Catalog Biomaterials 2021

Biomaterials Product catalog 2021 | 23 References [1] Data on file, Shu-Thung Li, Ph. D. et al.: Isolation and Characterization of a Porous Carbonate Apatite From Porcine Cancellous Bone. Science, Technology, Innovation, Aug. 2014: 1–13. [2] Shu-Tung Li, Hui-Chen Chen and Debbie Yuen: Comparison of a New Natural Bovine Bone Mineral (Carbonate Apatite Anorganic Bone) to Currently Marketed NuOss™ and Bio-Oss®: In Vitro and In Vivo Evaluations. Collagen Matrix, Inc., Oakland, New Jersey 07436. [3] Gonshor A, Chris L Tye: Evaluation of Anorganic Bovine Bone Mineral in Post-extraction Alveolar Sockets: A Case Series. Journal of Osseointegration, March 2010; 1(2). [4] I. Sopyana, M. Melb, S. Rameshc, K.A. Khalidd: Porous hydroxyapatite for artificial bone applications. Science and Technology of Advanced Materials 8 (2007); 116–123. [5] Data on file, Li ST, Yuen D, Martin D, Lee NS: A comparative study of a new porcine collagen membrane to BioGide®. Science, Technology, Innovation. February 1–5, 2015. [6] Renzo Guarnieri et al.: Histologic evaluation of bone healing of adjacent alveolar sockets grafted with bovine- and porcine-derived bone: a comparative case report in humans. Regenerative Biomaterials, 2017, 1–4 doi: 10.1093/rb/rbx002. [7] Data on file, Debbie Yuen et al.: Prediction of in vivo stability of a resorbable, reconstituted type I collagen membrane by in vitro methods. World Biomaterials Congress Transactions, Sixth World Biomaterials Congress Transactions. Collagen Matrix Inc., Franklin Lakes, NJ 07417 USA [8] Yuen D, Junchaya et al.: A resorbable, reconstituted type I collagen membrane for guided tissue regeneration and soft tissue augmentation. Society for Biomaterials. 2000; 1228. [9] Data on file, Allergan. NovoMatrix™ – Mechanical testing, Preclinical Data. [10] Data on file, Allergan. INT/0204/2018. [11] Suárez-López Del Amo F, Rodriguez JC, Asa‘ad F, Wang HL. Comparison of two soft tissue substitutes for the treatment of gingival recession defects: an animal histological study. J Appl Oral Sci., 2019;27:e20180584. [12] Reference manufacturer’s Instructions for Use (IFU) package insert. [13] Griffin T, Cheung W, Athanasios Z, Damoulis P. Postoperative Complications Following Gingival Augmentation Procedures. J Periodontology 2006;77:2070-2079. [14] Aguirre-Zorzano LA, García-De La Fuente AM, Estefanía-Fresco R, Marichalar-Mendía X. Complications of harvesting a connective tissue graft from the palate. A retrospective study and description of a new technique. J Clin Exp Dent. 2017;9(12):e1439-45. [15] Tavelli L, Asa’ad F, Acunzo R, Pagni G, Consonni D, Rasperini G. Minimizing Patient Morbidity Following Palatal Gingival Harvesting: A Randomized Controlled Clinical Study. The International Journal of Periodontics & Restorative Dentistry 38(6):e127-e134 · November 2018. [16] Harper JR, McQuillan DJ. Extracellular wound matrices: a novel regenerative tissue matrix (RTM) technology for connective tissue reconstruction. Wounds. 2007;19(6):163-168. [17] Sandor M, Leamy P, Assan P, et al. Relevant in vitro predictors of human acellular dermal matrix-associated inflammation and capsule formation in a nonhuman primate subcutaneous tissue expander model. Eplasty. 2017;17:e1-e21. [18] Xu H, Wan H, Sandor M, et al. Host response to human acellular dermal matrix transplantation in a primate model abdominal wall repair. Tissue Eng Part A. 2008;14(2):2009-2019. [19] Van Orten A. Peri-implant thickening of soft tissue – stable and functional. Implantologie Journal 5 | 2020. [20] Sandor M, Xu H, Connor J, et al. Host response to implanted porcine-derived biologic materials in a primate model of abdominal wall repair. Tissue Eng Part A. 2008;14(12):2021-2031. [21] Data on file, Allergan. LRD2011-08-015. [22] Data on file, Allergan. LRD2013-02-004. [23] Nuyttens BP et al.: Platelet adhesion to collagen. Thromb Res. 2011 Jan; 127. [24] Scott J. Roberts et al.: The combined bone forming capacity of human periosteal derived cells and calcium phosphates. Biomaterials 32, 2011; 4393–4405.