Apparatus for trending automated peritoneal dialysis treatments

The invention is claimed as follows: 1 . A renal failure therapy system comprising: at least one dialysis fluid pump; and a logic implementer operable with the at least one dialysis fluid pump, the logic implementer configured to: cause the renal failure therapy system to perform a present dialysis treatment related to a peritoneal dialysis therapy prescription for a patient by controlling the at least one dialysis fluid pump, the present dialysis treatment having a plurality of peritoneal dialysis cycles, each of the peritoneal dialysis cycles including a fill phase, a dwell phase, and a drain phase, wherein the peritoneal dialysis therapy prescription specifies parameters for the present 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 ultrafiltrate (“UF”) to be removed per peritoneal dialysis cycle or per the present dialysis treatment, (c) a maximum allowable peritoneal volume value, and (d) a dextrose level of a dialysis fluid, determine an amount of dialysis fluid provided by the at least one dialysis fluid pump to a peritoneal cavity of the patient during the present dialysis treatment, determine an amount of UF removed from the patient based at least 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, determine an initial drain flow for the next dialysis treatment, generate an alert and transmit information indicative of the alert to a server when it is determined from the initial drain flow that a low drain flow or a drain flow stoppage could occur before the initial drain volume is recovered for the start of the next dialysis treatment, and receive a new peritoneal dialysis therapy prescription with at least one of (a) to (d) changed responsive to transmitting the alert to the server. 2 . The renal failure therapy system of claim 1 , wherein the logic implementer is further configured to update an initial drain volume trend using previous initial drain volumes during previous dialysis treatments and the initial drain volume for the start of the next dialysis treatment, wherein the initial drain flow is determined from the initial drain volume trend. 3 . The renal failure therapy system of claim 2 , wherein the initial drain volume trend includes at least one of a trended seven day rolling average, a trended one-month rolling average, or a trended multiple month rolling average. 4 . The renal failure therapy system of claim 1 , further comprising a monitor to display the alert. 5 . The renal failure therapy system of claim 4 , wherein the alert includes a query regarding whether the patient had a day exchange as a possible explanation for the alert. 6 . The renal failure therapy system of claim 5 , wherein the logic implementer is further configured to: receive a response regarding whether the patient had at least one day exchange; and silence the alert based on the response. 7 . The renal failure therapy system of claim 4 , wherein the alert includes a prompt to select a new peritoneal dialysis therapy prescription with at least one of (a) to (d) changed. 8 . The renal failure therapy system of claim 7 , wherein the logic implementer is further configured to cause the at least one dialysis fluid pump to perform the next dialysis treatment according to the new peritoneal dialysis therapy prescription by controlling at least a plurality of peritoneal dialysis cycles specified by the new peritoneal dialysis therapy prescription, a total treatment duration specified by the new peritoneal dialysis therapy prescription, and a total prescribed fresh dialysis fluid fill volume specified by the new peritoneal dialysis therapy prescription. 9 . The renal failure therapy system of claim 1 , wherein the logic implementer is further configured to transmit the alert to the server via a network. 10 . The renal failure therapy system of claim 1 , wherein the logic implementer is further configured to cause the at least one dialysis fluid pump to perform the next dialysis treatment according to the new peritoneal dialysis therapy prescription by controlling at least a plurality of peritoneal dialysis cycles specified by the new peritoneal dialysis therapy prescription, a total treatment duration specified by the new peritoneal dialysis therapy prescription, and a total prescribed fresh dialysis fluid fill volume specified by the new peritoneal dialysis therapy prescription. 11 . The renal failure therapy system of claim 1 , wherein the present dialysis treatment is a continuous cycling peritoneal dialysis (“CCPD”) treatment or a tidal peritoneal dialysis treatment. 12 . The renal failure therapy system of claim 1 , wherein the logic implementer 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). 13 . The renal failure therapy system of claim 1 , wherein the present dialysis treatment is performed using at least one source of the dialysis fluid and a fluid circuit in fluid communication with the at least one source of the dialysis fluid, and 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. 14 . The renal failure therapy system of claim 1 , wherein the logic implementer is further configured to: 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 present dialysis treatment; and cause the UF trend to be displayed via a monitor. 15 . The renal failure therapy system of claim 1 , wherein the at least one dialysis fluid pump and the logic implementer are part of a dialysis machine. 16 . A renal failure therapy system comprising: at least one dialysis fluid pump; and a logic implementer operable with the at least one dialysis fluid pump, the logic implementer configured to: cause the renal failure therapy system to perform a present dialysis treatment related to a peritoneal dialysis therapy prescription for a patient by controlling the at least one dialysis fluid pump, the present dialysis treatment having a plurality of peritoneal dialysis cycles, each of the peritoneal dialysis cycles including a fill phase, a dwell phase, and a drain phase, determine an amount of dialysis fluid provided by the at least one dialysis fluid pump to a peritoneal cavity of the patient during the present dialysis treatment, determine an amount of UF removed from the patient based at least 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 the amount of dialysis fluid provided during the plurality of peritoneal dialysis cycles and the amount of UF removed, update an initial drain volume trend using previous initial drain volumes during previous dialysis treatments and the initial drain volume for the start of the next dialysis treatment, det