Systems and methods for peripheral nervous stimulation for metabolic and endocrine function

The invention claimed is: 1. A method of stimulating an endocrine function of an organ of a patient by neuro stimulation, the method comprising: identifying a plurality of innervated nerves on the organ of the patient; defining a plurality of target locations at the plurality of innervated nerves on the organ of the patient, each target location to receive placement of at least one micro particle of a plurality of micro particles, each micro particle comprising: a power system that receives a wireless energy transmission; and an electrode system comprising a plurality of electrodes, at least one electrode to transmit an electrical pulse to the target location; placing each micro particle of the plurality of micro particles at a target location of the plurality of target locations; configuring a central controller to selectively deliver power and signals wirelessly to the plurality of micro particles, the central controller comprising: a power system to wirelessly deliver power to the plurality of micro particles; a communication system to wirelessly communicate with the plurality of micro particles; and a processing system to control the power system and the communication system; and configuring at least one of the central controller or the plurality of micro particles to selectively stimulate the endocrine function of the organ by transmitting electrical pulses to the plurality of target locations using the respective electrode of each micro particle. 2. The method of claim 1 , further comprising configuring at least one of the central controller or the plurality of micro particles to selectively sense electrical pulses at the plurality of innervated nerve locations using the plurality of micro particles. 3. The method of claim 1 , further comprising configuring at least one of the central controller or the plurality of micro particles to execute a stimulation protocol that stimulates the plurality of innervated nerves and senses electrical pulses at the plurality of innervated nerves. 4. The method of claim 1 , wherein the organ is at least one of the pancreas, the liver, or the small intestine. 5. The method of claim 1 , wherein: the endocrine function is a glucose level of the patient; and the method further comprises configuring at least one of the central controller or the plurality of micro particles to monitor the glucose level of the patient as a feedback datum. 6. The method of claim 5 , wherein monitoring the glucose level comprises continuously monitoring the glucose level of the patient. 7. The method of claim 1 , wherein the organ is a pancreas, and the plurality of innervated nerve locations is a plurality of islets on the pancreas. 8. A method of stimulating an endocrine function of a mammal by neuro stimulation, the method comprising: identifying a plurality of innervated nerves on an organ of the mammal associated with the control of the endocrine function to be stimulated by a plurality of stimulators, each stimulator comprising: a power system to receive a wireless energy transmission; and a plurality of microelectrodes; defining a plurality of target locations at the plurality of innervated nerves on the organ of the mammal, each target location to receive placement of a stimulator of the plurality of stimulators; placing each stimulator of the plurality of stimulators at a target location of the plurality of target locations on the organ of the mammal; and configuring a central controller to selectively deliver power and signals wirelessly to each stimulator of the plurality of stimulators to selectively stimulate the plurality of innervated nerves, the central controller comprising: a power system to wirelessly deliver power to the plurality of microelectrodes; a communication system to wirelessly communicate with the stimulator; and a processing system to control the power system and the communication system. 9. The method of claim 8 , further comprising configuring at least one of the central controller or the plurality of stimulators to selectively sense electrical pulses at the plurality of innervated nerves using stimulator. 10. The method of claim 8 , further comprising configuring at least one of the central controller or the plurality of stimulators to execute a stimulation protocol that stimulates the plurality of innervated nerves and senses electrical pulses at the plurality of innervated nerves. 11. The method of claim 8 , wherein the organ is at least one of the pancreas, the liver, or the small intestine. 12. The method of claim 8 , wherein the endocrine function is a glucose level of the mammal. 13. The method of claim 8 , wherein selectively stimulating the plurality of innervated nerves stimulates beta cells of the organ. 14. The method of claim 8 , wherein the organ is a pancreas, and the plurality of innervated nerves is a plurality of islets on the pancreas. 15. A method for neuro stimulation, comprising: identifying a plurality of islets on a pancreas of a human subject; defining a plurality of target locations at the plurality of islets, each target location to receive placement of at least one micro particle of a plurality of micro particles, each micro particle of the plurality of micro particles comprising: a power system to receive wireless energy transmissions; and an electrode system comprising a plurality of electrodes, at least one electrode to transmit an electrical pulse for stimulating a corresponding islet of the plurality of islets on the pancreas of the human subject; and initiating a startup of each micro particle and a central controller, the central controller to control the plurality of micro particles, and comprising: a power system to wirelessly deliver power to the plurality of micro particles; a communication system to wirelessly communicate with the plurality of micro particles; and a processing system to control the power system and the communication system; and placing each micro particle of the plurality of micro particles at a target location of the plurality of target locations. 16. The method of claim 15 , wherein each islet of the plurality of islets is disposed on a different side of the pancreas. 17. The method of claim 15 , wherein initiating the startup of each micro particle and the central controller comprises: powering up each micro particle of the plurality of micro particles; and testing wireless communications between each of the plurality of micro particles and the central controller. 18. The method of claim 15 , wherein initiating the startup of each micro particle and the central controller is performed prior to placing each micro particle of the plurality of micro particles at the target location of the plurality of target locations. 19. The method of claim 15 , wherein initiating the startup of each micro particle and the central controller is performed after placing each micro particle of the plurality of micro particles at the target location of the plurality of target locations. 20. The method of claim 15 , wherein the central controller is configured to execute a stimulation protocol comprising a coordinated stimulation by each micro particle of the plurality of micro particles at the plurality of target locations. 21. The method of claim 15 , wherein placing each micro particle of the plurality of micro particles comprises using a magnetic resonance (MR) imaging system to provide real-time feedback. 22. The method of claim 15 , wherei