Pressure based refill status monitor for implantable pumps

1 - 11 . (canceled) 12 . An implantable infusion device comprising: a housing; a port assembly defining a port chamber, the port assembly being disposed in the housing such that the chamber is accessible by a needle inserted through the exterior of the housing; a re-fillable reservoir in communication with the port chamber; a pressure sensor in fluid communication with the port chamber and configured to sense a rate of change of pressure as fluid is added to the reservoir via the port chamber; and electronics disposed in the housing and operably coupled to the pressure sensor, the electronics configured to determine a fluid flow rate into the reservoir based on the rate of change of the pressure, determine a total volume of fluid added to the reservoir by integrating the fluid flow rate over the time when fluid is added to the reservoir, and combining the total volume of fluid added to the reservoir with a known starting volume of fluid in the reservoir to determine a volume of fluid in the reservoir during the refill procedure. 13 . The implantable infusion device of claim 12 , wherein the pressure sensor is in the reservoir. 14 . The implantable infusion device of claim 12 , wherein the pressure sensor is upstream of the reservoir. 15 . The implantable infusion device of claim 14 , wherein the electronics are configured to calculate the reservoir pressure based on a known fluidic restriction between the upstream pressure sensor and the reservoir. 16 . The implantable infusion device of claim 12 , wherein the electronics are further configured to determine the known starting volume by subtracting the fluid volume pumped from the implantable medical device since the last time point at which the reservoir was full. 17 . The implantable infusion device of claim 16 , wherein the electronics are configured to determine the volume pumped from the implantable medical device by multiplying the number of strokes of the pump by the volume of fluid pumped per stroke. 18 . The implantable infusion device of claim 12 , wherein the electronics are further configured to determine a fluid flow rate out of the reservoir based on the rate of change of the pressure when fluid is removed from the reservoir via the port chamber. 19 . The implantable infusion device of claim 18 , wherein the electronics are further configured to determine a total volume of fluid removed from the reservoir via the port chamber by integrating the fluid flow rate over the time when fluid is removed from the reservoir via the port chamber. 20 . An implantable infusion device comprising: a housing; a port assembly defining a port chamber, the port assembly being disposed in the housing such that the chamber is accessible by a needle inserted through the exterior of the housing; a re-fillable reservoir in communication with the port chamber; a pressure sensor in fluid communication with the port chamber and configured to sense a rate of change of pressure as fluid is added to the reservoir via the port chamber; and electronics disposed in the housing and operably coupled to the pressure sensor, the electronics configured to determine a fluid flow rate out of the reservoir based on the rate of change of the pressure, determine a total volume of fluid removed from the reservoir by integrating the fluid flow rate over the time when fluid is removed from the reservoir, and subtracting the total volume of fluid removed from the reservoir from a known starting volume of fluid in the reservoir to determine a volume of fluid in the reservoir. 21 . The implantable infusion device of claim 20 , wherein the electronics are further configured to determine the known starting volume by subtracting the fluid volume pumped from the implantable medical device since the last time point at which the reservoir was full. 22 . The implantable infusion device of claim 21 , wherein the electronics are configured to determine the volume pumped from the implantable medical device by multiplying the number of strokes of the pump by the volume of fluid pumped per stroke. 23 . A method for calculating a fill status of a reservoir in an implantable medical device during a procedure to refill the reservoir, the method comprising: sensing a pressure differential between the reservoir and a fill port using a pressure sensor as fluid is introduced into the reservoir via the fill port; determining a rate of change of the pressure differential as the fluid is introduced into the reservoir; determining a fluid rate at which the fluid is introduced to the reservoir based upon the rate of change of the pressure differential and a known fluidic constant for the medical device; determining a total volume of fluid added to the reservoir by integrating the fluid rate over the time in which fluid is introduced into the reservoir; and combining the total volume of fluid added to—the reservoir with a known starting volume of the reservoir to determine the fill status. 24 . The method of claim 23 further comprising: determining a rate of change of the pressure as fluid is removed from the reservoir via the fill port assembly in fluid communication with the reservoir; determining a fluid flow rate out of the reservoir based on the rate of change of the pressure; determining a total volume of fluid removed from the reservoir by integrating the fluid flow rate over the time in which the pressure is sensed using the pressure sensor; and combining the total volume of fluid removed from the reservoir with the known starting volume of fluid in the reservoir to determine the volume of fluid in the reservoir. 25 . The method of claim 23 , wherein combining the fluid volume added to the reservoir with the known starting volume of fluid in the reservoir is performed by a logic circuit.