Dialysis systems and methods

What is claimed is: 1. A dialysis system, comprising: an air release device comprising a vent; a level detector configured to detect a level of fluid within the air release device; and a control unit connected to the level detector, wherein the control unit is programmed to apply a vacuum pressure to the air release device, and then determine whether the air release device is functioning properly based on the detected level of fluid within the air release device when the vacuum pressure is applied to the air release device. 2. A dialysis system, comprising: an air release device comprising a vent; a fluid line fluidly connected to the air release device; a pressure sensor configured to measure pressure of fluid within the fluid line; and a control unit connected to the pressure sensor, wherein the control unit is configured to apply a vacuum pressure to the air release device, and then determine whether the air release device is functioning properly based on the measured pressure of fluid within the fluid line when the vacuum pressure is applied to the air release device. 3. The dialysis system of claim 1 , wherein: the air release device comprises a housing defining a liquid chamber, the vent is disposed at an end of the liquid chamber, and the vacuum pressure is applied to the liquid chamber of the air release device. 4. The dialysis system of claim 3 , wherein the control unit is programmed to determine that the vent of the air release device is functioning properly based on determining that air is being drawn into the liquid chamber through the vent. 5. The dialysis system of claim 1 , wherein the level detector comprises a transmitter configured to emit ultrasonic signals and a receiver adapted to receive ultrasonic signals. 6. The dialysis system of claim 1 , further comprising: first and second fluid lines connected to the air release device, and a pump configured to circulate fluid from the first fluid line to the air release device to the second fluid line during dialysis treatment. 7. The dialysis system of claim 6 , wherein the control unit is configured to close off the second fluid line and operate the pump in a manner to circulate fluid from the second fluid line to the air release device to the first fluid line to apply the vacuum pressure to the air release device. 8. The dialysis system of claim 6 , wherein the pump is a drug pump configured to introduce fluid into the first fluid line when operated in a first direction and is configured to draw fluid out of the first fluid line when operated in a second direction. 9. The dialysis system of claim 8 , wherein the control unit is programmed to operate the pump in the second direction to apply the vacuum pressure to the air release device. 10. The dialysis system of claim 1 , further comprising: a dialyzer fluidly connected to the air release device, a first fluid line connecting a first pump to the dialyzer, and a second fluid line connecting a second pump to the dialyzer, wherein the first pump is configured to circulate a first fluid from the first fluid line through the dialyzer during dialysis treatment, and wherein the second pump is configured to circulate a second fluid from the dialyzer through the second fluid line during the dialysis treatment. 11. The dialysis system of claim 10 , wherein the control unit is programmed to stop the first pump to close off the first fluid line and operate the second pump in a manner to circulate fluid from the second fluid line to the dialyzer to apply the vacuum pressure to the air release device. 12. The dialysis system of claim 2 , wherein: the air release device comprises a housing defining a liquid chamber, and the vent is disposed at an end of the liquid chamber. 13. The dialysis system of claim 12 , wherein the control unit is programmed to determine that the vent of the air release device is functioning properly based on determining that air is being drawn into the liquid chamber through the vent. 14. The dialysis system of claim 2 , wherein the pressure sensor comprises a pressure transducer. 15. The dialysis system of claim 2 , wherein the fluid line is a first fluid line connected to the air release device, and the dialysis system further comprises: a second fluid line connected to the air release device, and a pump configured to circulate fluid from the first fluid line to the air release device to the second fluid line during dialysis treatment. 16. The dialysis system of claim 15 , wherein the control unit is programmed to close off the second fluid line and operate the pump in a manner to circulate fluid from the second fluid line to the air release device to the first fluid line to apply the vacuum pressure to the air release device. 17. The dialysis system of claim 15 , wherein the pump is a drug pump configured to introduce fluid into the first fluid line when operated in a first direction and is configured to draw fluid out of the first fluid line when operated in a second direction. 18. The dialysis system of claim 17 , wherein the control unit is programmed to operate the pump in the second direction to apply the vacuum pressure to the air release device. 19. The dialysis system of claim 2 , further comprising: a dialyzer fluidly connected to the air release device, a first fluid line connecting a first pump to the dialyzer, and a second fluid line connecting a second pump to the dialyzer, wherein the first pump is configured to circulate a first fluid from the first fluid line through the dialyzer during dialysis treatment, and wherein the second pump is configured to circulate a second fluid from the dialyzer through the second fluid line during the dialysis treatment. 20. The dialysis system of claim 19 , wherein the control unit is programmed to stop the first pump to close off the first fluid line and operate the second pump in a manner to circulate fluid from the second fluid line to the dialyzer to apply the vacuum pressure to the air release device. 21. The dialysis system of claim 1 , wherein the control unit is programmed to apply vacuum pressure to a chamber of the air release device, after applying the vacuum pressure to the air release device, detect the level of fluid within the chamber of the air release device using the level detector, and determine, based on the detected level of fluid in the chamber of the air release device, whether air is being drawn into the chamber through the vent. 22. The dialysis system of claim 2 , wherein the control unit is programmed to apply vacuum pressure to a chamber of the air release device, after applying the vacuum pressure to the air release device, measure the pressure within the fluid line using the pressure sensor, and determine, based on the measured pressure in the fluid line, whether air is being drawn into the chamber through the vent.