Systems and methods for personalized cardiovascular analyses

1 - 20 . (canceled) 21 . A computer-implemented method for performing personalized cardiovascular analyses, the method comprising: receiving, at a modeling and simulation computing device, remote monitoring data from at least one remote monitoring data source, the remote monitoring data including at least actual hemodynamic data for a particular patient; updating, using the modeling and simulation computing device, a patient-specific model using the remote monitoring data, the patient specific model representing a circulatory system of the particular patient, wherein updating the patient-specific model comprises varying parameters of the patient-specific model until the patient-specific model replicates the actual hemodynamic data for the particular patient; performing, using the modeling and simulation computing device, at least one simulation on the updated patient-specific model to simulate operation of a ventricular assist device in the particular patient, wherein the at least one simulation includes simulating operation of the ventricular assist device in the particular patient while adjusting at least one of a pulse type, a medication, and a fluid volume; analyzing, using the modeling and simulation computing device, the updated patient-specific model to generate an adjusted operating parameters for the ventricular assist device; and controlling operation of an implanted device by transmitting a control signal including the adjusted operating parameter to the implanted device, the control signal causing the implanted device to adjust operation and begin operating at the adjusted operating parameter. 22 . The method of claim 21 , further comprising displaying a recommendation including the adjusted operating parameter. 23 . The method of claim 21 , further comprising building the patient-specific model using the modeling and simulation computing device. 24 . The method of claim 23 , wherein building the patient-specific model comprises: generating a database including a plurality of anonymized patient models; and selecting one of the plurality of anonymized patient models as the patient-specific model. 25 . The method of claim 21 , further comprising: receiving, at the modeling and simulation computing device, clinical data from at least one clinical data source; and updating the patient specific model using the clinical data. 26 . The method of claim 21 , wherein analyzing the updated patient-specific model comprises analyzing the updated patient-specific model using machine learning. 27 . A computing device for performing personalized cardiovascular analyses, the computing device comprising: a memory device; and a processor communicatively coupled to the memory device, the processor configured to: receive remote monitoring data from at least one remote monitoring data source, the remote monitoring data including at least actual hemodynamic data for a particular patient; update a patient-specific model using the remote monitoring data, the patient specific model representing a circulatory system of the particular patient, wherein to update the patient-specific model, the processor is configured to vary parameters of the patient-specific model until the patient-specific model replicates the actual hemodynamic data for the particular patient; perform at least one simulation on the updated patient-specific model to simulate operation of a ventricular assist device in the particular patient, wherein the at least one simulation includes simulating operation of the ventricular assist device in the particular patient while adjusting at least one of a pulse type, a medication, and a fluid volume; analyze the updated patient-specific model using machine learning to generate an adjusted operating parameters for the ventricular assist device; and control operation of an implanted device by transmitting a control signal including the adjusted operating parameter to the implanted device, the control signal causing the implanted device to adjust operation and begin operating at the adjusted operating parameter. 28 . The computing device of claim 27 , wherein the processor is further configured to output a recommendation including the adjusted operating parameter. 29 . The computing device of claim 27 , wherein the processor is further configured to build the patient-specific model. 30 . The computing device of claim 29 , wherein to build the patient-specific model, the processor is configured to generate a database including a plurality of anonymized patient models; and select one of the plurality of anonymized patient models as the patient-specific model. 31 . The computing device of claim 27 , wherein the processor is further configured to: receive clinical data from at least one clinical data source; and update the patient specific model using the clinical data. 32 . The computing device of claim 27 , wherein the processor is further configured to analyze the updated patient-specific model using machine learning. 33 . Non-transitory computer-readable media having computer-executable instructions thereon, wherein when executed by a processor of a computing device, cause the processor of the computing device to: receive remote monitoring data from at least one remote monitoring data source, the remote monitoring data including at least actual hemodynamic data for a particular patient; update a patient-specific model using the remote monitoring data, the patient specific model representing a circulatory system of the particular patient, wherein to update the patient-specific model, the instructions cause the process to vary parameters of the patient-specific model until the patient-specific model replicates the actual hemodynamic data for the particular patient; perform at least one simulation on the updated patient-specific model to simulate operation of a ventricular assist device in the particular patient, wherein the at least one simulation includes simulating operation of the ventricular assist device in the particular patient while adjusting at least one of a pulse type, a medication, and a fluid volume; analyze the updated patient-specific model to generate an adjusted operating parameter for the ventricular assist device; and control operation of an implanted device by transmitting a control signal including the adjusted operating parameter to the implanted device, the control signal causing the implanted device to adjust operation and begin operating at the adjusted operating parameter. 34 . The non-transitory computer-readable media of claim 33 , wherein the instructions further cause the processor to output a recommendation including the adjusted operating parameter. 35 . The non-transitory computer-readable media of claim 33 , wherein the instructions further cause the processor to build the patient-specific model. 36 . The non-transitory computer-readable media of claim 35 , wherein to build the patient-specific model the instructions further cause the processor to: generate a database including a plurality of anonymized patient models; and select one of the plurality of anonymized patient models as the patient-specific model. 37 . The non-transitory computer-readable media of claim 33 , wherein the instructions further cause the processor to: receive clinical data from at least one clinical data source; and update the patient specific model using the clinical data. 38 . The non-transitory computer-readable media of claim 33 , wherein the instructions further cause the proc