CLAIMS
1. An adjustable stabilization system for stabilizing multiple levels of a patient's spine, the patient having a head, a pelvis, and a spinal column operatively connected at a caudal end thereof to the patient's pelvis and operatively connected at a cephalad end thereof to the patient's head, the spinal column including a plurality of operatively interconnected vertebrae positioned at multiple levels intermediate the caudal and cephalad ends thereof, each of the plurality of vertebrae being separated from an adjacent vertebra by an intervertebral space formed between the adjacent vertebrae, the system comprising:
an interlaminar member adapted to be positioned in an intervertebral space intermediate a first one of the plurality of operatively interconnected vertebrae and a second adjacent one of the plurality of operatively interconnected vertebrae, the interlaminar member including a U-shaped body having a midsection, and two spaced apart end portions, and a pair of juxtaposed legs extending parallel to one another from one of the respective ends in a direction outwardly away from the spinal column when the interlaminar member is implanted;
a pair of spaced-apart support members or plates secured to an upper one of the pair of juxtaposed legs of the interlaminar member and extending in a direction upwardly therefrom parallel to one another;
a support structure structured and arranged to secure the adjustable stabilization system to the patient's spinal column whereby multiple levels of the plurality of operatively interconnected vertebrae are stabilized, the support structure including a T-shaped body portion having an upwardly extending member having a top portion opposite a bottom portion and including an angle extending laterally outwardly away from the patient's spinal skeletal structure, the top portion operably coupled with a bottom one of the pair of juxtaposed legs of the interlaminar member, a crosslink member operatively connected to the bottom portion of the upwardly extending member, the crosslink member having at least one elongate aperture formed therein structured and arranged to receive at least one fastener for securing the interlaminar member to the support structure whereby the mediolateral positioning of the interlaminar member may be varied in response to dimensions of a patient's skeletal structure;
a fastener positioned in the at least one elongate aperture and adapted to receive and releasably secure a first end of a guide rod therein; the fastener compromising an eye bolt having an eye portion formed in a proximal end thereof, the eye portion being adapted to receive and releasably secure the first end of the guide rod.
2. The stabilization system of claim 1, wherein the guide rod includes a cross member operatively connected to a second or lower end thereof, the cross member having a transversely extending body including a first end operatively connected to the second or lower end of the guide rod and a second end adapted to releasably secure a second support member thereto.
3. The stabilization system of claim 2, wherein the second end is in the form of hook-shaped member adapted to receive and retain the second support member.
4. The stabilization system of claim 3, wherein the second end further includes a retention fastener threadably positioned therein.
5. The stabilization system of claim 4, wherein the second support member is a spinal guide rod.
