Limiting pressure in an implanted catheter

What is claimed is: 1. A method carried out by an implantable infusion device, comprising: receiving data regarding a catheter being used with the infusion device, wherein the data comprises information indicative of a burst pressure or a cutoff pressure of the catheter, the catheter having a lumen operably coupled to a reservoir of the infusion device and configured to deliver fluid from the infusion device to a target location of a patient; infusing fluid from the reservoir into the lumen of the catheter at a first rate; monitoring pressure via a pressure sensor in communication with the lumen of the catheter, wherein monitoring the pressure comprises acquiring pressure data from the pressure sensor at a first frequency; determining whether the monitored pressure exceeds a first threshold, wherein the first threshold is based on the data regarding the catheter; and decreasing the rate at which the fluid is delivered from the reservoir into the catheter if the monitored pressure is determined to exceed the threshold. 2. The method of claim 1 , further comprising determining whether the monitored pressure exceeds a second threshold, wherein the second threshold is indicative of a lower pressure than the first threshold; and increasing the frequency of acquisition of pressure data from the pressure sensor if the monitored pressure is determined to exceed the second threshold. 3. The method of claim 1 , further comprising determining whether the monitored pressure exceeds a third threshold, wherein the third threshold is indicative of a higher pressure than the first threshold; and stopping the infusion from the reservoir into the lumen of the catheter if the pressure is determined to exceed the third threshold. 4. The method of claim 1 , wherein infusing fluid from the reservoir into the lumen of the catheter comprises delivering a pulse of fluid, and wherein monitoring pressure comprises acquiring pressure data from the pressure sensor at a predetermined amount of time following delivery of the pulse of fluid. 5. The method of claim 1 , further comprising monitoring a rate of infusion of fluid from the reservoir into the lumen of the catheter; determining whether the rate of infusion exceeds a threshold; and increasing the frequency of the monitoring of pressure if the rate of infusion is determined to exceed the threshold. 6. The method of claim 1 , further comprising monitoring a rate of infusion of fluid from the reservoir into the lumen of the catheter, wherein the first pressure threshold is further based on the monitored rate of infusion. 7. An implantable infusion device comprising: a reservoir for containing a fluid; a pumping mechanism operably coupled to the reservoir and configured to drive fluid from the reservoir into a lumen of a catheter when the catheter is operably coupled to the infusion device; a pressure sensor configured to be in communication with the lumen of the catheter when the catheter is operably coupled to the infusion device; and control electronics operably coupled to the pumping mechanism and the pressure sensor and configured to control the pumping mechanism based on the sensed pressure, wherein the control electronics are further configured to carry out the method of claim 1 . 8. A non-transitory computer readable medium containing instructions that, when implemented by an implantable infusion device, cause the infusion device to carry out the method according to claim 1 . 9. An implantable infusion device comprising the non-transitory computer readable medium of claim 8 . 10. A method carried out by an implantable infusion device comprising: receiving data regarding a catheter being used with the infusion device, wherein the data comprises information indicative of a burst pressure or a cutoff pressure of the catheter, the catheter having a lumen operably coupled to a reservoir of the infusion device and configured to deliver fluid from the infusion device to a target location of a patient; infusing fluid from the reservoir into the lumen of the catheter at a first rate; monitoring pressure via a pressure sensor in communication with the lumen of the catheter, wherein monitoring the pressure comprises acquiring pressure data from the pressure sensor at a first frequency; determining whether the monitored pressure exceeds a first threshold, wherein the first threshold is based on the data regarding the catheter; monitoring a rate of infusion of fluid from the reservoir into the lumen of the catheter; determining whether the rate of infusion exceeds a threshold rate of infusion; and increasing the frequency of acquisition of pressure data from the pressure sensor if the monitored pressure is determined to exceed the first threshold or if the monitored rate of infusion is determined to exceed the threshold rate of infusion. 11. The method of claim 10 , further comprising determining whether the monitored pressure exceeds a second threshold, wherein the second threshold is indicative of a higher pressure than the first threshold; and decreasing the rate at which the fluid is delivered from the reservoir into the catheter if the monitored pressure is determined to exceed the second threshold. 12. The method of claim 10 , wherein infusing fluid from the reservoir into the lumen of the catheter comprises delivering a pulse of fluid, and wherein monitoring pressure comprises acquiring pressure data from the pressure sensor at a predetermined amount of time following delivery of the pulse of fluid. 13. An implantable infusion device comprising: a reservoir for containing a fluid; a pumping mechanism operably coupled to the reservoir and configured to drive fluid from the reservoir into a lumen of a catheter when the catheter is operably coupled to the infusion device; a pressure sensor configured to be in communication with the lumen of the catheter when the catheter is operably coupled to the infusion device; and control electronics operably coupled to the pumping mechanism and the pressure sensor and configured to control the pumping mechanism based on the sensed pressure, wherein the control electronics are further configured to carry out the method of claim 10 . 14. A non-transitory computer readable medium containing instructions that, when implemented by an implantable infusion device, cause the infusion device to carry out the method according to claim 10 . 15. An implantable infusion device comprising the non-transitory computer readable medium of claim 14 . 16. A method carried out by an implantable infusion device comprising: receiving data regarding a catheter being used with the infusion device, wherein the data comprises information regarding a burst pressure or a cutoff pressure of the catheter, the catheter having a lumen operably coupled to a reservoir of the infusion device and configured to deliver fluid from the infusion device to a target location of a patient; infusing fluid from the reservoir into the lumen of the catheter at a first rate; monitoring pressure via a pressure sensor in communication with the lumen of the catheter, wherein monitoring the pressure comprises acquiring pressure data from the pressure sensor at a first frequency; monitoring a rate of infusion of fluid from the reservoir into the lumen of the catheter; deriving a threshold pressure based on the data regarding the catheter and the monitored rate of infusion; determining whether the pressure exceeds the threshold; and increasing the frequency of acquisition of pressure data from the pressure sensor if the monitored pressure is determi