Downhole pressure maintenance system using reference pressure

What is claimed is: 1 . A completion assembly comprising: an elongated base pipe having an external surface at least partially defining an external region and an internal surface at least partially defining an internal region; and a pressure maintenance device disposed in the base pipe and comprising: a first flow path that extends between an opening in the external surface and an opening in the internal surface; a first valve that controls the flow of a first fluid from the internal region to the external region through the first flow path; a first pressure differential sensor that controls the actuation of the first valve and is in fluid communication with the external region; and a pressurized fluid source in fluid communication with the first pressure differential sensor; wherein a first pressure differential threshold associated with the first pressure differential sensor is the difference between a pressure within the external region and the pressurized fluid source. 2 . The completion assembly of claim 1 , wherein the pressure maintenance device further comprises: a second valve that controls the flow of the first fluid from the internal region to the external region through the first flow path; a second pressure differential sensor that controls the actuation of the second valve; wherein the second pressure differential sensor is in fluid communication with the external region and the internal region; and wherein a second pressure differential threshold associated with the second pressure differential sensor is the difference between a pressure within the internal region and the pressure within the external region. 3 . The completion assembly of claim 2 , wherein the pressure maintenance device further comprises: a second flow path that extends between the pressurized fluid source and the external region; a third valve that controls the flow of a second fluid through the second flow path and towards the pressurized fluid source; a third pressure differential sensor that controls the actuation of the third valve; wherein the third pressure differential sensor is in fluid communication with the external region and the first flow path; and wherein a third pressure differential threshold associated with the third pressure differential sensor is the difference between a pressure within the first flow path and the pressure within the external region. 4 . The completion assembly of claim 3 , wherein the pressurized fluid source is an accumulator. 5 . The completion assembly of claim 4 , wherein the pressure maintenance device further comprises at least one of: a pressure relief valve that is in fluid communication with the pressurized fluid source and with the external region; and a rupture disk that is in fluid communication with the pressurized fluid source and with the external region. 6 . The completion assembly of claim 3 , wherein the pressure maintenance device further comprises: a fourth valve that controls the flow of the fluid through the first flow path, the fourth valve being a flow control valve; and a fourth pressure differential sensor that controls the actuation of the fourth valve. 7 . The completion assembly of claim 6 , wherein the fourth valve is located along the first flow path between the opening in the external surface and the first valve; wherein the first valve is located along the first flow path between the fourth valve and the second valve; and wherein the second valve is located along the first flow path between the first valve and the opening in the internal surface. 8 . A method of maintaining an isolated portion of an external region of a completion string within a predetermined pressure range, the method comprising: positioning a completion string that has an internal surface that at least partially defines an internal region and an external surface that at least partially defines an external region within a wellbore; pressurizing a pressurized fluid source located within a pressure maintenance device that is located within a wall of the completion string to a reference pressure that is associated with a wellbore hydrostatic pressure within the external region; isolating a portion of the external region from the wellbore hydrostatic pressure to form the isolated portion of the external region; and allowing a first fluid within the internal region to flow through a first flow path within the pressure maintenance device to the isolated portion of the external region when a pressure differential between the external region and the reference pressure is less than a first pressure differential threshold that is associated with the predetermined pressure range. 9 . The method of claim 8 , further comprising preventing the first fluid within the internal region from flowing through the first flow path when a pressure differential between the internal region and the external region exceeds a second pressure differential threshold. 10 . The method of claim 8 , wherein the pressurized fluid source comprises an accumulator in fluid communication with the external region; and wherein pressurizing the pressurized fluid source to the reference pressure that is associated with the wellbore hydrostatic pressure within the external region comprises: allowing a second fluid to pressurize the accumulator to the reference pressure when the pressure differential between a pressure within the first flow path and the external region is less than a fourth pressure differential threshold; and preventing the second fluid from pressurizing the accumulator after the pressure differential between the internal region and the external region exceeds the fourth pressure differential threshold. 11 . The method of claim 8 , wherein the pressure maintenance device comprises a relief valve that is in fluid communication with the pressurized fluid source and with the external region; and wherein the method further comprises depressurizing the pressurized fluid source when a first relief pressure differential threshold associated with the relief valve is exceeded. 12 . The method of claim 8 , wherein the pressure maintenance device comprises a rupture disk that is in fluid communication with the pressurized fluid source and with the external region; and wherein the method further comprises depressurizing the pressurized fluid source when a second relief pressure differential threshold associated with the rupture disk is met or exceeded. 13 . The method of claim 8 , wherein allowing the first fluid within the internal region to flow through the first flow path when a pressure differential between the external region and the reference pressure is less than a first pressure differential threshold that is associated with the predetermined pressure range comprises opening a first valve that controls the flow of the first fluid through the first flow path. 14 . The method of claim 9 , wherein preventing the first fluid within the internal region from flowing through the first flow path when a pressure differential between the internal region and the external region exceeds a second pressure differential threshold comprises closing a second valve that controls the flow of the first fluid through the first flow path. 15 . The method of claim 14 , further comprising allowing the first fluid to flow through the first flow path when a third pressure differential across a third valve exceeds a third pressure differential threshold associated with the third valve. 16 . The method of claim 9 , wherein isolating a portion of the exte