Myriad Matrix™ extracellular matrix (ECM)

Myriad Matrix is an engineered extracellular matrix (ECM) for soft tissue repair and complex wounds. Myriad Matrix has been specifically designed to help maximise tissue repair while providing versatility and adaptability across a wide range of surgical applications.

Myriad Matrix is designed to be easily customisable for a wide range of anatomical sites and surgical needs.

  • Myriad Matrix is strong, soft, pliable, and conforming
  • Myriad Matrix™ rehydrates quickly and is easy to cut, suture or staple
  • Myriad Matrix helps to achieve surgical mastery in routine and challenging dermal repair procedures

How It Works

Myriad Matrix™ devices contain the natural porous structure of AROA ECM™, engineered with interstitial perforations to enable cell infiltration to facilitate rapid healing.

Fast absorption of blood & cells accelerates host cell infiltration

The rapid absorption of blood and blood components forms a reservoir of biologically important cells and cell components to help kick-start the tissue repair process.(1-4) Fibroblast, endothelial and immune cells infiltrate the entire matrix, build new tissue and over time Myriad Matrix™ is completely remodelled by the patient’s own tissue.(3, 4)

Delivers biology known to be important in healing

Myriad Matrix™ retains the authentic structure and complexity of natural tissue ECM and provides biological cues to aid the repair process.(5) Myriad Matrix™ contains more than 150 ECM proteins, including collagen and other secondary molecules that exist in tissue and aid the healing process.(6)

Contains residual vascular channels

Angioconduction is the structural effect of vascular channels on endothelial cells to support blood vessel development. Myriad Matrix™ promotes angioconduction via the residual vascular channels within the Aroa ECM™ source biomaterial, helping to facilitate the rapid establishment of a dense capillary network.(7, 8)


Myriad Matrix™ is indicated for the management of acute and chronic wounds, including:

  • Partial and full thickness wounds
  • Pressure ulcers
  • Venous ulcers
  • Diabetic ulcers
  • Chronic vascular ulcers
  • Tunneled/ undermined wounds
  • Surgical wounds (donor sites, grafts, post Moh’s surgery, post laser surgery, podiatric, wound dehiscence)
  • Trauma wounds (abrasions, lacerations, second-degree burns, and skin tears)
  • Draining wounds

1. G. A. Bohn and A. E. Chaffin: Extracellular matrix graft for reconstruction over exposed structures: a pilot case series. J Wound Care, 29(12), 742-749 (2020) doi:10.12968/jowc.2020.29.12.742 2. A. E. Chaffin and M. C. Buckley: Extracellular matrix graft for the surgical management of Hurley stage III hidradenitis suppurativa: a pilot case series. J Wound Care, 29(11), 624-630 (2020) doi:10.12968/jowc.2020.29.11.624 3. S. M. Irvine, J. Cayzer, E. M. Todd, S. Lun, E. W. Floden, L. Negron, J. N. Fisher, S. G. Dempsey, A. Alexander, M. C. Hill, A. O’Rouke, S. P. Gunningham, C. Knight, P. F. Davis, B. R. Ward and B. C. H. May: Quantification of in vitro and in vivo angiogenesis stimulated by ovine forestomach matrix biomaterial. Biomaterials, 32(27), 6351-61 (2011) doi:l10.1016/j.biomaterials.2011.05.040 4. N. Overbeck, G. M. Nagvajara, S. Ferzoco, B. C. H. May, A. Beierschmitt and S. Qi: In-vivo evaluation of a reinforced ovine biologic: a comparative study to available hernia mesh repair materials. Hernia, 10.1007/s10029-019-02119-z (2020) 5. S. Lun, S. M. Irvine, K. D. Johnson, N. J. Fisher, E. W. Floden, L. Negron, S. G. Dempsey, R. J. McLaughlin, M. Vasudevamurthy, B. R. Ward and B. C. May: A functional extracellular matrix biomaterial derived from ovine forestomach. Biomaterials, 31(16), 4517-29 (2010) doi:10.1016/j.biomaterials.2010.02.025 6. S. G. Dempsey, C. H. Miller, R. C. Hill, K. C. Hansen and B. C. H. May: Functional Insights from the Proteomic Inventory of Ovine Forestomach Matrix. J Proteome Res, 18(4), 1657-1668 (2019) doi:10.1021/acs.jproteome.8b00908 7. Data on file 8. N. S. Greaves, S. A. Lqbal, J. Morris, B. Benatar, T. Alonso-Rasgado, M. Baguneid and A. Bayat: Acute cutaneous wounds treated with human decellularised dermis show enhanced angiogenesis during healing. PLoS One, 10(1), e0113209 (2015) doi:10.1371/journal.pone.0113209

Myriad brochure


Product Code Description UOM Minimum Order Qty Shelf Life Lead Time
SR03LG0505US Myriad Thin 5x5cm 1 1 2 years Same Day / Next Day Options
SR03LG1010US Myriad Thin 10x10cm 1 1 2 years Same Day / Next Day Options
SR03LG1020US Myriad Thin 10x20cm 1 1 2 years Same Day / Next Day Options
SR05LG0505US Myriad Thick 5x5cm 1 1 2 years Same Day / Next Day Options
SR05LG1010US Myriad Thick 10x10cm 1 1 2 years Same Day / Next Day Options
SR05LG1020US Myriad Thick 10x20cm 1 1 2 years Same Day / Next Day Options

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