Exclusive Outpatient Distributor of Myriad Matrix™ Restore
Why Myriad Matrix™ Restore?
- Residual vascular channels that support endothelial cell migration2,7
- Delicate processing preserves native tissue structure and biological function and reduces the risk of inflammation due to cross-linking1,4,5
- Built on trusted AROA ECM™ technology1-3
How It Works: Place → Absorb → Remodel1-3
- Immediate absorption of blood, blood components, and cells upon placement1,2,6
- Facilitates cellular infiltration by fibroblasts, endothelial, and immune cells1,2
- Progressive remodeling as Myriad Matrix™ Restore is replaced by the patient’s own tissue1-3
Designed for Clinical Confidence
- Strong, soft, drapable, and conforming1,4
- Rehydrates quickly1,6
- Easy to cut, suture, or staple3,4
- Resists suture pull-out3,4
A Proven Foundation For Restorative Healing
Clinical Applications
Myriad Matrix™ Restore is suitable for a wide range of procedures to facilitate the restoration of functional tissue, including:
- Complex and challenging wounds1-3
- Exposed bone or tendon1-3
- Impaired or compromised healing2,7
Ordering Information – A2032
- Code Description
- SR02LG002D Myriad Matrix™ Restore, Soft Tissue Matrix 16mm disc
- SR02LG004S Myriad Matrix™ Restore, Soft Tissue Matrix 2cm x 2cm
- SR02LG006R Myriad Matrix™ Restore, Soft Tissue Matrix 2cm x 3cm
- SR02LG012R Myriad Matrix™ Restore, Soft Tissue Matrix 4cm x 3cm
- SR02LG016S Myriad Matrix™ Restore, Soft Tissue Matrix 4cm x 4cm
- SR02LG032R Myriad Matrix™ Restore, Soft Tissue Matrix 4cm x 8cm
- SR02LG025S Myriad Matrix™ Restore, Soft Tissue Matrix 5cm x 5cm
REFERENCES
1. Lun, S., et al., A functional extracellular matrix biomaterial derived from ovine forestomach. Biomaterials, 2010. 31(16): p. 4517-29. 2. Irvine, S.M., et al., Quantification of in vitro and in vivo. angiogenesis stimulated by ovine forestomach matrix biomaterial. Biomaterials, 2011. 32(27): p. 6351-61. 2011;32(27):6351-61. 3. Chaffin, A.E., et al. Multi-Centre Clinical Evaluation of a Cell Conductive Extracellular Matrix Surgical Mesh in Plastics and Reconstructive Surgery – A Case Series. in 41st Annual Boswick Burn & Wound Symposium. 2019. Wailea Beach, Maui, HI. 4. Sizeland, K.H., et al., Collagen Fibril Response to Strain in Scaffolds from Ovine Forestomach for Tissue Engineering. ACS Biomater. Sci. Eng., 2017. 3(10): p. 2550–2558. 5. Dempsey, S.G., et al., Functional Insights from the Proteomic Inventory of Ovine Forestomach Matrix. J Proteome Res, 2019. 18(4): p. 1657-1668. 6. Data on file. 7. Greaves, N.S., et al., Acute cutaneous wounds treated with human decellularised dermis show enhanced angiogenesis during healing. PLoS One, 2015. 10(1): p. e0113209.
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About Royal
Royal is a pioneering leader in orthobiologic and wound care research and development. Royal’s commitment lies in delivering top-tier, innovative biologic solutions that enhance the healing process and improve patients' quality of life. Royal places patient well-being at the center of its mission, offering exceptional solutions to address a variety of complex needs.
At Royal, our mission is driven by patient-centered care, innovation and excellence, and integrity and compassion. Royal provides a comprehensive array of products tailored to meet the varied needs of the orthobiologic and wound care industry.
As a rapidly expanding force in the industry, Royal is continuously developing and launching new products and solutions that set benchmarks for quality, effectiveness, and patient outcomes. Royal’s commitment to research and innovation keeps it at the forefront of the industry, helping to shape the future of healthcare and improving lives.