TY - JOUR
T1 - Early postoperative dislocation of the anterior Maverick lumbar disc prosthesis
T2 - Report of 2 cases
AU - Gragnaniello, Cristian
AU - Seex, Kevin A.
AU - Eisermann, Lukas G.
AU - Claydon, Matthew H.
AU - Malham, Gregory M.
PY - 2013/8
Y1 - 2013/8
N2 - The authors report on 2 cases of anterior dislocation of the Maverick lumbar disc prosthesis, both occurring in the early postoperative period. These cases developed after experience with more than 50 uneventful cases and were therefore thought to be unrelated to the surgeon s learning curve. No similar complications have been previously reported. The anterior Maverick device has a ball-and-socket design made of cobalt-chromium-molybdenum metal plates covered with hydroxyapatite. The superior and inferior endplates have keels to resist translation forces. The patient in Case 1 was a 52-year-old man with severe L4-5 discogenic pain; and in Case 2, a 42-year-old woman with disabling L4-5 and L5-S1 discogenic back pain. Both patients were without medical comorbidities and were nonsmokers with no risk factors for osteoporosis. Both had undergone uneventful retroperitoneal approaches performed by a vascular access surgeon. Computed tomography studies on postoperative Day 2 confirmed excellent prosthesis placement. Initial recoveries were uneventful. Two weeks postoperatively, after stretching (extension or hyperextension) in bed at home, each patient suffered the sudden onset of severe abdominal pain with anterior dislocation of the Maverick prosthesis. The patients were returned to the operating room and underwent surgery performed by the same spinal and vascular surgeons. Removal of the Maverick prosthesis and anterior interbody fusion with a separate cage and plate were performed. Both patients had recovered well with good clinical and radiological recovery at the 6- and 12-month follow-ups. Possible causes of the anterior dislocation of the Maverick prosthesis include the following: 1) surgeon error: In both cases the keel cuts were neat, and early postoperative CT confirmed good placement of the prosthesis; 2) equipment problem: The keel cuts may have been too large because the cutters were worn, which led to an inadequate press fit of the implants; 3) prosthesis fault: Both plates of the dislocated implants looked normal and manufacturer analysis reported no fault; 4) patient factors: Both dislocations happened early in the postoperative period, after hyperextension of the spine while the patient was supine in bed. Bracing would not have reduced hyperextension. Dislocation of a lumbar spinal implant represents a life-threatening complication and should therefore be considered and recognized early. Radiographic and CT studies of both the lumbar spine (for prosthesis) and the abdomen (for hematoma) should be performed, as should CT angiography (for vessel damage or occlusion). Any anterior lumbar revision surgery is hazardous, and it is strongly advisable to have a vascular surgeon scrubbed. In cases of dislocation or extrusion of a lumbar interbody prosthesis, the salvage revision strategy is fusing the segment via the same anterior approach. Surgeons should be aware of the risk of anterior dislocation of the Maverick prosthesis. Keel cutters should be regularly checked for sharpness, as they may be implicated in the loosening of implants. Patients and their physical therapists should also avoid lumbar hyperextension in the early postoperative period.
AB - The authors report on 2 cases of anterior dislocation of the Maverick lumbar disc prosthesis, both occurring in the early postoperative period. These cases developed after experience with more than 50 uneventful cases and were therefore thought to be unrelated to the surgeon s learning curve. No similar complications have been previously reported. The anterior Maverick device has a ball-and-socket design made of cobalt-chromium-molybdenum metal plates covered with hydroxyapatite. The superior and inferior endplates have keels to resist translation forces. The patient in Case 1 was a 52-year-old man with severe L4-5 discogenic pain; and in Case 2, a 42-year-old woman with disabling L4-5 and L5-S1 discogenic back pain. Both patients were without medical comorbidities and were nonsmokers with no risk factors for osteoporosis. Both had undergone uneventful retroperitoneal approaches performed by a vascular access surgeon. Computed tomography studies on postoperative Day 2 confirmed excellent prosthesis placement. Initial recoveries were uneventful. Two weeks postoperatively, after stretching (extension or hyperextension) in bed at home, each patient suffered the sudden onset of severe abdominal pain with anterior dislocation of the Maverick prosthesis. The patients were returned to the operating room and underwent surgery performed by the same spinal and vascular surgeons. Removal of the Maverick prosthesis and anterior interbody fusion with a separate cage and plate were performed. Both patients had recovered well with good clinical and radiological recovery at the 6- and 12-month follow-ups. Possible causes of the anterior dislocation of the Maverick prosthesis include the following: 1) surgeon error: In both cases the keel cuts were neat, and early postoperative CT confirmed good placement of the prosthesis; 2) equipment problem: The keel cuts may have been too large because the cutters were worn, which led to an inadequate press fit of the implants; 3) prosthesis fault: Both plates of the dislocated implants looked normal and manufacturer analysis reported no fault; 4) patient factors: Both dislocations happened early in the postoperative period, after hyperextension of the spine while the patient was supine in bed. Bracing would not have reduced hyperextension. Dislocation of a lumbar spinal implant represents a life-threatening complication and should therefore be considered and recognized early. Radiographic and CT studies of both the lumbar spine (for prosthesis) and the abdomen (for hematoma) should be performed, as should CT angiography (for vessel damage or occlusion). Any anterior lumbar revision surgery is hazardous, and it is strongly advisable to have a vascular surgeon scrubbed. In cases of dislocation or extrusion of a lumbar interbody prosthesis, the salvage revision strategy is fusing the segment via the same anterior approach. Surgeons should be aware of the risk of anterior dislocation of the Maverick prosthesis. Keel cutters should be regularly checked for sharpness, as they may be implicated in the loosening of implants. Patients and their physical therapists should also avoid lumbar hyperextension in the early postoperative period.
UR - http://www.scopus.com/inward/record.url?scp=84881250479&partnerID=8YFLogxK
U2 - 10.3171/2013.5.SPINE12753
DO - 10.3171/2013.5.SPINE12753
M3 - Article
C2 - 23768025
AN - SCOPUS:84881250479
SN - 1547-5654
VL - 19
SP - 191
EP - 196
JO - Journal of Neurosurgery: Spine
JF - Journal of Neurosurgery: Spine
IS - 2
ER -