Minimally invasive implantable neurostimulation system

1 - 21 . (canceled) 22 : A device for delivering a neuromodulation therapy, comprising: an implantable medical device configured to be implanted on a surface of a tissue layer superficial to a nerve of a patient, the implantable medical device comprising: a housing; at least one fixation member coupled to the housing, the at least one fixation member configured to engage the tissue layer and secure the implantable medical device at an implant site; a plurality of electrodes; and a pulse generating circuit enclosed in the housing and coupled to the plurality of electrodes, the pulse generating circuit configured to generate stimulation pulses for delivery as electrical stimulation therapy via the plurality of electrodes to the nerve through the tissue layer, wherein at least one of the plurality of electrodes is located on an exterior surface of the housing configured to contact the tissue layer when the implantable medical device has been implanted at the implant site, and wherein the at least one fixation member comprises a flexible material configured to allow the at least one fixation member to assume a first position when the implantable medical device is received in an implantation tool and to extend to a second position when expelled from the implantation tool to engage the tissue layer at the implant site. 23 : The device of claim 22 , wherein the at least one fixation member includes a plurality of tines. 24 : The device of claim 23 , wherein each of the plurality of tines includes a descending portion extending away from the housing to a distal end, the distal end comprising a sharpened tip configured to penetrate the tissue layer. 25 : The device of claim 22 , wherein the at least one fixation member is formed of a material comprising nitinol. 26 : The device of claim 22 , wherein the at least one fixation member comprises a shape memory material configured to allow the at least one fixation member to bend to a flared position as the second position when advanced into the tissue layer to resist movement out of the tissue layer. 27 : The device of claim 22 , wherein the at least one fixation member comprises a feedthrough pin including a distal end comprising a feedthrough pin electrode, the feedthrough pin configured to extend through the tissue layer at the implant site to position the feedthrough pin electrode in proximity to the nerve of the patient. 28 : The device of claim 22 , wherein the at least one fixation member comprises a curved hook extending away from the housing to a distal end of the hook, the distal end of the hook comprising a sharpened tip configured to penetrate the tissue layer at the implant site to secure the implantable medical device. 29 : The device of claim 22 , wherein the at least one fixation member comprises a first fixation member that extends away from the housing in a first direction and a second fixation member that extends away for the housing in a second direction that is different from the first direction. 30 : The device of claim 22 , wherein the at least one fixation member extends through one or more lumens positioned at one or more anchoring locations along the exterior of the housing, the at least one fixation member configured to be held in the first position when received in the implantation tool and to assume the second position when advanced out of the implantation tool. 31 : A system for delivering a neuromodulation therapy, comprising: an implantable medical device configured to be implanted on a surface of a tissue layer superficial to a nerve of a patient, the implantable medical device comprising: a housing, at least one fixation member coupled to the housing, the at least one fixation member configured to engage the tissue layer and secure the implantable medical device at an implant site, a plurality of electrodes, and a pulse generating circuit enclosed in the housing and coupled to the plurality of electrodes, the pulse generating circuit configured to generate stimulation pulses for delivery as electrical stimulation therapy via the plurality of electrodes to the nerve through the tissue layer, wherein at least one of the plurality of electrodes is located on an exterior surface of the housing configured to contact the tissue layer when the implantable medical device has been implanted at the implant site; and an implantation tool configured for use in implanting the implantable medical device at the implant site, the implantation tool comprising: a body comprising an inner lumen configured to receive the implantable medical device and the at least one fixation member within an inner lumen of the body so that the fixation member is held in a first position when confined within the inner lumen, the body comprising a distal end comprising a tip configured to allow the distal end of the body to be positioned at the implant site, and a plunger configured to be received in and extend through at least a portion of the body and to engage the implantable medical device, the plunger configured to be advanced into the inner lumen to eject the at least one fixation member from the distal end of the body at the implant site so that the at least one fixation member assumes a flared position and engages the tissue layer to secure the implantable medical device at the implant site, wherein the at least one fixation member comprises a flexible material configured to allow the at least one fixation member to assume a first position when the implantable medical device is received in the implantation tool and to extend to a second position when expelled from the implantation tool to engage the tissue layer at the implant site. 32 : The system of claim 31 , wherein the at least one fixation member includes a plurality of tines. 33 : The system of claim 32 , wherein each of the plurality of tines includes a descending portion extending away from the housing to a distal free end, the distal free end comprising a sharpened tip configured to penetrate the tissue layer. 34 : The system of claim 31 , wherein the at least one fixation member is formed of a material comprising nitinol. 35 : The system of claim 31 , wherein the at least one fixation member is formed of a material having shape memory material configured to allow the at least one fixation member to bend to a flared position as the second position when advanced into the tissue layer to resist movement out of the tissue layer. 36 : The system of claim 31 , wherein the tip at the distal end of the body of the implantation tool comprises a cutting edge configured to cut through skin of the patient. 37 : The system of claim 31 , wherein at least one of the plurality of electrodes is located on the exterior surface of the housing and is configured to contact the tissue layer when the implantable medical device has been implanted at the implant site. 38 : The system of claim 31 , wherein the implantation tool is configured to perform delivery and fixation of the implantable medical device simultaneously as the implantable medical device is expelled from the implantation tool at the implant site. 39 : The system of claim 31 , wherein the implantation tool comprises nerve locating electrodes configured to be advanced toward one or more implant sites, to deliver test stimulation pulses and measure a stimulation response to the test stimulation pulses to identify a nerve location. 40 : The system of claim 31 , further comprising an external device for transmitting power from a position over