Implanted Connector Booster Sealing for Implantable Medical Devices

1 . An implantable medical device comprising: a housing; a header coupled to the housing; and at least one receptacle connector stack disposed in the header, the at least one receptacle connector stack comprising a plurality of electrical contacts and a plurality of wiper seals; wherein each electrical contact of the plurality of electrical contacts is separated by a corresponding wiper seal, and wherein a first sealing element is disposed at a proximal end of the at least one receptacle connector stack and a second sealing element is disposed at a distal end of the at least one receptacle connector stack. 2 . The implantable medical device of claim 1 , wherein the first sealing element and the second sealing element comprise O-rings. 3 . The implantable medical device of claim 2 , wherein a diameter of each O-rings is within a range of 0.115 to 0.375 inches for the inner diameters and 0.145 to 0.515 inches for the outside diameters. 4 . The implantable medical device of claim 1 , wherein: the first sealing element is configured to inhibit fluid ingress and stray electrical currents at the proximal end of the at least one receptacle connector stack from an outside environment, and the second sealing element is configured to inhibit fluid ingress and stray electrical currents at the distal end of the at least one receptacle connector stack from the outside environment. 5 . The implantable medical device of claim 1 , further comprising: a proximal seal housing configured to receive the first sealing element; and a distal seal housing configured to receive the second sealing element. 6 . The implantable medical device of claim 5 , wherein the proximal seal housing and the distal seal housing are integrally formed within the at least one receptacle connector stack. 7 . The implantable medical device of claim 5 , wherein the proximal seal housing comprises a retention mechanism configured to engage with the at least one receptacle connector stack and the header, wherein the retention mechanism comprises at least one of: a press fit, wherein an outer periphery of the proximal seal housing is sized to tightly fit with an inner periphery of the header at a proximal end; a crush rib fit, wherein the outer periphery of the proximal seal housing includes one or more ribs configured to dig into the inner periphery of the header at the proximal end; a snap fit, wherein the outer periphery of the proximal seal housing includes one or more snapping elements configured to engage with the inner periphery of the header at the proximal end; a retaining ring attached on the outer periphery of the proximal seal housing to hold the proximal housing in place against the housing and restrict axial movement at the proximal end; or a threaded fit, wherein the outer periphery of the proximal seal housing includes threads configured to engage with threads on the inner periphery of the housing at the proximal end. 8 . (canceled) 9 . The implantable medical device of claim 1 , further comprising: a third sealing element disposed adjacent to the first sealing element and further proximal of the at least one receptacle connector stack to restrict a bounce back effect caused by one or more of the plurality of wiper seals. 10 . The implantable medical device of claim 1 , wherein the implantable medical device is a ventricular assist device (VAD) implantable controller configured to generate control signals to control a blood flow and provide power to the VAD. 11 . The implantable medical device of claim 10 , wherein the header comprises two receptacle connectors stacks spaced apart from each other, each connector stack including six contacts for power and communication with the VAD and an implantable transcutaneous energy transmission system (TETS) receiver. 12 . The implantable medical device claim 1 , wherein the at least one receptacle connector stack comprises a first receptacle connector stack spaced from and electrically isolated from a second receptacle connector stack. 13 . A fully implantable left ventricle assist system comprising: a heart pump configured for pumping blood from a ventricle of a heart of a patient to an artery to supplement or replace pumping of blood by the ventricle to the artery; an implantable transcutaneous energy transmission system (TETS) receiver configured for receiving and transmitting power to continuously operate the heart pump; a first implantable lead; a second implantable lead; and an implantable controller communicably coupled to the heart pump via the first implantable lead and to the TETS receiver via the second implantable lead, wherein the implantable controller comprises: a housing; a header coupled to the housing; a first receptacle connector stack disposed in the header and configured to receive the first implantable lead and establish an electrical coupling between the implantable controller and the heart pump; and a second receptacle connector stack disposed in the header and configured to receive the second implantable lead and establish an electrical coupling between the implantable controller and the TETS receiver, and wherein each of the first receptacle connector stack and the second receptacle connector stack comprise: a plurality of electrical contacts configured to couple with the respective implantable lead; a plurality of wiper seals, each electrical contact being isolated by a corresponding wiper seal; a proximal sealing element disposed at a proximal end of the respective receptacle connector stack; and a distal sealing element disposed at a distal end of the respective receptacle connector stack. 14 . The fully implantable left ventricle assist system of claim 13 , wherein the proximal sealing elements and the distal sealing elements are O-rings. 15 . The fully implantable left ventricle assist system of claim 13 , further comprising for each of the first receptacle connector stack and the second receptacle connector stack: a proximal seal housing configured to receive the proximal sealing element and coupleable to the proximal end of the respective receptacle connector stack, wherein each proximal seal housing comprises a retention mechanism configured to engage with the respective receptacle connector stack and the header; and a distal seal housing configured to receive the distal sealing element and coupleable to the distal end of the respective receptacle connector stack. 16 . (canceled) 17 . The fully implantable left ventricle assist system of claim 13 , wherein the header further comprises: a bounce back reducer disposed within the header and located proximal of the respective proximal sealing element, wherein the bounce back reducer is configured to engage the respective implantable lead and restrict a bounce back effect experienced by the respective implantable lead that are caused by forces exerted by one or more of the plurality of wiper seals upon insertion of the respective implantable lead into the respective receptacle connector stack. 18 . The fully implantable left ventricle assist system of claim 17 , wherein the bounce back reducer is a canted spring, an O-ring, or a complaint member. 19 . The fully implantable left ventricle assist system of claim 17 , wherein the header further comprises a cassette with a groove to receive the bounce back reducer. 20 . The fully implantable left ventricle assist system claim 13 , wherein the header further comprises: a vent located distal to the distal sealing element of