Keywords:

Spine fusion

Spine fusion surgical precision enhanced through real-time navigation. Our spine fusion solution provides unprecedented accuracy with mixed reality visualization. Transform spinal surgery outcomes with advanced 3D navigation technology, offering surgeons enhanced control and precision.
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Advanced Spine fusion

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Comprehensive Guide to Spine Fusion Surgery: Indications, Procedure, and Recovery

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Comprehensive Guide to Spine Fusion Surgery: Indications, Procedure, and Recovery

Spine fusion is a surgical procedure used to stabilize the spine and alleviate pain caused by Spine instability or deformities. This surgery involves permanently fusing two or more vertebrae to restrict their movement. It is commonly used to treat various Spine conditions such as degenerative disc disease, scoliosis, spondylolisthesis, and Spine stenosis.

Indications for Surgery

1. Degenerative Disc Disease: As people age, the intervertebral discs degenerate, causing pain and instability.
2. Herniated Disc: When the nucleus pulposus of a disc protrudes and compresses Spine nerves, Spine fusion can help relieve pain.
3. Scoliosis: Severe Spine curvature may require surgical correction and stabilization.
4. Spondylolisthesis: A vertebra slips out of its normal position, compressing nerves and causing pain and neurological symptoms.
5. Spine Stenosis: Narrowing of the Spine canal compresses the Spine cord and nerves, causing lower back pain, leg pain, and neurological dysfunction.
6. Spine Fractures: Fractures or compressions of vertebrae due to trauma or conditions like osteoporosis may require fusion to stabilize the spine.

Surgical Procedure

Spine fusion typically involves the following steps:

1. Exposure of the Spine: The surgeon exposes the vertebrae that need to be fused.
2. Removal of Damaged Tissue: Degenerated or protruding discs or bone spurs may be removed.
3. Preparation of Fusion Area: Bone grafts (often taken from the patient or a donor) are placed between the vertebrae.
4. Fixation Devices: Metal screws, rods, and plates are used to hold the vertebrae in the correct position to promote bone graft fusion.
5. Recovery and Healing: It takes several months for the bone grafts to fuse and stabilize the vertebrae.

Benefits and Risks

Benefits:
– Pain Relief: Stabilizing the spine can significantly reduce pain.
– Improved Stability: Prevents further Spine instability or deformity.
– Enhanced Quality of Life: Post-surgery, patients often experience improved mobility and quality of life.

Risks:
– Surgical Risks: Include infection, bleeding, and nerve damage.
– Fusion Failure: The bone graft may not successfully fuse, leading to surgical failure.
– Adjacent Segment Disease: Neighboring vertebrae may degenerate due to additional stress.

Caduceus S Minimally invasive spine fusion : Key Clinical Advantages

  1. Radiation Optimization in Minimally invasive spine fusion: Minimizes radiation exposure by using only 2-4 X-ray images during Spine fusion,Spine fusion outcomes,Real-time Spine fusion,Spine fusion visualization">3D navigation, eliminating preoperative CT scans.
  2. Precision Access in Minimally invasive spine fusion: Enables ultra-precise 2-3 cm minimally invasive approaches to complex spinal structures through advanced 3D imaging guidance.
  3. Sub-Millimeter Accuracy in Minimally invasive spine fusion: Provides surgical navigation with less than 2 mm error margin, enhancing procedural precision through real-time 3D imaging.
  4. Rapid Setup for Minimally invasive spine fusion: Reduces navigation system setup to about 10 minutes, streamlining the surgical workflow.
  5. Comprehensive Preoperative Planning in Minimally invasive spine fusion: Supports DICOM data integration for detailed surgical simulation and intraoperative 3D image navigation.
  6. Operational Efficiency of Minimally invasive spine fusion: Shortens surgical duration to 2-4 hours, improving patient recovery and surgical outcomes.
  7. Universal Compatibility in Minimally invasive spine fusion: Seamlessly integrates with existing surgical equipment without additional 3D imaging installations.
  8. Versatile Surgical Applications of Minimally invasive spine fusion: Supports multiple spinal interventions including scoliosis, spondylolisthesis, and complex vertebral procedures.
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