Disposable set and system for dialysis

The invention is claimed as follows: 1. A peritoneal dialysis system comprising: a peritoneal dialysis machine including a fluid pumping mechanism, a concentrate pumping mechanism, and a sensor configured to measure a property of peritoneal dialysis fluid; and a disposable cassette operable with the peritoneal dialysis machine, the disposable cassette including a fluid source inlet for accepting fluid from a fluid source, a fluid flow path in fluid communication with the fluid source inlet, the fluid flow path including a fluid pump chamber operable with the fluid pumping mechanism to pump fluid through the fluid flow path, a concentrate inlet for fluidly communicating concentrate to the fluid flow path, a concentrate pump chamber operable with the concentrate pumping mechanism to pump concentrate from the concentrate inlet to the fluid flow path, and a sensor chamber located along the fluid flow path and operable with the sensor, wherein the sensor is configured to provide feedback to the peritoneal dialysis machine, and wherein the peritoneal dialysis machine is configured to use the feedback to mix the concentrate for forming peritoneal dialysis fluid. 2. The peritoneal dialysis system of claim 1 , wherein the peritoneal dialysis machine further includes a heater located downstream from an outlet of the disposable cassette, the heater configured to warm the peritoneal dialysis fluid. 3. The peritoneal dialysis system of claim 1 , wherein the peritoneal dialysis machine further includes a temperature sensor and the disposable cassette includes a temperature chamber operable with the temperature sensor to measure a temperature of the at least partially mixed peritoneal dialysis fluid. 4. The peritoneal dialysis system of claim 3 , wherein the peritoneal dialysis machine is configured to adjust the feedback from the sensor based on the temperature measured by the temperature sensor. 5. The peritoneal dialysis system of claim 1 , wherein the sensor includes at least one of an ammonia sensor, an ammonium sensor, a pH sensor, or an optical sensor. 6. The peritoneal dialysis system of claim 1 , wherein the peritoneal dialysis machine includes a controller, and wherein the feedback from the sensor is sent to the controller. 7. The peritoneal dialysis system of claim 6 , wherein the controller is configured to control operation of at least one of the fluid pumping mechanism and the concentrate pumping mechanism based on the feedback from the sensor. 8. The peritoneal dialysis system of claim 1 , which includes a sorbent container, and wherein the disposable cassette includes a sorbent outlet and a sorbent inlet in fluid communication with opposite sides of the sorbent cartridge, and wherein the sorbent outlet and the sorbent inlet are in further fluid communication with the fluid flow path. 9. The peritoneal dialysis system of claim 1 , wherein at least one of the fluid pumping mechanism or the concentrate pumping mechanism is an electromechanical pumping mechanism. 10. The peritoneal dialysis system of claim 1 , wherein the peritoneal dialysis machine includes a valve actuator and the disposable cassette includes a valve chamber operable with the valve actuator. 11. The peritoneal dialysis system of claim 10 , wherein the valve actuator and the valve chamber are operable to control fluid communication with the fluid source or a concentrate source. 12. A peritoneal dialysis system comprising: a peritoneal dialysis machine including a fluid pumping mechanism, a concentrate pumping mechanism, a valve actuator, and a sensor configured to measure a property of peritoneal dialysis fluid; and a disposable cassette operable with the peritoneal dialysis machine, the disposable cassette including a fluid source inlet for accepting fluid from a fluid source, a fluid flow path in fluid communication with the fluid source inlet, the fluid flow path including a fluid pump receptacle operable with the fluid pumping mechanism to pump fluid through the fluid flow path, a concentrate inlet for fluidly communicating concentrate to the fluid flow path, a concentrate pump chamber operable with the concentrate pumping mechanism to pump concentrate from the concentrate inlet to the fluid flow path, a valve chamber in fluid communication with the pump chamber, the valve chamber operable with the valve actuator to control a flow of at least partially mixed peritoneal dialysis fluid from the pump chamber, and a sensor chamber located along the fluid flow path and operable with the sensor, wherein the sensor is configured to provide feedback to the peritoneal dialysis machine, and wherein the peritoneal dialysis machine is configured to use the feedback to mix the concentrate for forming peritoneal dialysis fluid. 13. The peritoneal dialysis system of claim 12 , wherein the valve chamber is a first valve chamber and the valve actuator is a first valve actuator, and wherein the disposable cassette further includes a second valve chamber located between the fluid pumping receptacle and the fluid source inlet, the second valve chamber configured to operate with a second valve actuator to control a flow of fluid from the fluid source. 14. The peritoneal dialysis system of claim 13 , wherein the peritoneal dialysis machine includes a controller, and wherein the feedback from the sensor is sent to the controller. 15. The peritoneal dialysis system of claim 14 , wherein the controller is configured to control operation of at least one of the fluid pumping mechanism, the concentrate pumping mechanism, the first valve actuator, or the second valve actuator based on the feedback from the sensor. 16. The peritoneal dialysis system of claim 12 , wherein the fluid source is a peritoneal dialysis fluid source. 17. The peritoneal dialysis system of claim 12 , wherein the fluid pump receptacle is located upstream from the concentrate pump chamber. 18. A peritoneal dialysis disposable cassette operable with a peritoneal dialysis machine, the disposable cassette comprising: a fluid source inlet for accepting fluid from a fluid source; a fluid outlet for outputting at least partially mixed peritoneal dialysis fluid; a fluid flow path in fluid communication with the fluid source inlet, the fluid flow path including a fluid pump chamber operable with the fluid pumping mechanism to pump the peritoneal dialysis fluid through the fluid flow path; a concentrate inlet for fluidly communicating concentrate to the fluid flow path, a concentrate pump chamber operable with the concentrate pumping mechanism to pump concentrate from the concentrate inlet to the fluid flow path; and a sensor chamber located along the fluid flow path and operable with a sensor of the peritoneal dialysis machine, wherein fluid from the fluid source is mixed with concentrate within the fluid flow path, and wherein the sensor chamber is located downstream from the concentrate pump chamber to enable the sensor to provide feedback to the peritoneal dialysis machine regarding at least partially mixed peritoneal dialysis fluid. 19. The peritoneal dialysis disposable cassette of claim 18 , which includes a rigid portion forming at least part of at least one of the fluid source inlet, the fluid outlet, the concentrate inlet, the fluid pump chamber, the concentrate pump chamber, or the sensor chamber. 20. The peritoneal dialysis disposable cassette of claim 19 , which includes at least one flexible membrane secured to the rigid portion to collectively form at least on