Systems and methods for treating sexual disorders using electro-stimulation

What is claimed is: 1. An electrical stimulation system for treatment of erectile dysfunction in a patient, the system comprising: an implantable stimulation unit comprising: an array of electrodes disposed on at least one flat flexible substrate sized and shaped to abut at least a portion of a pelvic plexus of a patient adjacent a prostate or where a native prostate was located prior to prostatectomy and configured to bend to conform to an anatomical shape of the portion of the pelvic plexus; a programmable controller operatively coupled to the array of electrodes, the programmable controller including a stimulation circuit, a nonvolatile memory and a microprocessor coupled to the stimulation circuit and the nonvolatile memory, wherein the nonvolatile memory stores an identity of an empirically determined subset of the array of electrodes post implantation of the implantable stimulation unit and a stimulation routine used by the microprocessor to supply electrical stimulation via the stimulation circuit and the pelvic plexus to at least one cavernous nerve sufficient to cause an erection; and an external patient controller configured to selectably activate the implantable stimulation unit responsive to a patient input; and an external physician controller configured to selectively activate desired subsets of the array of electrodes to determine the empirically determined subset of the array of electrodes post implantation of the implantable stimulation unit and to cause the nonvolatile memory of the implantable stimulation unit to store the stimulation routine used by the microprocessor post implantation of the implantable stimulation unit. 2. The electrical stimulation system of claim 1 , wherein the implantable stimulation unit and the external patient controller communicate wirelessly. 3. The electrical stimulation system of claim 2 , wherein the implantable stimulation unit contains a first transceiver and the external patient controller contains a second transceiver. 4. The electrical stimulation system of claim 3 , wherein wireless communications between the first and second transceivers are encrypted. 5. The electrical stimulation system of claim 4 , wherein the external patient controller comprises a smartphone, laptop, tablet, or smartwatch programmed to communicate with the implantable stimulation unit. 6. The electrical stimulation system of claim 5 , wherein the first and second transceivers employ IEEE 802.11 or Bluetooth communications schemes. 7. The electrical stimulation system of claim 3 , wherein the implantable stimulation unit and the external physician controller communicate wirelessly. 8. The electrical stimulation system of claim 7 , wherein the external physician controller contains a third transceiver. 9. The electrical stimulation system of claim 8 , wherein wireless communications between the first and third transceivers are encrypted. 10. The electrical stimulation system of claim 9 , wherein the external physician controller comprises a smartphone, laptop, tablet, or desktop computer programmed to communicate with the implantable stimulation unit. 11. The electrical stimulation system of claim 10 , wherein the first and third transceivers employ IEEE 802.11 or Bluetooth communications schemes. 12. The electrical stimulation system of claim 1 , wherein the external physician controller is configured to selectively activate desired subsets of the array of electrodes to determine the empirically determined subset of the array of electrodes at the time of implantation of the implantable stimulation unit. 13. The electrical stimulation system of claim 1 , wherein the external physician controller is configured to selectively activate desired subsets of the array of electrodes to determine the empirically determined subset of the array of electrodes subsequent to implantation of the implantable stimulation unit. 14. The electrical stimulation system of claim 1 , wherein the at one least flat flexible substrate comprises a first flat flexible substrate configured to conform to a first half of the pelvic plexus and a second flat flexible substrate configured to conform to a second half of the pelvic plexus. 15. The electrical stimulation system of claim 14 , wherein a first portion of the array of electrodes is disposed on the first flat flexible substrate and a second portion of the array of electrodes is disposed on the second flat flexible substrate, wherein the stimulation circuit is configured to cause one or more electrodes of the first portion and one or more electrodes of the second portion to supply electrical stimulation at a same time in a bilateral stimulation manner. 16. The electrical stimulation system of claim 1 , further comprising an anchor configured to maintain the at least one flat flexible substrate in contact with the pelvic plexus following radical prostatectomy. 17. The electrical stimulation system of claim 16 , wherein the anchor comprises sutures or biocompatible glue. 18. The electrical stimulation system of claim 1 , wherein electrodes of the array of electrodes comprise a plurality of rows and a plurality of columns disposed on the at least one flat flexible substrate, such that each electrode is individually selectable. 19. The electrical stimulation system of claim 1 , wherein the implantable stimulation unit further comprises a power supply. 20. The electrical stimulation system of claim 19 , wherein the power supply is rechargeable. 21. The electrical stimulation system of claim 1 , wherein the stimulation routine comprises a pulse duration, frequency, voltage, and current. 22. The electrical stimulation system of claim 21 , wherein the parameters of the electrical stimulation may be adjusted post-implantation by the external physician controller. 23. The electrical stimulation system of claim 1 , wherein the subset of the array of electrodes comprises one or more electrodes within the array of electrodes. 24. The electrical stimulation system of claim 1 , wherein the external physician controller is configured to selectively activate desired subsets of the array of electrodes by causing the microprocessor to execute a scanning protocol stored in the nonvolatile memory to determine the empirically determined subset of the array of electrodes and to cause the nonvolatile memory to store the identity of the empirically determined subset of the array of electrodes. 25. The electrical stimulation system of claim 24 , wherein the scanning protocol is configured to cause the microprocessor to supply electrical stimulation via the stimulation circuit by activating varying subsets of the array of electrodes in a predetermined manner to determine the empirically determined subset of the array of electrodes and to cause the nonvolatile memory of the implantable stimulation unit to store the stimulation routine used by the microprocessor. 26. The electrical stimulation system of claim 25 , wherein activating varying subsets of the array of electrodes in a predetermined manner comprises activating a first subset of the array of electrodes at a first time and activating a second subset of the array of electrodes at a second time in an interpulse manner. 27. The electrical stimulation system of claim 1 , wherein the at least one flat flexible substrate comprises at least one cavity configured to permit connective tissue growth in the at least