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WELCOME TO FERENTIS | ||
| Ferentis’ primary commercial focus is hydrogel products and kits for in vitro cell and tissue culture applications. We will also assist our clients in custom-design of biomimetic materials as templates for stimulating regeneration of target tissues and organs for potential clinical application. Our target customers are scientific institutions, biopharma and the consumer products industry. Our products provide innovative solutions for professionals who are working in the fields of cell research, regenerative medicine, testing and production of drugs, cosmetic and other bioactive products.
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PUBLICATIONS | |
| Balion, Z., Svirskienė, N., Svirskis, G., Inokaitis, H., Cėpla, V., Ulčinas, A., Jelinskas T., Eimont R., Paužienė, N., Valiokas, R., Jekabsone, A. |
| Miksiunas, R., Aldonyte, R., Vailionyte, A., Jelinskas, T., Eimont, R., Stankeviciene, G., Cepla, V., Valiokas, R., Rucinskas, K., Janusauskas, V., Labeit, S., Bironaite, D. Cardiomyogenic Differentiation Potential of Human Dilated Myocardium-Derived Mesenchymal Stem/Stromal Cells: The Impact of HDAC Inhibitor SAHA and Biomimetic Matrices. Int. J. Mol. Sci. 2021, 22, 12702. https://doi.org/10.3390/ijms222312702 |
| Van Acker, S.I., Van den Bogerd, B., Van Acker, Z.P., Vailionytė, A., Haagdorens, M., Koppen, C., Ní Dhubhghaill, S., Dartt, D.A., Pintelon, I. Characterisation of Gel-Forming Mucins Produced In Vivo and In Ex Vivo Conjunctival Explant Cultures. International Journal of Molecular Sciences. 2021; 22(19):10528. https://doi.org/10.3390/ijms221910528 |
| Žiniauskaitė A, Cėpla V, Jelinskas T, Eimont R, Ulčinas A, Aldonytė R, Valiokas R, Kalesnykas G, Hakkarainen JJ. (2021) Introducing an Efficient In Vitro Cornea Mimetic Model for Testing Drug Permeability. Sci. 2021; 3(3):30. DOI: https://doi.org/10.3390/sci3030030 |
| Balion Z., Cėpla V., Svirskiene N., Svirskis G., Druceikaitė K., Inokaitis H., Rusteikaitė J., Masilionis I., Stankevičienė G., Jelinskas T., Ulčinas A., Samanta A., Valiokas R., Jekabsone A. (2020) Biomolecules. 2020; 10(5):754. DOI:https://doi.org/10.3390/biom10050754 |
| Balion Z., Sipailaite E., Stasyte G., Vailionyte A., Mazetyte-Godiene A., Seskeviciute I., Bernotiene R., Phopase J., Jekabsone A. (2020) Investigation of Cancer Cell Migration and Proliferation on Synthetic Extracellular Matrix Peptide Hydrogels Frontiers in Bioengineering and Biotechnology. DOI: 10.3389/fbioe.2020.00773 |
| Mölzer C., Shankar S.P., Griffith M., Islam M. M., Forrester J.V., Kuffová L. (2019) Activation Of Dendritic Cells By Crosslinked Collagen Hydrogels (Artificial Corneas) Varies With Their Composition Tissue Engineering and Regenerative Medicine. DOI: 10.1002/term.2903 |
| Haagdorens M., Cėpla V., Melsbach E., Koivusalo L., Skottman H., Griffith M., Valiokas R., Zakaria N., Pintelon I., Tassignon M. (2019) In Vitro Cultivation of Limbal Epithelial Stem Cells on Surface-Modified Crosslinked Collagen Scaffolds Stem Cells International. DOI: 10.1155/2019/7867613 |
| Samarawickrama C, Samanta A, Liszka A, Fagerholm P, Buznyk O, Griffith M, Allan B. (2018) Collagen-Based Fillers as Alternatives to Cyanoacrylate Glue for the Sealing of Large Corneal Perforations. Cornea. 37(5):609–616, MAY 2018. DOI: 10.1097/ICO.0000000000001459 |
| Jangamreddy, J. R., Haagdorens M. K. C., Islam, M., Lewis, P., Samanta, A., Fagerholm, P., Liszka, A., Ljunggren, M. K., Buznyk, O., Alarcon, E. I., Zakaria, N., Meek, K. M., Griffith, M. (2018) Acta Biomaterialia, 2018. DOI: 10.1016/j.actbio.2018.01.011 |
| Islam, M., Ravichandran, R., Olsen, D., Ljunggren, M. K., Fagerholm, P., Lee, C.J., Griffith, M., Phopase, J. (2016) RSC Adv., 2016. DOI: 10.1039/C6RA08895C |
| Ravichandran, R., Islam, M., M., Alarcon, E., I., Samanta, A., Wang, S., Lundström, P., Hilborn, J., Griffith, M., Phopase, J. (2016) Functionalised type-I collagen as a hydrogel building block for bio-orthogonal tissue engineering applications. Mater. Chem. B. 4: 318-326 |
| Ravichandran, R., Griffith, M., Phopase, J. (2014) Applications of self-assembling peptide scaffolds in regenerative medicine: the way to the clinic. J. Mater. Chem. B. 2: 8466-8478 |
| Islam, M., Cėpla, V., Hec Cn, Edind J., Rakickas T., Kobuche K., Ruželė Ž., Jackson B.W., Rafat, M., Lohmanne C.P., Valiokas R., Griffith, M. (2014) Functional fabrication of recombinant human collagen–phosphorylcholine hydrogels for regenerative medicine applications. Acta Biomaterialia. |
| Vignoni, M., Weerasekera, H.dA., Simpson, M.J., Phopase, J., Mah, T.F., Griffith, M.,* Alarcon, E.I.,* and Scaiano, J.C.* (2014) LL37 peptide@silver nanoparticles: Combining the best of the two worlds for skin infection control. Nanoscale, 6: 5725-5728 (*equal contribution). |
| Koh LB, Islam, MM, Mitra D, Noel CW, Merrett K, Odorcic S, Fagerholm P, Jackson WB, Liedberg B, Phopase P, Griffith M. (2013) Epoxy cross-lnked collagen and collagen-laminin peptide hydrogels as corneal substitutes. J Funct Biomater. 4: 162-177. |
| KhanFA, Rabong C, Jordis U, Phopase J. (2013) Surprising behavior of NXO-peptides toward the lithium hydroxide solvolysis. Tetrahedron Letters 54: 3679-3682. |
| Rakickas T., Ericsson E. M., Ruželė Ž., Liedberg B., Valiokas R. (2011) Functional Hydrogel Density Patterns Fabricated by Dip-Pen Nanolithography and Photografting, Small, 15, 2153–2157. |
| Fagerholm P, Lagali NS, Merrett K, Jackson WB, Munger R, Liu Y, Polarek JW, Söderqvist M, Griffith, M. (2010) A biosynthetic alternative to human donor tissue for inducing corneal regeneration: 24 month follow-up of a Phase I clinical study. Science Transl. Med. 2: 46ra61. |
| Rabong C, Jordis U, Phopase J. (2010) NXO-building blocks for backbone modification of peptides and preparation of pseudopeptides. J. Org. Chem. 75: 2492-2500. |
| Deng,C., Zhang, P., Vulesevic, B., Kuraitis, D., Li, F., Yang, A.F., Griffith, M., Ruel, M. and Suuronen, E.J. (2010) A Collagen-Chitosan Hydrogel for Endothelial Differentiation and Angiogenesis. Tissue Eng. 16: 3099-3109. |
| Dare, E.V., Griffith, M., Poitras, P, Wang, T., D.J., Dervin, G.F., Giulivi, A. and Hincke, M.T. (2009) Fibrin sealants from fresh or fresh/frozen plasma as scaffolds for in vitro articular cartilage regeneration. Tissue Engineering Part A, 15: 2285-2297. |
| Phopase, J.; Jordis, U. (2008) NXO-modified amino acids: Novel building blocks for peptidomimetics. A Chimica Oggi - Chemistry Today, 2008, 26, 53. |
| Liu Y, Gan L, Carlsson DJ, Fagerholm P, Lagali N, Watsky MA, Munger R, Hodge WG, Priest D, Griffith M. (2006). A simple, cross-linked collagen tissue substitute for corneal implantation. Invest.Ophthalmol. Vis. Sci. 47:1869-1875. |
| Suuronen, E.J., Veinot, J.P., Wong, S., Kapila, V., Price, J., Griffith, M., Mesana, T.G. and Ruel M. (2006). Tissue engineered injectable collagen-based matrices for improved cell delivery and vascularization of ischemic tissue using CD133+ progenitors expanded from the peripheral blood. Circulation 114: 138-144. |
| Li, F., Carlsson, D.J., Lohmann, C.P., Suuronen, E.J., Vascotto, S., Kobuch, K., Sheardown, H., Munger, R, Griffith, M. (2003) Cellular and nerve regeneration within a biosynthetic extracellular matrix: corneal implantation. Proc. Natl. Acad. Sci USA 100: 15346-15351. |
| Jordis, Ulrich; Phopase, Jaywant B., “Preparation of modified amino acids, especially N-oxalyl amino acid hydrazides, and their use as building blocks for peptide and amino acid mimetics and analogs” WO 2007095980. |
Griffith, M., Osborne, R., Munger, R., Xiong, X., Doillon, C.J., Laycock, N.L., Hakim, M,. Song, Y. and Watsky, M.A.(1999)
Functional human corneal equivalents constructed from cell lines.
Science 286: 2169-2172.
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