Evidence

Peer-Reviewed Clinical Studies | Conference Proceedings | Pre-Clinical Studies

 

Peer-Reviewed Clinical Studies

Simcock, J. and B. C. May (2013). “Ovine forestomach matrix as a substrate for single-stage split-thickness graft reconstruction.” Eplasty 13: e58.|full-text available|

 

Conference Proceedings

|full-text available|

 

2019

Chaffin, A. E. and G. Bohn (2019). Clinical Evaluation of an Extracellular Matrix Surgical Graft for Reconstructive Surgery over Exposed Bone or Tendon. Symposium for Advanced Wound Care – Fall, Las Vegas, NV.

Ferreras, D. T. and R. L. Crump (2019). Use of a High-Density ECM for the Management of Deep Diabetic Foot Ulcers: A Case Series. Symposium for Advanced Wound Care – Fall, Las Vegas, NV.

Chaffin, A. E., A. M. Aballay, G. A. Bohn, P. M. Glat, M. N. Desvigne and B. C. May (2019). Multi-Centre Clinical Evaluation of a Cell Conductive Extracellular Matrix Surgical Mesh in Plastics and Reconstructive Surgery – A Case Series. SESPRS 62nd Annual Scientific Meeting, Naples, Florida.

Chaffin, A. E., A. M. Aballay, G. A. Bohn, P. M. Glat, M. N. Desvigne and B. C. H. May (2019). Multi-Centre Clinical Evaluation of a Cell Conductive Extracellular Matrix Surgical Mesh in Plastics and Reconstructive Surgery – A Case Series. 41st Annual Boswick Burn & Wound Symposium, Wailea Beach, Maui, HI.

 

Pre-Clinical Studies

Overbeck, N., G. M. Nagvajara, S. Ferzoco, B. C. H. May, A. Beierschmitt and S. Qi (2020). “In-vivo evaluation of a reinforced ovine biologic: a comparative study to available hernia mesh repair materials.” Hernia |full-text available|

Dempsey, S. G., C. H. Miller, R. C. Hill, K. C. Hansen and B. C. H. May (2019). “Functional Insights from the Proteomic Inventory of Ovine Forestomach Matrix.” J Proteome Res 18(4): 1657-1668.|full-text available|

Karnik, T., S. G. Dempsey, M. J. Jerram, A. Nagarajan, R. Rajam, B. C. H. May and C. H. Miller (2019). “Ionic silver functionalized ovine forestomach matrix – a non-cytotoxic antimicrobial biomaterial for tissue regeneration applications.” Biomater Res 23: 6. |full-text available|

Frost, S. J., D. Mawad, R. Wuhrer, S. Myers and A. Lauto (2018). “Semitransparent bandages based on chitosan and extracellular matrix for photochemical tissue bonding.” Biomed Eng Online 17(1): 7. |full-text available|

Sizeland, K. H., H. C. Wells, S. J. R. Kelly, K. E. Nesdale, B. C. H. May, S. G. Dempsey, C. H. Miller, N. Kirby, A. Hawley, S. Mudie, T. Ryan, D. Cookson and R. G. Haverkamp (2017). “Collagen Fibril Response to Strain in Scaffolds from Ovine Forestomach for Tissue Engineering.” ACS Biomater. Sci. Eng. 3(10): 2550–2558. |abstract only|

Street, M., A. Thambyah, M. Dray, S. Amirapu, D. Tuari, K. E. Callon, J. D. McIntosh, K. Burkert, P. R. Dunbar, B. Coleman, J. Cornish and D. S. Musson (2015). “Augmentation with an ovine forestomach matrix scaffold improves histological outcomes of rotator cuff repair in a rat model.” J Orthop Surg Res 10: 165. |abstract only|

Negron, L., S. Lun and B. C. H. May (2014). “Ovine forestomach matrix biomaterial is a broad spectrum inhibitor of matrix metalloproteinases and neutrophil elastase.” Int Wound J 11(4): 392-397. |abstract only|

Irvine, S. M., 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. Cunningham, C. Knight, P. F. Davis, B. R. Ward and B. C. H. May (2011). “Quantification of in vitro and in vivo angiogenesis stimulated by ovine forestomach matrix biomaterial.” Biomaterials 32(27): 6351-6361. |abstract only|

Floden, E. W., S. F. Malak, M. M. Basil-Jones, L. Negron, J. N. Fisher, S. Lun, S. G. Dempsey, R. G. Haverkamp, B. R. Ward and B. C. May (2010). “Biophysical characterization of ovine forestomach extracellular matrix biomaterials.” J Biomed Mater Res B Appl Biomater 96(1): 67-75. |abstract only|

Lun, S., 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. H. May (2010). “A functional extracellular matrix biomaterial derived from ovine forestomach.” Biomaterials 31(16): 4517-4529. |abstract only|