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Spine

The spinal devices market includes segments for traditional cervical and thoracolumbar fixation devices, interbody devices, motion preservation devices, vertebral compression fracture (VCF) treatment and spinal electrical stimulation. The minimally invasive surgery (MIS) spinal implants market includes spinous process fixation, facet fixation, MIS interbody fusion, MIS pedicle screws and MIS sacroiliac joint fusion.Check out our different spinal implant market reports below.

Showing 1–16 of 40 results

Thoracolumbar Fixation Market Analysis | Europe | 2017-2023 | MedCore

Spinal fusion is a surgical procedure designed to combine two or more vertebrae together, eventually forming a fused bone. Spinal fusion is primarily used for eliminating or significantly reducing the pain caused by abnormal movement of the vertebrae through immobilization. Supplemental bone tissue, either autograft or allograft, is used for promoting bone tissue growth. Fusion is accomplished by using either an instrumented or non-instrumented surgical approach. Instrumented fusions incorporate fixation devices to secure and stabilize the fusion site and interbody devices to fill the intervertebral disc space as well as enhance and promote fusion. Non-instrumented fusions use bone tissue to promote growth but do not incorporate any implant devices into the procedures. Interbody device markets, including those used in the thoracolumbar region of the spine, are discussed in a subsequent chapter. All procedures and markets in this analysis are instrumented fusions because they involve the implantation of plates, screws, rods, wiring or cable fixation devices.

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Spinal Vertebral Compression Fracture Market Analysis | Europe | 2017-2023 | MedCore

A vertebral compression fracture (VCF) occurs when the bone tissue of the vertebral body collapses in the spine. There are various causes of VCFs, but the most common is osteoporosis. Typically, the lumbar region of the spine is affected, resulting in the anterior section of the vertebral body collapsing. This can cause the spine to tilt forward. In multi-level cases, kyphosis (hunchback of the spine) can result from a VCF. In addition, VCFs can result from malignancy, infection or trauma to the spine.

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Spinal Electrical Stimulation Devices Market Analysis | Europe | 2017-2023 | MedCore

Electrical stimulation devices are used for stimulating bone growth after a spinal fusion procedure. Spinal electrical bone growth stimulators are often used as an adjunct therapy in order to increase the chance of a successful solid spinal fusion. In the United States, electrical stimulation devices are designed specifically for lumbar and cervical fusions. However, some lumbar devices have historically been used off-label to augment the healing process for cervical fusion procedures.

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Spinal Surgery Instrumentation Market Analysis | Europe | 2017-2023 | MedCore

Spinal instrumentation is used to stabilize the spine during fusion procedures, typically by lessening the pressure put on the spine until successful fusion has occurred. This ensures that bone growth does not occur in a way which further impedes proper movement, and that growth is as efficient as possible. As a category, spinal instrumentation includes a wide variety of products, including fixation products discussed in the cervical and thoracolumbar fixation segments of this report.

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Spinal Interbody Devices Market Analysis | Europe | 2017-2023 | MedCore

Spinal fusion is a surgical procedure designed to combine two or more vertebrae together, eventually forming a fused bone. It is primarily used for eliminating or significantly reducing the pain caused by abnormal movement of the vertebrae by immobilizing them. Supplemental bone tissue, either autograft or allograft, is used for promoting bone growth. A union of two vertebral bodies is referred to as a single-level fusion. Fusion is accomplished by using either an instrumented or non-instrumented surgical approach. Instrumented fusions incorporate fixation devices to secure and stabilize the fusion site, and interbody devices are used for filling the intervertebral disc space to enhance and promote fusion. Non-instrumented fusions utilize bone tissue to promote growth, but do not incorporate any implant devices into the procedures.

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Spinal Motion Preservation Devices Market Analysis | Europe | 2017-2023 | MedCore

Motion preservation devices are an exciting and often controversial segment of the spinal implant market. These devices are used for treating pathologies similar to those that spinal fusion procedures address. However, unlike spinal fusion, motion preservation devices act to preserve the natural motion of the spine. Some motion preservation devices are used for treating pathologies that were previously untreatable with traditional fusion procedures, thus creating new markets for spinal implants.

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Cervical Fixation Market Analysis | Europe | 2017-2023 | MedCore

Spinal fusion is a surgical procedure designed to combine two or more vertebrae together, eventually forming a fused bone. Spinal fusion is primarily used for eliminating or significantly reducing the pain caused from the abnormal movement of the vertebrae. Supplemental bone tissue, either autograft or allograft, is used for promoting bone tissue growth. A union of two vertebral bodies is referred to as a single-level fusion. Fusion is accomplished by using either an instrumented or non-instrumented surgical approach. Instrumented cervical fusions incorporate fixation devices to secure and stabilize the fusion site and interbody devices to fill the intervertebral disc space as well as enhance and promote fusion. Non-instrumented fusions utilize bone tissue to promote growth, but do not incorporate any implant devices into the procedures. Markets for interbody devices, including those used in the cervical region of the spine, are discussed in other reports. All procedures and markets in this analysis are instrumented fusions because they involve the implantation of plates, screws, rods, wiring or cable fixation devices.

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Minimally Invasive Spinous Process Fixation Market Analysis | Europe | 2017-2023 | MedCore

Several spinal fixation systems exist for stabilizing the spine so that bone fusion can be achieved. The majority of these fixation systems use rods that attach to screws that are threaded into the vertebral bodies or the pedicles. In some cases, plate fixation systems are also used to fuse two adjacent vertebral segments. Current plate fixation systems are designed to function in place of rods and screws, with the advantage of allowing fixation without the need to contour a long rod across multiple segments.

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Spinal Endoscopy Market Analysis | Europe | 2017-2023 | MedCore

Spinal endoscopy can be selected for a number of reasons, including observing epidural anatomy and pathology, targeted epidural delivery of drugs and the illumination and visualization of tissues of the epidural space in the spine for assisting diagnosis. More commonly, however, spinal endoscopy is used as a minimally invasive approach to discectomies, laminectomies and foraminotomies.

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Minimally Invasive Sacroiliac Joint Fusion Market Analysis | Europe | 2017-2023 | MedCore

Studies have shown that over 80% of the population will suffer from lower back pain at some point in their lives. A majority of these cases can be attributed to two main causes: general factors, such as muscle strain, injury and overuse; and specific spine conditions such as herniated discs, degenerative disc disease (DDD), spondylolisthesis or spinal stenosis. Sacroiliac (SI) joint dysfunction was once thought to be a less common cause for lower back pain. However, recent studies have shown that SI joint dysfunction (SIJD) may be responsible for up to 30% to 35% of lower back pain.

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Minimally Invasive Instrumentation Market Analysis | Europe | 2017-2023 | MedCore

Spinal instrumentation is used to stabilize the spine and carry out the procedure during minimally invasive spinal procedures. One major focus is lessening the pressure put on the spine until successful fusion has occurred. This ensures that bone growth does not occur in a way which further impedes proper movement, and that growth is as efficient as possible. Many of the same instruments used in standard spinal fusion may be used here.

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Minimally Invasive Pedicle Screws Market Analysis | Europe | 2017-2023 | MedCore

Pedicle screws provide a means of stabilizing a spinal level during a fusion procedure. The screws themselves do not fixate the levels, but act as firm anchor points that can then be connected with a rod. Pedicle screws can be placed at two or more consecutive spine levels. A short rod is subsequently implanted in order to connect the screws. The screw and rod construct prevents motion at the levels that are being fused.

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Minimally Invasive Facet Fixation Market Analysis | Europe | 2017-2023 | MedCore

The purpose of spinal fusion is to grow one or more vertebral bodies together to form a fused bone in order to treat certain pathologies. Plates, posterior fixation devices and interbody devices exist to help stabilize the spine while it fuses and heals. Traditionally, these devices have been implanted through open surgery; however, a growing number of these devices are being implanted using minimally invasive surgery (MIS) techniques. MIS greatly reduces surgical damage to the patient and is much less invasive than an open procedure. MIS for spinal fusion is made possible by complex and innovative surgical technology, allowing implantation of posterior screw/rod and interbody devices with minimal surgical damage or harm to the patient.

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Minimally Invasive Interbody Devices Market Analysis | Europe | 2017-2023 | MedCore

Interbody (IB) devices are designed to replace the intervertebral discs of the spine; this enhances stability in the region and promotes fusion between the two vertebral bodies. These devices are threaded, allowing them to be used in conjunction with bone graft material. Over time, the packed graft is gradually replaced by natural bone, forming a solid piece. IB fusion procedures typically add a posterior fixation device to the associated level. These procedures are often referred to as 360° fusions, as surgeons will implant interbody devices from an anterior approach and flip the patient over to implant a posterior pedicle screw device. This combination increases the fusion success rate over standalone interbody fusion device implantation without the addition of fixation devices.

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Facet Fixation Market Analysis | United States | 2019-20235| MedCore

The purpose of spinal fusion is to grow one or more vertebral bodies together to form a fused bone in order to treat certain pathologies. Plates, posterior fixation devices and interbody devices exist to help stabilize the spine while it fuses and heals. Traditionally, these devices have been implanted through open surgery; however, a growing number of these devices are being implanted using minimally invasive surgery (MIS) techniques. MIS greatly reduces surgical damage to the patient and is much less invasive than an open procedure. MIS for spinal fusion is made possible by complex and innovative surgical technology, allowing implantation of posterior screw/rod and interbody devices with minimal surgical damage or harm to the patient.

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MIS Interbody Devices Market Analysis | United States | 2019-2025 | MedCore

Interbody (IB) devices are designed to replace the intervertebral discs of the spine; this enhances stability in the region and promotes fusion between the two vertebral bodies. These devices are threaded, allowing them to be used in conjunction with bone graft material. Over time, the packed graft is gradually replaced by natural bone, forming a solid piece. IB fusion procedures typically add a posterior fixation device to the associated level. These procedures are often referred to as 360° fusions, as surgeons will implant interbody devices from an anterior approach and flip the patient over to implant a posterior pedicle screw device. This combination increases the fusion success rate over standalone interbody fusion device implantation without the addition of fixation devices.

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