There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
There is the potential for out of specification device geometries. widths, lengths, heights, and lordotic angles to accommodate patient anatomy. These devices can be inserted between two lumbar or lumbosacral vertebral bodies to give support and correction during lumbar interbody fusion surgeries. Implants have a central cavity that allows them to be packed with autogenous bone graft and/or allograft bone graft comprised of cancellous and/or Corticocancellous bone, and/or demineralized allograft bone with bone marrow aspirate.
Drill guides might bend when axial forces are applied by surgeon during procedure and result in potential metal shavings due to friction with the drill bit.Risk to patients includes potential of injury.
Drill guides might bend when axial forces are applied by surgeon during procedure and result in potential metal shavings due to friction with the drill bit.Risk to patients includes potential of injury.
Fixation screw was inserted through the wrong side of the augment (distal to proximal, as opposed to proximal to distal, which is the correct orientation).
Fixation screw was inserted through the wrong side of the augment (distal to proximal, as opposed to proximal to distal, which is the correct orientation).
A cardioversion procedure may damage the electronics in the Vanta INS device, making the INS unresponsive and non-functional. As of April 19, 2023, Medtronic has received a total of two complaints concerning this issue from patients implanted with a Vanta INS, both of which have resulted in explant procedures.