Peritoneal dialysis system and method having intraperitoneal pressure sensing

The invention is claimed as follows: 1. A peritoneal dialysis (“PD”) system comprising: a housing; a dialysis fluid pump housed by the housing; a dual lumen patient line extending from the housing; a filter set including a filter membrane positioned and arranged to filter fresh PD fluid entering from a first line of the filter set, and which includes a second line in parallel with the first line, the first line in fluid communication with a first lumen of the dual lumen patient line, and the second line in fluid communication with a second lumen of the dual lumen patient line; a pressure sensor located within the housing and positioned so as to sense a static or substantially static PD fluid pressure in the second lumen while fresh PD fluid is pumped through the first lumen and the filter membrane; and a control unit configured to use the sensed static or substantially static PD fluid pressure in a pressure control routine for the dialysis fluid pump. 2. The PD system of claim 1 , wherein the filter membrane traps air from the fresh PD fluid, and wherein the filter set is vented to release trapped air to atmosphere. 3. The PD system of claim 1 , wherein the pressure sensor is a first pressure sensor, and which includes a second, safety pressure sensor positioned so as to sense the static or substantially static PD fluid pressure in the second lumen while fresh PD fluid is pumped through the first lumen and the filter membrane. 4. The PD system of claim 1 , wherein the pressure sensor is a first pressure sensor, and which includes a second pressure sensor positioned so as to sense positive PD fluid pressure of the fresh PD fluid prior to entering the first lumen of the dual lumen patient line, the control unit configured to use the sensed pressure from the second pressure sensor in the pressure control routine for the dialysis fluid pump. 5. The PD system of claim 4 , wherein the second pressure sensor is used additionally to sense static or substantially static negative PD fluid pressure in the first lumen while used PD fluid is pulled through the second lumen of the dual lumen patient line, and wherein the control unit is configured to use the sensed static or substantially static negative PD fluid pressure in the pressure control routine for the dialysis fluid pump. 6. The PD system of claim 1 , which includes a source of flush flow fluid and at least one flush flow line for communicating the flush flow fluid from the source to the dialysis fluid pump, wherein the source of flush flow fluid includes a mechanism to heat PD fluid to form steam or water vapor, and a condenser for condensing the steam or water vapor into the flush flow fluid. 7. The PD system of claim 5 , wherein the first pressure sensor is used additionally to detect a negative pressure of used PD fluid entering the housing from the second lumen of the dual lumen patient line. 8. The PD system of claim 1 , wherein the first and second lines of the filter set converge at a location for fluid communication with a patient catheter, the static or substantially static PD fluid pressure extending from the location, through the second line of the filter set and the second lumen of the dual lumen patient line, to at least one closed valve within the housing. 9. The PD system of claim 8 , wherein the pressure sensor is located between the at least one closed valve and the second lumen of the dual lumen patient line. 10. The PD system of claim 1 , wherein the first and second lines of the filter set converge at a location for fluid communication with a patient catheter, the static or substantially static PD fluid pressure extending from the location, through the first line of the filter set and the first lumen of the dual lumen patient line, to at least one closed valve within the housing. 11. A peritoneal dialysis (“PD”) system comprising: a housing; a dialysis fluid pump housed by the housing; a dual lumen patient line extending from the housing; a filter set including a filter membrane positioned and arranged to filter fresh PD fluid entering from a first line of the filter set, and which includes a second line in parallel with the first line, the first line in fluid communication with a first lumen of the dual lumen patient line, and the second line in fluid communication with a second lumen of the dual lumen patient line; a pressure sensor located within the housing and positioned so as to sense a static or substantially static positive PD fluid pressure in the second lumen while fresh PD fluid is pumped through the first lumen and the filter membrane; and at least one closed valve located within the housing, the static or substantially static positive PD fluid pressure extending to the at least one closed valve, and wherein the pressure sensor is located between the at least one closed valve and the second lumen of the dual lumen patient line. 12. The PD system of claim 11 , wherein the first and second lines of the filter set converge at a location for fluid communication with a patient catheter, the static or substantially static positive PD fluid pressure extending from the location, through the second line of the filter set and the second lumen of the dual lumen patient line, to the at least one closed valve. 13. The PD system of claim 11 , wherein the pressure sensor is a first pressure sensor, and the at least one closed valve is a first at least one valve closed while fresh PD fluid is pumped by the dialysis fluid pump, and which includes a second pressure sensor positioned within the housing so as to sense a static or substantially static negative PD fluid pressure in the first lumen while used PD fluid is pumped through the second lumen. 14. The PD system of claim 13 , which includes a second at least one valve closed while used PD fluid is pumped, and wherein the second pressure sensor is located between the second at least one closed valve and the first lumen of the dual lumen patient line. 15. The PD system of claim 14 , which includes a control unit, and wherein at least one of the sensed static or substantially static positive PD fluid pressure or the sensed static or substantially static negative PD fluid pressure is used as feedback in a pressure control routine performed by the control unit for the dialysis fluid pump. 16. The PD system of claim 14 , wherein the first and second lines of the filter set converge at a location for fluid communication with a patient catheter, the static or substantially static negative pressure extending from the location, through the first line of the filter set and the first lumen of the dual lumen patient line, to the second at least one closed valve. 17. A peritoneal dialysis (“PD”) method comprising: providing a dual lumen patient line including a first lumen and a second lumen; providing a filter set including a filter membrane positioned and arranged to filter fresh PD fluid entering from a first line of the filter set, the filter set including a second line in parallel with the first line, the first line in fluid communication with the first lumen of the dual lumen patient line, and the second line in fluid communication with the second lumen of the dual lumen patient line; positioning a pressure sensor so as to sense a static or substantially static positive PD fluid pressure in the second lumen while fresh PD fluid is pumped through the first lumen and the filter membrane; and configuring a control unit to use the sensed static or substantially static positive PD fluid pressure in a pressure control routine for regulating fresh dialysis fluid pressure.