Expandable push-in orthopedic implant

What is claimed is: 1. A push-in orthopedic implant for linear insertion at least in part between two adjacent bone masses, said implant comprising: an upper member having an upper surface adapted for placement toward and into contact with one of the adjacent bone masses, said upper surface being non-arcuate along a substantial portion of the length of said implant, said upper surface having at least one opening therethrough and adapted to contact one of the adjacent bone masses, said upper member having a proximal end and a distal end; a lower member having a lower surface adapted for placement toward and into contact with the other of the adjacent bone masses, said lower surface being non-arcuate along a substantial portion of the length of said implant, said lower surface having at least one opening therethrough and adapted to contact the other of the adjacent bone masses, said openings of said upper and lower surfaces being in communication with one another and adapted for permitting for the growth of bone from adjacent bone mass to adjacent bone mass through said implant and being sufficiently sized and located to allow for fusion through said implant, said lower member having a proximal end and a distal end corresponding to said proximal end and said distal end of said upper member, respectively, and a length between said proximal and distal ends, said upper and lower members articulating therebetween adjacent one of said proximal ends and said distal ends of said upper and lower members and allowing for expansion of the height of said implant, said upper and lower members having a first position relative to one another allowing for a collapsed implant height and a second position relative to one another allowing for an increased height of at least a portion of said implant; and a blocker pivotally attached to one of said upper and lower members proximate one of said proximal and distal ends and being adapted to pivot into cooperative engagement with another of said one of said upper and lower members, said blocker being adapted to hold at least a portion of said upper and lower members apart so as to maintain the increased height of said implant and resist the collapse of said implant to the collapsed implant height when said implant is in a final deployed position, said implant having a width and said blocker having a width less than the width of said implant. 2. The push-in implant of claim 1 , further comprising a hollow defined between said upper and lower members in communication with said openings in each of said upper and lower surfaces, said hollow being adapted to receive fusion-promoting substances. 3. The push-in implant of claim 2 , wherein said hollow has a width that is unobstructed by any mechanism for moving said blocker. 4. The push-in implant of claim 2 , wherein said implant has a constant width in both the collapsed height and the increased height. 5. The push-in implant of claim 2 , wherein said blocker is located at least in part between said upper and lower members. 6. The push-in implant of claim 2 , wherein said blocker is pivotally attached to said proximate end, said blocker being configured to rotate towards said distal end. 7. The push-in implant of claim 2 , wherein said blocker is a portion of one of said ends of said upper and lower members. 8. The push-in implant of claim 2 , wherein said implant has side walls and said blocker does not contact said side walls when said implant is in the final deployed position. 9. The push-in implant of claim 2 , wherein said blocker moves said upper and lower surfaces of said upper and lower members from a parallel orientation to an angled orientation relative to one another. 10. The push-in implant of claim 2 , wherein at least one of said upper and lower members is configured to cooperate with a projection so as to stop said upper and lower members from being moved apart from one another more than a predetermined distance. 11. The push-in implant of claim 2 , wherein said upper and lower members are configured to cooperate with one another so as to stop said upper and lower members from being moved apart from one another more than a predetermined distance. 12. The push-in implant of claim 2 , wherein said upper and lower members have walls contacting one another. 13. The push-in implant of claim 12 , wherein said walls are aligned parallel with the longitudinal axis of said implant. 14. The push-in implant of claim 12 , wherein said walls are at least in part overlapping. 15. The push-in implant of claim 2 , wherein said upper and lower members have a rotational articulation therebetween adjacent one of said proximal end and said distal end of said upper and lower members. 16. The push-in implant of claim 15 , wherein said rotational articulation is at one of said proximal end and said distal end of said upper and lower members opposite said blocker. 17. The push-in implant of claim 15 , wherein said rotational articulation is formed by said upper and lower members interdigitating so as to cooperatively engage. 18. The push-in implant of claim 2 , wherein said upper and lower members have side walls for engaging each other. 19. The push-in implant of claim 18 , wherein said side walls of said upper and lower members are at least partially overlapping walls. 20. The push-in implant of claim 2 , further comprising at least a portion of a bone-engaging projection adapted for linear insertion formed on the exterior of each of said upper and lower surfaces for penetrably engaging the adjacent bone masses and to facilitate securing said implant between the adjacent bone masses.