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Absorbed + replaced by bone1-3

A micro-class anchor with a shallow drill depth that can be absorbed and effectively replaced by bone in 24 months,1-3 while providing a solid finished construct. Utilizing REGENESORB Technology, made of a novel poly (PLGA)-based biocomposite material containing ß-tricalcium phosphate (ß-TCP) and calcium sulfate, both previously demonstrated to be osteoconductive.4-7

Designed to provide a jump-start in bone healing.

Caracteristicas do produto

Surgical Techniques

Medical Education

Disclaimer

*Benchtop testing performed in 2018.

**As demonstrated in vitro.

***Demonstrated clinically and in vivo.

*****As demonstrated in a cadaveric study.

Most biocomposite materials rely solely on the osteoconductive properties of ß-TCP.6,7 REGENESORB material contains two osteoconductive components – ß-TCP and calcium sulfate – which act during different stages in the bone healing process and through different mechanisms of action: physical and biochemical. REGENESORB Material is unique in this regard.5,12,13

MICRORAPTOR REGENESORB Suture Anchors are intended to be used for soft tissue to bone fixation for:

  • Shoulder: Capsular stabilisation including Bankart repair, anterior instability; SLAP lesion repair; capsular shift or capsulolabral reconstructions; biceps tenodesis.
  • Hip: Acetabular labrum repair.
  • Citations
    1. Vonhoegen J, et al. Orthop Traumatol Surg Res. 2019;14(1):12.
    2. Smith+Nephew 2010. Internal report. WRP-TE045-700-08.
    3. Smith+Nephew 2016. Internal report. NCS248
    4. Hak DJ. J Am Acad Orthop Surg. 2007;15(9):525-536.
    5. Allison DC, et al. US Oncology and Hematolog. 2011.
    6. Constantino, F. Otolaryngol Clin North Am. 1994 27(5):1037-1074.
    7. Ogose A, et al. J Biomed Mater Res B Appl Biomater. 2005;72(1):94-101.
    8. Smith+Nephew 2018. Internal report. 15007769 Rev A.
    9. Smith+Nephew 2019. Internal report. 15007134.
    10. Smith+Nephew 2019. Internal report. 15007045.
    11. Smith+Nephew 2018. Internal report. 15007391 Rev A.
    12. Walsh WR, et al. Clin Orthop Relat Res. 2003(406):228-236.
    13. Ogose A, et al. Biomaterials. 2006;27(8):1542-1549.

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