Peel-away sheath assembly

1 .- 47 . (canceled) 48 . A method of manufacturing a peel-away sheath assembly for insertion of a blood pump, the peel-away sheath assembly comprising a peel-away sheath body and a peel-away sheath hub, the method comprising: coating a mandrel with a first layer of a first material; heat-shrinking the first layer; coating the heat-shrunk first layer with a second layer of a second material and an outermost third layer of a third material, wherein the second layer is a reinforcing layer; and heat-shrinking the first, second, and third layers to form a peel-away sheath body. 49 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 48 , wherein: the mandrel possesses a raised protrusion that is configured to leave at least one inner diameter notch in the peel-away sheath body, wherein the at least one inner diameter notches extends from an innermost surface of the first layer, through the second layer, and terminates before or within the third layer. 50 .- 82 . (canceled) 83 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 49 , wherein the at least one inner diameter notch defines at least one peel-away line. 84 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 48 , wherein the first material is a thermoplastic. 85 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 84 , wherein the thermoplastic includes PEBAX. 86 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 84 , wherein the thermoplastic includes TPU. 87 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 48 , wherein heat-shrinking the first layer includes coating the first layer with a heat shrink and heating the first layer and the heat shrink. 88 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 86 , wherein the heat shrink is a polytetrafluoroethylene (PTFE) heat shrink. 89 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 48 , wherein the third layer is configured with a mold during heat-shrinking, wherein the mold is configured to leave at least one outer diameter notch in the peel-away sheath body. 90 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 89 , wherein the at least one outer diameter notch extends from an outermost of the third layer, through the second layer, and terminates before or within the first layer. 91 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 90 , wherein the at least one outer diameter notch defines at least one peel-away line. 92 . A method for manufacturing a peel-away sheath assembly for insertion of a blood pump, the peel-away sheath assembly comprising a peel-away sheath body and a peel-away sheath hub, the method comprising: coating a mandrel with a first layer of a first material; heat-shrinking the first layer; coating the mandrel a second layer of a second material, wherein the mandrel is already coated with the first material, wherein the second layer is a reinforcing layer; heat-shrinking the second layer while the second layer is disposed on the first layer and the mandrel; coating the mandrel with a third layer of a third mater; and heat-shrinking the third layer while the third layer is disposed on the second layer, the first layer, and the mandrel to form a peel-away sheath body. 93 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of any of claim 92 , wherein: the mandrel possesses a raised protrusion that is configured to leave at least one inner diameter notch in the peel-away sheath body, wherein the at least one inner diameter notch extends from an innermost surface of the first layer, through the second layer, and terminates before or within the third layer. 94 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 93 , wherein the at least one inner diameter notch defines at least one peel-away line. 95 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of any of claim 92 , wherein the steps of heat-shrinking the first layer, heat-shrinking the second layer, and heat-shrinking the third layer are performed simultaneously. 96 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of any of claim 92 , wherein the step of heat-shrinking the second layer is performed following the step of heat-shrinking the first layer. 97 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of any of claim 96 , wherein the steps of heat-shrinking the second layer and heat-shrinking the third layer are performed simultaneously. 98 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 92 , wherein the third layer is configured with a mold during heat-shrinking, wherein the mold is configured to leave at least one outer diameter notch in the peel-away sheath body. 99 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 98 , wherein the at least one outer diameter notch extends from an outermost of the third layer, through the second layer, and terminates before or within the first layer. 100 . The method of manufacturing a peel-away sheath assembly for insertion of a blood pump of claim 99 , wherein the at least one outer diameter notch defines at least one peel-away line.