System, apparatus and method for determining a substance within a fluid

The invention claimed is: 1. An apparatus for determining a substance within a fluid, the apparatus comprising: a cartridge having a channel including a sensing location having a sensing cavity and a binding surface for binding a plurality of particles having magnetic properties, wherein the binding surface is structured such that particles of the plurality of particles that bind to the binding surface bind with one of two types of binding with a first type of binding being a specific predetermined type of binding and a second type of binding being a non-specific type of binding; a particle detector configured to receive the cartridge and to generate a temporal position signal indicative of corresponding positions of the plurality of particles over a given temporal period; at least one light detector configured to receive and detect a reflection of radiation from a detection plane defined by the binding surface; and a processor and a processor storage medium having instructions stored thereon, the processor configured by the instructions stored on the processor storage medium to perform acts of determining a particle release curve indicative of a release of the bound particles from the binding surface based on the generated temporal position signal over the given temporal period, separating a part of the particle release curve caused by particles bound to the binding surface that are indicative of the first type of binding from the second type of binding based on a temporal behavior of the particle release curve over the given temporal period, and determining a substance within the fluid based only on the part of the particle release curve which is indicative of the first type of binding. 2. The apparatus as in claim 1 , wherein the temporal position signal is dependent on the bound particles integrated over a predefined region of the binding surface, and the processor is further configured to determine the particle release curve from the generated temporal position signal over the given temporal period. 3. The apparatus as in claim 1 , wherein the processor is further configured by the instructions stored on the processor storage medium to perform acts of: determining lifetimes of the bindings of the plurality of particles on the binding surface from the generated sensing signal, generating a histogram of the determined lifetimes, and determining the particle release curve depending on the generated histogram. 4. The apparatus as in claim 1 , further comprising a stressing device for putting bindings between the particles and the binding surface under stress, while the particle detector senses the particles, wherein the cartridge comprises lower and upper substrates forming the channel and the stressing device comprises lower and upper magnets placed proximate the lower and upper substrates respectively, the lower and upper magnets are configured to apply a force to attract and repel the magnetic particles to and from the binding surface. 5. The apparatus as in claim 1 , wherein the processor is further configured by the instructions stored on the processor storage medium to perform acts of: providing a plurality of predefined curves, each having a respective temporal behavior indicative of a respective type of binding between different particles bound to the binding surface; and determining a best fitting between linear combinations of the plurality of predefined curves and the determined particle release curve over the given temporal period. 6. The apparatus as in claim 1 , wherein the processor is further configured by the instructions stored on the processor storage medium to perform acts of: determining the time constants of the particle release curve as the temporal behavior of the particle release curve, the time constants are defined by reaction constants of the plurality of particles bound to the binding surface over the given temporal period, and determining a part of the particle release curve which changes with at least one of the determined time constants based only on the part of the particle release curve caused by particles bound to the binding surface through the first type of binding. 7. The apparatus as in claim 6 , further comprising a stressing device including a magnet for applying a force to the particles for putting bindings between the particles and the binding surface under stress, wherein the particle detector senses the particles under stress, and wherein the processor is further configured by the instructions stored on the processor storage medium to perform acts of correcting the time constants for the influence of the applied force based on the applied force, and determining a part of the particle release curve, which changes with at least one of the corrected time constants, as the part of the particle release curve caused by particles bound to the binding surface through the first type of binding. 8. The apparatus as in claim 6 , wherein the processor is further is configured by the instructions stored on the processor storage medium to perform acts of: determining the positions of the particles for different times from the generated temporal position signal over the given temporal period, determining the magnetic particle-particle influence based on the determined positions and magnetic properties of the particles at the different times, correcting the time constants depending on the determined magnetic particle-particle influence at the different times, and determining a part of the particle release curve, which changes with at least one of the corrected time constants, as the part of the particle release curve caused by particles bound to the binding surface through the first type of binding. 9. The apparatus as in claim 8 , wherein the sensor further comprises: a light source configured to generate and direct radiation to the binding surface for generating an evanescent field, wherein the temporal position signal is generated based on the detected reflection influenced by the evanescent field and is indicative of the positions of the plurality of particles within the detection plane over the given temporal period. 10. The apparatus as in claim 9 , wherein the light detector is configured to move the detection plane with respect to the binding surface for generating the temporal position signal indicative of height positions of the particles with respect to the binding surface. 11. A method for determining a substance within a fluid on a cartridge, the method comprising acts of: attaching a portion of a plurality of particles having magnetic properties to the substance within the fluid; structuring a binding surface of the cartridge such that particles of the plurality of particles that bind to the binding surface bind with one of two types of binding with a first type of binding being a specific predetermined type of binding and a second type of binding being a non-specific type of binding; binding the plurality of particles to the binding surface of the cartridge; generating a temporal position signal indicative of corresponding positions of the plurality of particles; receiving and detecting a reflection of radiation from a detection plane defined by the binding surface; determining a particle release curve indicative of a release of the bound particles from the binding surface using the generated temporal position signal over a given temporal period; separating a part of the particle release curve caused by particles bound to the binding surface that are indicative of the first type of binding from the second type of binding based on a temporal behavior of the particle release curve over the given temporal period; and determi