Prosthetic system for removing fluid or sweat from inside of a liner with first and second independently sealed volumes

The invention claimed is: 1. A prosthetic system comprising: a liner adapted to receive a residual limb therein, the liner having a liner body formed from an elastomeric material, the liner body defining: an open proximal end; a distal end; an outer surface; an inner surface opposite the outer surface and including a first part arranged to form a seal between the liner and the residual limb, and a second part having at least one flow channel arranged for promoting movement of fluid away from a skin surface of the residual limb at least one inlet in the second part and extending between the inner and outer surfaces, the at least one inlet being in fluid communication with the at least one flow channel and an area external to the liner; and an outlet defined in the distal end and extending between the inner and outer surfaces, wherein the at least one flow channel is defined in the elastomeric material forming the liner body and is in fluid communication with the outlet; a socket including an interior surface defining a socket cavity and including an outlet extending from the interior surface to an external atmosphere; a first sealed volume defined between a first portion of the outer surface of the liner and a first portion of the interior surface of the socket; a second sealed volume defined between a second portion of the outer surface of the liner and a second portion of the interior surface of the socket, wherein the first sealed volume is fluidly connected to the outlet, fluidly separated from the second sealed volume by a seal element, and is independent from the second sealed volume throughout use of the system; and a valve attached to the outlet, the valve arranged to selectively control fluid flow between the inner surface of the liner and the first sealed volume. 2. The system of claim 1 , wherein the first sealed volume is variable to create a first elevated vacuum between the liner and the residual limb for removing fluid from the inner surface of the liner through the outlet. 3. The system of claim 2 , wherein the socket defines an aperture in an area of the second sealed volume and further comprising a pump system operatively connected to the second sealed volume via the aperture, the pump system arranged to selectively create a second elevated vacuum in the second sealed volume for securing the socket on the liner. 4. The system of claim 3 , wherein the first elevated vacuum is less than the second elevated vacuum. 5. The system of claim 4 , wherein a pressure differential between the first elevated vacuum and the second elevated vacuum is greater than about 200 mmHg. 6. The system of claim 3 , wherein the first elevated vacuum is less than about 50 mmHg and the second elevated vacuum is greater than about 250 mmHg. 7. The system of claim 1 , wherein the second part comprises a distal part defining a textured region in the elastomeric material forming the liner body. 8. The system of claim 7 , wherein the textured region defines a hydrophilic surface that attracts moisture away from the skin surface. 9. The system of claim 1 , wherein the at least one flow channel comprises a plurality of flow channels extending in both an axial direction and a circumferential direction. 10. A prosthetic system comprising: a socket including an interior surface defining a socket cavity and including an outlet extending from the interior surface to an external atmosphere; a liner adapted to receive a residual limb therein and to be removably positioned within the socket cavity, the liner including: a liner body formed from an elastomeric material, defining an open proximal end and, a distal end, an outer surface, an inner surface opposing the outer surface and arranged to interface with a skin surface, the inner surface defining a proximal part arranged for creating a seal between the proximal part and the residual limb, and a distal part comprising a textured region arranged to move fluid away from the skin surface, the textured region formed from a same material as the liner body; an outlet defined in the distal end; and one or more inlets defined below the proximal part in fluid communication with the outlet via at least one flow channel, and arranged to selectively introduce air into the distal part; a first sealed volume defined between a first portion of the outer surface of the liner and a first portion of the interior surface of the socket a second sealed volume defined between a second portion of the outer surface of the liner and a second portion of the interior surface of the socket, wherein the first sealed volume is fluidly connected to the outlet, fluidly separated from the second sealed volume by a seal element, and is independent from the second sealed volume throughout use of the system; and a valve attached to the outlet and arranged to selectively provide fluid communication between the inner surface of the liner and the first sealed volume. 11. The system of claim 10 , wherein the first sealed volume is variable to create a first elevated vacuum between the liner and the residual limb for removing fluid from the inner surface of the liner through the outlet. 12. The system of claim 11 , wherein the socket defines an aperture in an area of the second sealed volume and further comprising a pump system operatively connected to the second sealed volume via the aperture, the pump system arranged to selectively create a second elevated vacuum in the second sealed volume for securing the socket on the liner. 13. A prosthetic system comprising: a socket including an interior surface defining a socket cavity and including an outlet extending from the interior surface to an external atmosphere; a liner adapted to receive a residual limb therein and to be removably positioned within the socket cavity, the liner having an outer surface, an inner surface, one or more inlets arranged to selectively introduce air into a distal part of the inner surface, and at least one flow channel in fluid communication with the inlet; a first sealed volume defined between a first portion of the outer surface of the liner and a first portion of the interior surface of the socket; a second sealed volume defined between a second portion of the outer surface of the liner and a second portion of the interior surface of the socket, the second sealed volume being fluidly independent from the first sealed volume throughout use of the system due to a seal element provided between the first sealed volume and the second sealed volume; an outlet defined in a distal end of the liner, in fluid communication with the one or more inlets and the at least one flow channel, and including a valve arranged to selectively provide fluid communication between the inner surface of the liner and the first sealed volume, wherein the first sealed volume is variable to create a first elevated vacuum between the liner and the residual limb for removing fluid or sweat from the inner surface of the liner through the outlet; and a pump system operatively connected to the second sealed volume via an aperture in the socket in an area of the second sealed volume and arranged to create a second elevated vacuum in the second sealed volume for securing the socket on the liner, the second elevated vacuum being different than the first elevated vacuum. 14. The system of claim 13 , wherein the liner formed from an elastomeric material and the inner surface of the liner defines a proximal part arranged for creating a seal between the proximal part and the residual limb, and the distal part comprising a textured region arranged to move fluid away from a skin surface, th