Artifacts in spine magnetic resonance imaging due to different intervertebral test spacers: an in vitro evaluation of magnesium versus titanium and carbon-fiber-reinforced polymers as biomaterials. - Test2 - elhamkhani - TriplyDB

Artifacts in spine magnetic resonance imaging due to different intervertebral test spacers: an in vitro evaluation of magnesium versus titanium and carbon-fiber-reinforced polymers as biomaterials.

Artifacts in spine magnetic resonance imaging due to different intervertebral test spacers: an in vitro evaluation of magnesium versus titanium and carbon-fiber-reinforced polymers as biomaterials.

http://www.wikidata.org/entity/Q41908596

about

Artifacts in magnetic resonance imaging Is the radiographic subsidence of stand-alone cages associated with adverse clinical outcomes after cervical spine fusion? An observational cohort study with 2-year follow-up outcome scoring.Biodegradable magnesium Herbert screw - image quality and artifacts with radiography, CT and MRI.Design and development of novel MRI compatible zirconium- ruthenium alloys with ultralow magnetic susceptibility Application of carbon fibers to biomaterials: a new era of nano-level control of carbon fibers after 30-years of development.Advances in MRI around metal.Recent advances in biodegradable metals for medical sutures: a critical review.MR-compatible antibiotic interlocked nail fabrication for the management of long bone infections: first case report of a new technique Early results using a biodegradable magnesium screw for modified chevron osteotomies.Interactions between magnetic resonance imaging and dental material Zinc-based alloys for degradable vascular stent applications.Metal-induced artifacts in computed tomography and magnetic resonance imaging: comparison of a biodegradable magnesium alloy versus titanium and stainless steel controls.

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P2860

Artifacts in spine magnetic resonance imaging due to different intervertebral test spacers: an in vitro evaluation of magnesium versus titanium and carbon-fiber-reinforced polymers as biomaterials.

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Gabert Heidrich

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Gottfried Buchhorn

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Thorsten Ernstberger

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P2860

The postoperative spine.

A carbon fiber implant to aid interbody lumbar fusion. Two-year clinical results in the first 26 patients.

Review article: MRI of the postoperative lumbar spine.

Magnesium and its alloys as orthopedic biomaterials: a review.

Single-stage treatment of pyogenic spinal infection with titanium mesh cages.

The interobserver-validated relevance of intervertebral spacer materials in MRI artifacting.

A comparison of magnetic resonance and computed tomographic image quality after the implantation of tantalum and titanium spinal instrumentation.

Postoperative magnetic resonance imaging with titanium implants of the thoracic and lumbar spine.

Metallic spinal artifacts in magnetic resonance imaging.

Postimplantation MRI with cylindric and cubic intervertebral test implants: evaluation of implant shape, material, and volume in MRI artifacting--an in vitro study.

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