Dialysis system with sample concentration determination device using magnet and radio frequency coil assemblies

What is claimed is: 1. A dialysis system comprising: a dialysis fluid circuit; and a device for measuring a concentration of a substance in a sample of dialysate fluid taken from the dialysis fluid the device comprising: a first support frame member and a second support frame member that are spaced apart from each other, each of the first and second support frame members having a first end and a second end, the first end of the first support frame member being positioned adjacent to the first end of the second support frame member and defining therebetween a first gap, the second end of the first support frame member being positioned adjacent to the second end of the second support frame member and defining therebetween a second gap, a first magnet connected to the first support frame member, the first magnet having a pole face, a second magnet connected to the second support frame member, in a manner such that the second magnet is disposed within the magnetic field of the first magnet and a magnetic attraction exists between the first magnet and the second magnet, and such that a pole face of the second magnet faces the pole face of the first magnetic, a spacer assembly disposed between the pole faces of the first magnet and the second magnet, the spacer assembly dimensioned to prevent the first and second support frame members from moving towards each other such that the first and second support frame members are positioned with respect to each other by the spacer assembly and widths of the first and second gaps are maintained, the spacer assembly comprising: a first side that contacts the pole face of the first magnet, and a second side that is opposed and parallel to the first side and contacts the pole face of the second magnet, the first side and the second side defining therebetween an interior space configured to receive the sample, the position of the first and second sides of the spacer assembly orients the first magnet relative to the second magnet in a manner such that the pole face of the first magnet is maintained substantially parallel to the pole face of the second magnet, and a radio frequency coil supported on the spacer so as enclose a portion of the interior space, the radio frequency coil configured to transmit a radio frequency signal to and receive a radio frequency signal from the sample. 2. The dialysis system of claim 1 , further comprising a dialysis machine including a compartment, and a module that can be disposed in the compartment, the module comprising the device. 3. The dialysis system of claim 1 , wherein the spacer assembly is configured to maintain a space between the first magnet and the second magnet. 4. The dialysis system of claim 1 , wherein the first side of the spacer assembly and the second side of the spacer assembly are planar, and a plane defined by the first side of the spacer assembly is substantially parallel to a plane defined by the second side of the spacer assembly. 5. The dialysis system of claim 1 , wherein the pole face of the first magnet is angled relative to the pole face of the second magnet by no more than 0.2 degrees. 6. The dialysis system of claim 1 , wherein the spacer assembly further includes a spacer body formed of a ceramic material. 7. The dialysis system of claim 1 , wherein the spacer assembly comprises a pair of non-magnetic, electrically-conductive plates and a spacer body, the spacer body being sandwiched between the pair of plates such that a first surface of a first plate of the pair of plates contacts the first magnet, and a surface opposed to the first surface of the first plate contacts a first side of the spacer body, and a first surface of a second plate of the pair of plates contacts the second magnet, and a surface opposed to the first surface of the second plate contacts a second side of the spacer body. 8. The dialysis system of claim 1 , wherein the radio frequency coil is configured to transmit a radio frequency signal to and receive a radio frequency signal from the interior space. 9. The dialysis system of claim 8 , wherein the spacer assembly comprises a spacer body and first and second support plates, a first side of the spacer body comprises a first groove and the first support plate being disposed in the first groove such that an outward facing surface of the first support plate lies flush with the spacer body first side, a second side of the spacer body comprises a second groove and the second support plate being disposed in the second groove such that an outward facing surface of the second support plate lies flush with the spacer body second side, and each of the first support plate and the second support plate includes a through opening that is configured to receive and support the radio frequency coil within the interior space. 10. The dialysis system of claim 9 , wherein the first support plate and the second support plate are formed of a sodium-free plastic. 11. The dialysis system of claim 8 , wherein the radio frequency coil comprises a hollow rectangular form and an electrical conductor that is wound about a coil axis, and the radio frequency coil is oriented within the spacer assembly such that the coil axis is generally parallel to the spacer assembly first side and transverse to flux lines associated with the magnetic attraction force of the two magnets. 12. The dialysis system of claim 1 , wherein the spacer assembly is clamped between the magnets due to the magnetic attractive force. 13. The dialysis system of claim 1 , wherein the first magnet includes a first pole piece, the second magnet includes a second pole piece, the first side of the spacer assembly contacts the first pole piece, and the second side of the spacer assembly contacts the second pole piece. 14. The dialysis system of claim 1 , wherein the spacer assembly has a peripheral shape that orients the first magnet relative to the second magnet in a manner such that the first and second gaps are maintained at substantially equal widths between the first and second support frame members. 15. The dialysis system of claim 14 , wherein the first and second gaps each define a gap width between 0.5 mm and 1.0 mm. 16. The dialysis system of claim 1 , wherein the first and second magnets define therebetween a main gap, wherein the first and second sides of the spacer assembly orients the pole face of the magnet relative to the pole face of the second magnet in a manner such that a width of the main gap varies by less than 0.2 percent. 17. The dialysis system of claim 1 , wherein the first and second ends of the first and second support frame members comprise corresponding first and second support frame arms, from respective bodies of the support frame members, the first gap being between the first arms of the first and second support frame members and the second gap being between the second arms of the first and second support frame members. 18. The dialysis system of claim 17 , wherein the first and second arms of the first and second support frame members extend in a substantially perpendicular direction to the bodies of the support frame members. 19. The dialysis system of claim 18 , wherein the first and second arms of the first support frame member are substantially parallel to one another, and the first and second arms of the second support frame member are substantially parallel to one another.