Expandable fusion device and method of installation thereof

We claim: 1. An expandable spacer for deployment between vertebral bodies comprising: a first endplate; a second endplate; a main body positioned between the first endplate and the second endplate; a translation body; a driver coupled to the main body and the translation body, and adapted to translate the translation body relative to the main body which changes the first and second endplates between a collapsed position and an expanded position, wherein an angle between the first and second endplates in the expanded position is different than the angle in the collapsed position, wherein the driver includes a stem and a collar, wherein the stem is coupled to the main body and the translation body and wherein the stem and the collar form a ratcheting mechanism; wherein the stem comprises a head and a shaft, the stem further comprises ratchet teeth that extend along a length of the shaft, wherein the stem further comprises one or more flat areas that are positioned adjacent to the ratchet teeth, wherein the collar further comprises ratchet recesses, wherein the stem is rotatable between a locked position and a disengaged position, wherein in the locked position the ratchet teeth of the stem are engaged with the ratchet recesses of the collar, thereby creating a ratcheting mechanism that allows for expansion of the implant, and wherein in the disengaged position the stem is rotated such that the one or more flat areas are positioned adjacent the ratchet recesses such that the ratcheting mechanism is not operable. 2. The expandable spacer of claim 1 , wherein the angle between the first and second endplates in the expanded position is higher than the angle in the collapsed position. 3. The expandable spacer of claim 1 , wherein the translation body includes a ramped surface configured to contact a ramped surface of the first endplate. 4. The expandable spacer of claim 3 , wherein an angle of the translation body ramped surface is different than an angle of the ramped surface of the first endplate relative to a longitudinal axis of the main body in the collapsed position. 5. The expandable spacer of claim 4 , wherein when the driver initially translates the translation body from the collapsed position, a distal portion of the first endplate rises relative to a proximal portion of the first endplate until the angle of the first endplate ramped surface relative to the longitudinal axis matches the angle of the translation body ramped surface. 6. The expandable spacer of claim 5 , wherein when the driver further translates the translation body, the distal and proximal portions rise together. 7. The expandable spacer of claim 1 , wherein the main body includes a central internal threading for threadably securing an insertion device.