Expandable implant assembly with compression features

What is claimed is: 1. An expandable implant, comprising: a base member; an adjustable member adjustably coupled to the base member and movable between a first, collapsed position, and a second, expanded position; and a control assembly including a control shaft and an elastically deformable control member received on the control shaft, wherein the elastically deformable control member comprises a first, rigid portion made of a metal, and a second, deformable portion made of PEEK, wherein the deformable portion defines a planar surface configured to slidingly engage the adjustable member, wherein manipulation of the control shaft causes relative movement of the adjustable member relative to the base member; and wherein the base member and the adjustable member are coupled together at least in part via the control assembly such that the control shaft is rotatable relative to the base member and the adjustable member, and the adjustable member and the base member are resiliently compressible toward each other. 2. The expandable implant of claim 1 , wherein the elastically deformable control member is configured to be received within a control channel on the adjustable member. 3. The expandable implant of claim 2 , wherein the elastically deformable control member enables resilient compression of the adjustable member and the base member toward each other. 4. The expandable implant of claim 1 , wherein the first, rigid portion is coupled to the second, deformable portion by way of a dovetail joint. 5. An expandable implant, comprising: a base member; an adjustable member adjustably coupled to the base member and movable between a first, collapsed position, and a second, expanded position; and a control assembly including a control shaft and an elastically deformable control member, wherein the elastically deformable control member comprises a first, rigid portion and a second, deformable portion, wherein the first, rigid portion is coupled to the second, deformable portion by way of a dovetail joint, wherein rotation of the control shaft causes relative movement of the adjustable member relative to the base member. 6. The expandable implant of claim 5 , wherein the first, rigid portion is made of a metal and the second, deformable portion is made of a polymer and/or composite material. 7. The expandable implant of claim 6 , wherein the first, rigid portion is made of titanium and the second, deformable portion is made of PEEK. 8. The expandable implant of claim 5 , wherein the deformable portion is configured to slidably engage the adjustable member. 9. An expandable implant, comprising: a base member; an adjustable member adjustably coupled to the base member and movable between a first, collapsed position, and a second, expanded position; and a control assembly including a control shaft and an elastically deformable control member received on the control shaft, wherein the elastically deformable control member includes first and second slots, wherein the first slot is parallel to the second slot, wherein manipulation of the control shaft causes relative movement of the adjustable member relative to the base member; and wherein the base member and the adjustable member are coupled together at least in part via the control assembly such that the control shaft is rotatable relative to the base member and the adjustable member, and the adjustable member and the base member are resiliently compressible toward each other. 10. An expandable implant, comprising: a base member; an adjustable member adjustably coupled to the base member and movable between a first, collapsed position, and a second, expanded position; and a control assembly including a control shaft and an elastically deformable control member received on the control shaft, wherein the elastically deformable control member includes first and second slots, wherein the first slot extends from a top surface of the control member and the second slot extends from a bottom surface of the control member, wherein manipulation of the control shaft causes relative movement of the adjustable member relative to the base member; and wherein the base member and the adjustable member are coupled together at least in part via the control assembly such that the control shaft is rotatable relative to the base member and the adjustable member, and the adjustable member and the base member are resiliently compressible toward each other.