Method and apparatus for trending automated peritoneal dialysis treatments

The invention is claimed as follows: 1. A system for performing a dialysis treatment comprising: at least one dialysis fluid pump; a logic implementer operable with the at least one dialysis fluid pump to perform a dialysis treatment related to a peritoneal dialysis therapy prescription for a patient, the dialysis treatment having a plurality of peritoneal dialysis cycles, the cycles including a fill phase, a dwell phase and a drain phase, the logic implementer configured to transmit to a network an amount of dialysis fluid provided by the at least one dialysis fluid pump to a peritoneal cavity of the patient during the plurality of peritoneal dialysis cycles; a monitor communicatively coupled to the logic implementer for displaying dialysis status information; and a server communicatively coupled to the logic implementer via the network, the server storing the peritoneal dialysis therapy prescription, the peritoneal dialysis therapy prescription specifying parameters for the dialysis treatment including at least (a) a total prescribed fresh dialysis fluid fill volume to be delivered over the plurality of peritoneal dialysis cycles, (b) an expected amount of ultrafiltration (“UF”) to be removed per peritoneal dialysis cycle or per the dialysis treatment, (c) a maximum allowable peritoneal volume value, and (d) a dextrose level of the dialysis fluid, the logic implementer and server together configured and programmed to: receive the amount of dialysis fluid provided during the plurality of peritoneal dialysis cycles, determine an amount of UF removed from the patient based on the amount of dialysis fluid provided by the at least one dialysis fluid pump, determine, as an initial drain volume, how much dialysis fluid resides in the patient's peritoneal cavity at a start of a next dialysis treatment based on at least one of (a) to (d), the amount of dialysis fluid provided during the plurality of peritoneal dialysis cycles, and the amount of UF removed, update a UF trend using previous amounts of UF removed from the patient during previous dialysis treatments and the amount of UF removed from the patient during the dialysis treatment, update an initial drain volume trend using previous initial drain volumes during the previous dialysis treatments and the initial drain volume for the start of the next dialysis treatment, cause the UF trend and the initial drain volume trend to be displayed for clinician review, receive data indicative of an initial drain flow for the next dialysis treatment, generate an alert when the UF trend changes by more than a preset percentage for changing at least on of (a) to (d) the received data indicates a drain flow stoppage before reaching the initial drain volume for the start of the next dialysis treatment, and cause the alert to be displayed by the monitor as the dialysis status information. 2. The system of claim 1 , wherein the dialysis treatment is at least one of a continuous cycling peritoneal dialysis (“CCPD”) treatment or a tidal peritoneal dialysis treatment. 3. The system of claim 1 , wherein the server is configured to receive a new peritoneal dialysis therapy prescription with at least one of (a) to (d) changed and transmit a message indicative of the new peritoneal dialysis therapy prescription to the logic implementer. 4. The system of claim 1 , wherein the server is configured to determine the amount of UF removed from the patient based on the amount of dialysis fluid provided by the at least one dialysis fluid pump in addition to at least one of (c) or (d). 5. The system of claim 1 , wherein the server is configured to transmit a message to the logic implementer regarding any day exchanges that the patient made a previous day. 6. The system of claim 5 , wherein the server is configured to: receive a response from the logic implementer regarding whether the patient had at least one day exchange; and silence the alert based on the response. 7. The system of claim 1 , further comprising: at least one source of the dialysis fluid; and a fluid circuit in fluid communication with the at least one source of dialysis fluid, wherein the at least one dialysis fluid pump is operable with the fluid circuit to pump the dialysis fluid from the at least one source to the peritoneal cavity of the patient. 8. The system of claim 1 , wherein the UF trend and the initial drain volume trend include at least one of seven day rolling averages, one-month rolling averages, or multiple month rolling averages. 9. The system of claim 1 , wherein the server is configured to cause the alert to be displayed for clinician review. 10. The system of claim 1 , wherein the server is configured to cause the UF trend and the initial drain volume trend to be displayed at the monitor. 11. The system of claim 1 , wherein the at least one dialysis fluid pump, the logic implementer, and the monitor are part of a dialysis machine. 12. A system for performing a dialysis treatment comprising: at least one dialysis fluid pump; a logic implementer operable with the at least one dialysis fluid pump to perform a dialysis treatment related to a peritoneal dialysis therapy prescription for a patient, the dialysis treatment having a plurality of peritoneal dialysis cycles, the cycles including a fill phase, a dwell phase and a drain phase, the logic implementer configured to transmit to a network an amount of dialysis fluid provided by the at least one dialysis fluid pump to a peritoneal cavity of the patient during the plurality of peritoneal dialysis cycles, and an amount of used dialysis fluid pumped by the at least one dialysis fluid pump from the peritoneal cavity of the patient during the plurality of peritoneal dialysis cycles; a monitor communicatively coupled to the logic implementer for displaying dialysis status information; and a server communicatively coupled to the logic implementer via the network, the server storing the peritoneal dialysis therapy prescription, the peritoneal dialysis therapy prescription specifying parameters for the dialysis treatment including at least (a) a total prescribed fresh dialysis fluid fill volume to be delivered over the plurality of peritoneal dialysis cycles, (b) an expected amount of ultrafiltration (“UF”) to be removed per peritoneal dialysis cycle or per the dialysis treatment, (c) a maximum allowable peritoneal volume value, and (d) a dextrose level of the dialysis fluid, the logic implementer and the server together configured and programmed to: receive the amount of dialysis fluid provided during the plurality of peritoneal dialysis cycles, and the amount of the used dialysis fluid pumped during the plurality of peritoneal dialysis cycles, determine an amount of UF removed from the patient based on the amount of dialysis fluid provided by the at least one dialysis fluid pump, determine, as an initial drain volume, how much dialysis fluid resides in the patient's peritoneal cavity at a start of a next dialysis treatment based on at least one of (a) to (d), the amount of dialysis fluid provided during the plurality of peritoneal dialysis cycles, the amount of UF removed, and the amount of used dialysis fluid pumped during the plurality of peritoneal dialysis cycles, receive data indicative of an initial drain flow for the next dialysis treatment, generate an alert when the received data indicates a drain flow stoppage before reaching the initial drain volume for the start of the next dialysis treatment, and cause the alert to be displayed by the monitor as the dialysis status information. 13. The system of claim 12 , wherein the server is configured to display the alert for clinician rev