the analyte concentration.