NOVO SAFE-VPX
Vertebroplasty with spiral thruster for dose control and
X-Grid™ safety and precision matrix.
Simple and effective
The Kit for SAFE-VPX vertebroplasty é composto por cânula de punção vertebral, propulsor espiral robusto, com sistema rotativo de controle de dose, extensor, funil e matriz de segurança e precisão X-Grid™.
The kit allows access to the fractured vertebra for bone cement injection safely and accurately, through the navigation and access matrix, increasing precision, reducing the amount of radiation required and the time taken to locate the target.
O kit também conta com um robusto sistema de propulsão espiral de cimento, para controle preciso de dose e linha extensora, para manter as mãos do cirurgião afastadas da fonte de radiação, durante o procedimento.
Features
- X-Grid™ Precision and Safety Matrix.
- Puncture cannula with lock, which keeps the cannula-mandrel system tight and aligned during insertion, connector luer-lock for extension, graduation in centimeters to check the depth of advance of the cannula and tip type Franseen, the laser-cut cannula provides a better trajectory, a smooth transition from the soft tissue to the bone structure and greater stability in the positioning of the cannula.
- 10ml dose-controlled spiral thruster with markings and 250mm extender, which together provide a light, compact and highly efficient system for using bone cement, retaining less volume in the path and allowing the surgeon's hands to be distanced from the radiation source during cement injection via the extension. Each complete revolution of the propellant represents 1ml of cement injected.
X-Grid™
Vertebral body cementation procedures pose radiation exposure risks that can be avoided with appropriate protective measures.
The Precision and Safety Matrix X-Grid™ is a unique and patented solution for reducing the need for x-rays in the operating room and improve accuracy for target location, providing faster and safer cases, making it an indispensable resource for safety and precision in fluoroscopy-guided percutaneous surgical procedures.
Bibliographical references
- A. von Wrangel, Å. Cederblad & M. Rodriguez-Catarino (2009) Fluoroscopically Guided Percutaneous Vertebroplasty: Assessment of Radiation Doses and Implementation of Procedural Routines to Reduce Operator Exposure, Acta Radiologica, 50:5, 490-496
- Kim, et al: Use of a radiopaque localizer grid to reduce radiation exposure. Annals of Surg Innovand Research 2011, 5:6.
- Rampersaud RY, et al: Radiation exposure to the spine surgeon during fluoroscopically assisted pedicle screw insertion. Spine 2000; 25:2637-45.
- Tsai KJ, et al: Multiple parallel skin markers for minimal incision lumbar disc surgery; a technical note. BMC Musculoskeletal Disorders 2004, 5:8.
- Upadhyaya CD, et al: Avoidance of wrong-level thoracic spine surgery: an intraoperative localization with preoperative percutaneous fiducial screw placement. J Neurosurg Spine 2012;16:280-284
Contact
Rua Frei Caneca, 558 – São Paulo – SP - Brazil
+55 11 2609-7300
sac@innport.com.br