Expandable intervertebral fusion device

I claim: 1. A method for implanting an expandable fusion device between two adjacent vertebrae comprising: obtaining an expandable fusion device for implantation between two adjacent vertebrae, the device comprising an actuator comprising a drive feature and a longitudinal axis; a wedge assembly coupled to the actuator; a ramp assembly slidably coupled with the wedge assembly; an upper endplate assembly slidably coupled with the ramp assembly; and a lower endplate assembly slidably coupled with the ramp assembly; wherein, the device has a width comprising an external width of at least one of the upper endplate assembly and the lower endplate assembly; wherein, the device has a height comprising an external distance between the upper endplate assembly and the lower endplate assembly; wherein, actuation of the drive feature by a first number of actuations in a first actuation direction increases the width without increasing the height; and, wherein, actuation of the drive feature by a second number of actuations beyond the first number of actuations in the first actuation direction increases at least one of the height and the width; inserting the device, having the width and the height, between two adjacent vertebrae; actuating the drive feature by the first number of actuations in the first actuation to increase the width without increasing the height; and, actuating the drive feature by the second number of actuations beyond the first number of actuations in the first actuation direction to increase at least one of the height and the width; attaching an inserter to the expandable fusion device, the device having the width and the height and comprising the drive feature. 2. The method of claim 1 , wherein actuation of the drive feature by the second number of actuations beyond the first number of actuations in the first actuation direction increases both the height and the width. 3. The method of claim 1 , wherein actuation of the drive feature by a third number of actuations beyond the first and second number of actuations in the first actuation direction increases the height without increasing the width. 4. The method of claim 1 , wherein the width of the device reaches an apex once the drive feature is actuated by at least the first number of actuations. 5. The method of claim 1 , wherein the height of the device reaches an apex once the drive feature is actuated by at least the first and second number of actuations. 6. The method of claim 4 , wherein actuating the drive feature in the first actuation direction beyond the first number of actuations increases the height of the device by at most about 400%. 7. The method of claim 6 , wherein actuating the drive feature in the first actuation direction by at least the first and the second number of actuations increases the width of the device by at most about 150%.