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  • Minimally Invasive Vertebral Compression Fracture (VCF) Treatment

    With over 20 years of commitment to procedural options and clinical evidence, Medtronic's balloon kyphoplasty empowers you to treat VCF patients with the unmatched innovations of a reliable, robust product platform. Treating VCF with Balloon Kyphoplasty Balloon kyphoplasty uses orthopedic balloons to restore vertebral height and correct angular deformity from VCF due to osteoporosis, cancer, or benign lesions. After reduction, the balloons are deflated and removed. The resulting cavity allows for a controlled deposition of bone cement to form an internal cast and stabilize the fracture. Key Features of the Kyphon™ Balloon Kyphoplasty Platform
    • 700 psi max rated inflation pressure, higher than previous 400 psi rated balloons.*
    • Cement resistance technique lets you deliver cement through one cannula while the contralateral balloon remains inflated to maintain fracture reduction.
    • Kyphon™ cement delivery system (CDS) lets you deliver cement from up to 48 inches away from the radiation source during a kyphoplasty procedure.
    * Kyphon Express™ II and Kyphon Xpander™ II ITBs have a maximum pressure rating of 700 psi while Kyphon Express™ II and Kyphon Xpander™ first generation ITBs have a maximum pressure rating of 400 psi.
  • Minimally Invasive Vertebral Compression Fracture (VCF) Treatment

    The Kyphon™ V Premium vertebroplasty platform is designed to facilitate maximum precision of high viscosity cement placement with minimal radiation exposure.1-4 Maximum Precision, Minimum Exposure With the Kyphon™ cement delivery system, the Kyphon V™ premium vertebroplasty system allows you to:1-3
    • Minimize radiation exposure2 by standing up to four feet away from the radiation source, which has been measured to reduce hand radiation exposure by 70% (compared to Kyphon™ bone filler device when measured with dosimeters under fluoroscopy)*
    • Stop cement flow instantly3 by pushing the quick release button to minimize the potential for cement extravasation

    * The mean radiation reduction at the hands was 77.79% (p<0.001). Based on an internal testing of 24 total cadaveric procedures (n=12 using Kyphon CDS and n=12 using Kyphon Bone Filler Device). Dosimeters were placed on the wrist and fingers to measure radiation when delivering bone cement into the vertebral body. Radiation result reported is based on adherence to the Directions for Use.

    1 Medtronic Data on File – Kyphon V Premium Vertebroplasty 2 Medtronic Data on File – Kyphon Cement Delivery System 3 Medtronic Data on File – Engineering Test Report 4 Medtronic Data on File – Kyphon Kurve

  • Dynamic stabilisation with the “G” Device implant for the treatment of lumbar spinal stenosis: The Device helps to support and stabilise the spine after decompression Surgery or it can be used solely as a spinal support to assist in maintaining the normal extension of the spine, thus helping to alleviate pressure on exiting nerve roots at the affected level. The advantages of the “G” Device over other similar devices is that it can be Implanted at L5/S1. It is shorter with a curved base to allow this particular level to be dealt with, and this design feature allows it to be implanted lower in the interspinous space, making it generally more stable & secure and allowing for more defined distraction. In addition, the device has clearly defined “teeth” to give it increased stability in situ.
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  • The frozen Semi-T (Semitendinosus) Double Strand Tendon provides surgeons with the ability to reconstruct a torn ligament - the Semitendinosus in particular, is commonly used for ankle stabilisation. A very common occurrence for patients who have suffered a traumatic ligament tear is to experience laxity, which can heavily impede on their ability to remain active. The unique nature of using a frozen double strand tendon during reconstruction of cruciate ligaments, can help considerably with repairing and stabilising the ligament, and is why the double strand is so effective in the reconstruction of torn ligaments. There are numerous benefits of using our Frozen Semi-T Double Strand Tendons for reconstruction surgery, in particular, eliminating the need of harvesting autograft, thus removing additional pain and surgical scars, as well as providing the surgeon with the best fixation technique - to name a few.
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  • Although part of the hamstring, the Semitendinosus Tendon is commonly used for Ankle Stabilisation and Achilles Tendon Repair. We supply a high-quality frozen and professionally sterilised Semi-T Achilles Tendon for use in surgical operations to repair the Achilles Tendon. In particular for chronic tears of the Achilles tendon, when there is a gap of more than 5cm, it is most usually recommended that a primary tendon reconstruction via transfer of an allograft is undertaken. This is used in order to replace the missing tissue, due to the lack of healthy tissue in order to perform the repair directly. The surgical process involves drilling a tunnel into the base of the calcaneus and the harvested tendon is then fed through the tunnel and both stitched and screwed in place.
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  • The Anterior Tibialis is an incredibly strong tendon responsible for flexion in the foot. In regards to their use as allografts, our Frozen Anterior Tibialis Tendon is most commonly used for tendon reconstruction procedures including the ACL (Anterior Cruciate Ligament) and UCL (Ulnar Collateral Ligament). Less commonly, it can also be used for ankle stabilisation, ligament repair, joint, and bicep ruptures. Recent research has found the use of freeze-dried tibialis anterior allografts achieved 'excellent to good clinical outcomes' (according to Tegner-Lysholm grading scale) when used for tibial fixation in ACL reconstruction and revision ACL surgeries. Prior to this, four-strand hamstring autograft was most commonly used for ACL reconstruction, however the research found that upon providing patients with the information surrounding additional benefits of using tibialis anterior allografts - the majority of patients chose the allograft option. Further information can be found on the published research findings here. Alongside them being preferred by patients, there are multiple benefits for Physicians using the Frozen Anterior Tibialis Tendon in ACL reconstruction, including but not limited to; Allowing the Physician to predetermine the diameter size of tunnels, predetermine graft length for the procedure and allowing for various fixation techniques.
  • Seaspine Ballast
    Ballast is an easy-to-deliver, inductive bone graft used for posterior spinal fusion procedures. It is designed to contour and maximise contact with the anatomy whilst still maintaining shape and volume under compression. Key features:
    • Delivers a large, consistent volume of graft (6-9cc per level per side)
    • Withstands compressive forces of the Paraspinal Muscles and does not flatten or displace
    • Maximises Osteoinductive potential with 100% DBM, within the mesh pouch, in a challenging application
    • Contours around spinal hardware and anatomy
    • Simple to deliver and position in the Posterolateral Gutters