Weight-controlled sorbent system for hemodialysis

The invention is claimed as follows: 1. A hemodialysis system comprising: a dialyzer; a blood circuit including a blood pump in fluid communication with the dialyzer, an arterial line for removing blood from a patient, and a venous line for returning blood to the patient; a dialysate circuit including a dialysate circulation pump in fluid communication with the dialyzer, the dialysate circuit further including a sorbent cartridge for cleaning used dialysate; a dialysate reservoir; a reservoir pump in fluid communication with the dialysate circuit and the dialysate reservoir; a supply of concentrate for reconstituting dialysate in the dialysate circuit; and wherein the hemodialysis system is configured to electronically weigh the dialysate reservoir and the supply of concentrate. 2. The hemodialysis system of claim 1 , wherein the dialysate reservoir holds an initial batch of dialysate. 3. The hemodialysis system of claim 1 , wherein the dialysate reservoir and the supply of concentrate are weighed by a same electronic balance. 4. The hemodialysis system of claim 1 , wherein the reservoir pump is positioned and arranged to also pump concentrate from the concentrate supply. 5. The hemodialysis system of claim 4 , which includes a first valve positioned between the dialysis reservoir and the reservoir pump and a second valve positioned between the concentrate supply and the reservoir pump. 6. The hemodialysis system of claim 1 , which includes a check valve positioned and arranged to prevent regenerated dialysate exiting the sorbent cartridge from reentering the sorbent cartridge. 7. The hemodialysis system of claim 1 , which includes a sensor positioned and arranged in the blood circuit for preventing air from being delivered to the patient. 8. The hemodialysis system of claim 1 , which includes a sensor positioned and arranged to monitor regenerated dialysate exiting the sorbent cartridge. 9. The hemodialysis system of claim 8 , wherein the sensor includes at least one of an ammonia sensor, an ammonium sensor, a pH sensor, or a capacitance sensor. 10. The hemodialysis system of claim 1 , which includes a sensor positioned and arranged to monitor an efficiency of the system in removing toxins. 11. The hemodialysis system of claim 1 , which includes a sensor positioned and arranged so that its output can be used to control a rate of flow from the supply of concentrate. 12. The hemodialysis system of claim 1 , wherein the reservoir pump is positioned and arranged to pump the dialysate from the dialysate reservoir to the dialysate circuit. 13. The hemodialysis system of claim 1 , wherein the hemodialysis system is configured to electronically weigh the dialysate reservoir and the supply of concentrate during at least one of (i) a priming of the hemodialysis system, or (ii) a dialysis treatment. 14. A hemodialysis system comprising: a dialyzer; a blood circuit including a blood pump in fluid communication with the dialyzer; a dialysate circuit including a dialysate circulation pump in fluid communication with the dialyzer, the dialysate circuit further including a sorbent cartridge for cleaning used dialysate; a dialysate reservoir; a reservoir pump in fluid communication with the dialysate circuit and the dialysate reservoir; a supply of concentrate for reconstituting dialysate in the dialysate circuit; and wherein the hemodialysis system is configured to electronically weigh the dialysate reservoir and the supply of concentrate, and wherein the reservoir pump is positioned and arranged to also pump concentrate from the concentrate supply. 15. The hemodialysis system of claim 14 , which includes a first valve positioned between the dialysis reservoir and the reservoir pump and a second valve positioned between the concentrate supply and the reservoir pump. 16. The hemodialysis system of claim 14 , which includes a check valve positioned and arranged to prevent regenerated dialysate exiting the sorbent cartridge from reentering the sorbent cartridge. 17. The hemodialysis system of claim 14 , which includes a sensor positioned and arranged in the blood circuit for preventing air from being delivered to the patient. 18. The hemodialysis system of claim 14 , which includes a sensor positioned and arranged to monitor regenerated dialysate exiting the sorbent cartridge. 19. The hemodialysis system of claim 18 , wherein the sensor includes at least one of an ammonia sensor, an ammonium sensor, a pH sensor, or a capacitance sensor. 20. The hemodialysis system of claim 14 , which includes a sensor positioned and arranged to monitor an efficiency of the system in removing toxins. 21. The hemodialysis system of claim 14 , which includes a sensor positioned and arranged so that its output can be used to control a rate of flow from the supply of concentrate. 22. The hemodialysis system of claim 14 , wherein the reservoir pump is positioned and arranged to pump the dialysate from the dialysate reservoir to the dialysate circuit. 23. The hemodialysis system of claim 14 , wherein the hemodialysis system is configured to electronically weigh the dialysate reservoir and the supply of concentrate during at least one of (i) a priming of the hemodialysis system, or (ii) a dialysis treatment.