Patient user interface for a stimulation/block therapy for treatment of type 2 diabetes

What is claimed is: 1 . A system for stimulating an anatomical element of a patient, comprising: an implantable pulse generator configured to generate a current; an electrode device electrically coupled to the implantable pulse generator, the electrode device comprising a plurality of electrodes configured for placement on or around an anterior sub diaphragmatic hepatic vagal trunk of a patient to enable the current to be applied thereto; a user interface in communication with the implantable pulse generator, the electrode device, or both, wherein the user interface comprises a first element configured to display information associated with the patient, a second element configured to receive one or more inputs for programming parameters of the current, and a third element configured to display diagnostic information associated with applying the current to the anterior sub diaphragmatic hepatic vagal trunk to upregulate neural activity thereof; a processor; and a memory storing data for processing by the processor, wherein the data, when processed, causes the processor to: transmit instructions to the implantable pulse generator to adjust glucose levels in the patient by applying the current to the anterior sub diaphragmatic hepatic vagal trunk of the patient via the plurality of electrodes of the electrode device based at least in part on the one or more inputs entered via the user interface to upregulate neural activity of the anterior sub diaphragmatic hepatic vagal trunk of the patient. 2 . The system of claim 1 , wherein the memory stores further data for processing by the processor that, when processed, causes the processor to: transmit the instructions to the implantable pulse generator to apply the current to the anterior sub diaphragmatic hepatic vagal trunk of the patient to achieve a desired glycemic response in the patient. 3 . The system of claim 1 , wherein the first element of the user interface comprises: a plurality of editable fields configured for entering a name of the patient, a gender of the patient, a medical record number associated with the patient, a birthdate of the patient, a date that the implantable pulse generator is implanted in the patient, a clinic name associated with the patient, a name of a physician associated with the patient, notes from a clinician, or a combination thereof; and a selectable window comprising a plurality of laboratory test options associated with the patient. 4 . The system of claim 3 , wherein the memory stores further data for processing by the processor that, when processed, causes the processor to: receive a selection of a first laboratory test from the plurality of laboratory test options in the selectable window; retrieve, via a database storing results associated with each of the plurality of laboratory test options for the patient, results of the first laboratory test for the patient based at least in part on the received selection; and display the retrieved results of the first laboratory test within the first element of the user interface. 5 . The system of claim 1 , wherein the second element of the user interface comprises: a plurality of selectable parameters for configuring how the current is to be applied to the anterior sub diaphragmatic hepatic vagal trunk, wherein the plurality of selectable parameters comprises a stimulation pattern, a waveform of the current, a frequency of the current, or a combination thereof; a plurality of buttons associated with determining optimizations for applying the current to the anterior sub diaphragmatic hepatic vagal trunk to achieve a desired glycemic response in the patient, wherein the plurality of buttons comprises a first button for downloading data from the implantable pulse generator, a second button for running a machine learning algorithm configured to determine optimal parameters for applying the current, a third button for running a diagnostic test of the implantable pulse generator, and a fourth button for generating a set of growth curves associated with applying the current to the anterior sub diaphragmatic hepatic vagal trunk; a feedback window configured to display recommended parameters for applying the current to the anterior sub diaphragmatic hepatic vagal trunk, wherein the recommended parameters are displayed based at least in part on a user interacting with the second button for running the machine learning algorithm configured to determine the optimal parameters; and an emergency pause button that, when selected by a user, is configured to initiate a stopping procedure, wherein the stopping procedure comprises stopping a neuromodulation therapy that includes applying the current to the anterior sub diaphragmatic hepatic vagal trunk. 6 . The system of claim 5 , wherein the memory stores further data for processing by the processor that, when processed, causes the processor to: receive a plurality of parameters for applying the current to the anatomical element based at least in part on the plurality of selectable parameters; and transmit the received plurality of parameters to the implantable pulse generator, wherein the current is applied to the anatomical element according to the plurality of parameters. 7 . The system of claim 6 , wherein the plurality of parameters corresponds to the recommended parameters displayed in the feedback window. 8 . The system of claim 1 , wherein the plurality of electrodes comprises: a first set of electrodes for applying the current to the anterior sub diaphragmatic hepatic vagal trunk of the patient as a first current; and a second set of electrodes configured for placement on or around a posterior sub diaphragmatic celiac vagal trunk of the patient, and wherein the memory stores further data for processing by the processor that, when processed, causes the processor to transmit the instructions to the implantable pulse generator to adjust glucose levels in the patient by: applying a second current via the second set of electrodes to the posterior sub diaphragmatic celiac vagal trunk of the patient to downregulate neural activity thereof. 9 . The system of claim 1 , wherein the third element of the user interface comprises: a window comprising a plurality of selectable time windows; a plurality of fields displaying the diagnostic information associated with applying the current to the anterior sub diaphragmatic hepatic vagal trunk, wherein the diagnostic information comprises information associated with a duty cycle of applying the current to the anterior sub diaphragmatic hepatic vagal trunk, efficacy measures of how applying the current to the anterior sub diaphragmatic hepatic vagal trunk achieves a desired glycemic response in the patient, and other measures related to glycemic control; and a graphical display configured to display data associated with glucose measurements received from the patient. 10 . The system of claim 9 , wherein the memory stores further data for processing by the processor that, when processed, causes the processor to: receive a time window selection from the plurality of selectable time windows; generate the diagnostic information to display in the plurality of fields based at least in part on the time window selection; and display the generated diagnostic information in the plurality of fields. 11 . The system of claim 9 , further comprising: a monitoring device configured to continuously monitor glucose levels in the patient, wherein the data associated with glucose measurements displayed in the graphical display are generated based at least in part on measurements captured by the monitoring device. 12 . The system of claim