Anterior Cervical Spinal Fusion Surgery
Understanding cervical spinal fusion
Anterior cervical spinal fusion surgeries are commonly
done in conjunction with an anterior
cervical discectomy. For many patients, cervical spinal
fusion surgery (fusing one vertebra to another) is often done to
eliminate motion at a vertebral segment. Decreasing the motion at
a painful motion segment should decrease the pain at that segment.
Achieving the fusion also serves to maintain adequate space for
the decompressed spinal cord and/or nerve roots. The fusion may
also prevent the spine from falling into a collapsed deformity (kyphosis).
Bone grafts for spinal fusion surgery
To achieve a spinal fusion, a bone graft
is used to promote two bones growing together into one. The patient’s
own bone will grow into and around the bone graft and incorporate
the graft bone as its own. This process creates one continuous bone
surface and eliminates motion at the fused joint. A small piece
of bone is used to fuse a disc space, and a longer so-called ‘strut
graft’ is used to bridge across multiple disc spaces if a
‘corpectomy’ has been performed.
There are several options available to patients and surgeons for bone grafts in anterior cervical spine surgery:
1. Autograft bone for spinal fusion
Autograft
bone (a patient’s own bone) is harvested from
the iliac crest (hip). This technique has been the gold standard
since the 1950s. Autograft bone usually achieves a fusion in 90%-95%
of patients.
The principal disadvantage with using autograft bone is that another incision needs to be made over the hip to harvest the bone graft. Possible complications associated with taking out bone graft include:
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Graft site chronic pain (which happens 10% to 25% of the time)
- Infection
- Bleeding
- Damage to the lateral femoral cutaneous nerve (a sensory nerve that supplies sensation to the front of the thigh)
- Pelvis bone fracture
The chances of a complication increase with the size of the bone graft and patient obesity. For those who opt to use an autograft, many patients find the bone graft harvest site to be more painful than the cervical surgery site itself.
2. Allograft bone for spinal fusion
Allograft bone (a.k.a. ‘bank’ bone or donor bone from a cadaver) eliminates the need to harvest the patient’s own bone. Basically, the donor graft acts as a bone scaffolding onto which the patient’s own bone grows and eventually replaces over years. There are no living cells in the bone graft, so there is little chance of a graft ‘rejection’ like with an organ transplant. However, bone graft healing remains an issue, as there is a somewhat greater likelihood of bone graft failure with allograft compared to autograft.
With allografts, the speed of healing may be slower than an autograft bone fusion. In addition:
- In one-level spinal fusions, it yields nearly equivalent fusion rates as autograft bone.
- Anterior cervical instrumentation (plates & screws) are commonly employed with allografts to increase fusion rates.
- With increasing numbers of levels to be grafted/fused, the differences in fusion rates between allograft and autograft become more significant.
There is a theoretical risk of transmission of an infection from a donor. The risk of contracting a disease such as HIV or hepatitis from an allograft has been estimated to be between 1 in 200,000 to 1 in 1 million. However, with modern procurement and sterilization methods for bone tissue, the risk is essentially moot.
Potential risks and complications of a spinal fusion surgery include:
- The principal risk from a spine fusion is that the graft does not heal. In general, allograft bone does not heal quite as well as autograft bone, but both yield good results when used in the anterior cervical spine.
- If a graft is used without instrumentation, there is a small chance (1% to 2%) of a graft dislodgment or extrusion. If this happens, another operation is necessary to reinsert the bone graft, and instrumentation (plates) can then be used to hold it in place.
