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AmnioGraft, an amniotic membrane graft, helps rapidly restore the healthy ocular surface when used during ocular surface reconstruction surgery, especially with pterygium and conjunctivochalasis (CCh) procedures. Delivering the unique therapeutic advantage of cryopreserved amniotic membrane tissue, AmnioGraft can help your patients achieve superior cosmetic outcomes and maximize longterm results.3,4,6,7
AmnioGraft® serves as a tissue replacement that also delivers the unique therapeutics actions of cryopreserved amniotic membrane. It contains the only amniotic membrane tissue with high tensile strength that retains intraoperative resilience and workability8 and ensures reproducible surgical outcomes.
Support Accelerated Post-Op Recovery1
AmnioGraft® expedites patient recovery by reducing inflammation5,9-11 and promoting fast, regenerative healing – typically within 2-3 weeks1-7. It helps prevents disease recurrence 1,2,6-8 as demonstrated in a study of 535 patients. AmnioGraft creates a durable recurrence barrier proven to support sustained healing with ≤5.8%* recurrence after 1 year1.
Creating a Healing Environment
AmnioGraft contains the only cryopreserved amniotic membrane that is FDA-cleared and designated for anti-inflammation, anti-scarring and anti-angiogenesis. Proprietary CryoTek preservation method retains the biologic properties and structural integrity is equivalent to fresh tissue2,12.
“Dry eye disease isn’t just simply a problem with quantitative tear film, meaning a low tear volume. Dry eye can also be from an abnormal tear film where you have tears, but they’re either unhealthy, or they’re not getting to the location that they need to, and one of the classic examples is what we call ‘Conjunctivochalasis’ or Mechanical Dry Eye.”
“We’ve all had the paradoxical patient that seems to have dry eye and typical ocular surface disease, but they simply don’t respond to all of the typical conventional therapies…there is a missing x-factor. And that x-factor is this Mechanical Dry Eye concept, or conjunctivochalasis.”
“Mechanical Dry Eye is rampant; it’s almost ubiquitous in individuals over the Medicare age of 65, and we have to look for it. The key is making the diagnosis. I get fooled still. I look, white light shining the slit beam across, and I’m thinking to myself, ‘Oh, there’s not a whole lot of redundant conjunctiva here.’ I put the fluorescein in, I turn on the cobalt blue light, and then even better, I put a yellow filter on the other side of the microscope, and it highlights the redundant fold of the conjunctiva.”
1 Rosen R. Amniotic membrane grafts to reduce pterygium recurrence. Cornea. 2017;0:1–5.
2 Cooke M, Tan EK, Mandrycky C, et al. Comparison of cryopreserved amniotic membrane and umbilical cord tissue with dehydrated amniotic membrane/chorion tissue. J Wound Care. 2014;23(10):465-476.
3 Kheirkhah A, Casas V, Esquenazi S, et al. New surgical approach for superior conjunctivochalasis. Cornea. 2007;26(6):685-691.
4 Kheirkhah A, Casas V, Blanco G, Li W, Hayashida Y, Chen YT, Tseng SC. Amniotic membrane transplantation with fibrin glue for conjunctivochalasis. Am J Ophthalmol. 2007;144(2):311-3.
5 Tseng S, Espana E, Kawakita T, et al. How does amniotic membrane work? The Ocular Surface. 2004; 2(3):177-187.
6 Solomon A, Pires RTF, Tseng SCG. Amniotic membrane transplantation after extensive removal of primary and recurrent pterygia. Ophthalmology. 2001;108:449-460.
7 Georgiadis NS, Terzidou CD. Epiphora caused by conjunctivochalasis: treatment with transplantation of preserved human amniotic membrane. Cornea. 2001; 20(6):619-621.
8 Desai NR, The Tissue Tuck™ Technique: Sutureless pterygium surgery with AmnioGraft reduces recurrence rate to less than 1%. Opthalmol Manag. 2015. http://www.visioncareprofessional.com/emails/omd/corneaeupdate/6/index.html. Accessed September 19, 2019.
9 Shay E, He H, Sakurai S, Tseng SC. Inhibition of angiogenesis by HC·HA, a complex of hyaluronan and the heavy chain of inter-α-inhibitor, purified from human amniotic membrane. Invest Ophthalmol Vis Sci. 2011; 52(5): 2669–2678.
10 Zhang S, He H, Day AJ, Tseng SC. Constitutive expression of inter-α-inhibitor (IαI) family proteins and tumor necrosis factor-stimulated gene-6 (TSG-6) by human amniotic membrane epithelial and stromal cells supporting formation of the heavy chain-hyaluronan (HC-HA) complex. J Biol Chem. 2012;287(15):12433-1244.
11 He H, Zhang S, Tighe S, Son J, Tseng SC. Immobilized HC-HA polarizes LPS-activated macrophages toward M2 phenotype. J Biol Chem. 2013; 288(36): 25792–25803.
12 Tan EK, Cooke M, Mandrycky C, et al. Structural and biological comparison of cryopreserved and fresh amniotic
membrane tissues. J Biomater Tissue Eng. 2014;(4):379–388.
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Bio-Tissue, Inc. and its affiliates furnish this allograft product without any express or implied warranties. All statements or descriptions are informational only and are not to be interpreted or implied as a warranty of the allograft product. Bio-Tissue, Inc. and its affiliates make no guarantee regarding the biological characteristics of this product. The end user shall be held responsible for determining the appropriate application and usage of this product.