- Zhao X, Wang W, Yu X, Kalyon DM*, Erisken C*. Advanced Bioprinting of Hydrogels with Controlled Mineral Gradients for Regenerative Engineering of the Osteochondral Interface. Biofabrication 2024, Manuscript No BF-105369, Under Review.
- Seitzhaparova B, Kadyr S, Timur L, Mirasbek B, Zhakypbekova A, Effanga VE, Erisken C*. Rabbit Heart Bioartificial Tissue: Perfusion Decellularization and Characterization. Journal of Biomedical Materials Research - Part B Applied Biomaterials 2024, Manuscript No JBMR-B-24-0033. Under Review.
- Kadyr S, Khumyrzakh B, Erisken C*. Osteochondral Interface Regeneration: A Bibliometric and Visualized Analysis. Journal of Clinical Orthopaedics and Trauma 2024, Manuscript No JCOT-D-24-00049. Under Review.
- Effanga VE, Akilbekova D, Mukasheva F, Zhao X, Kalyon D, Erisken C*. In vitro investigation of 3D printed hydrogel scaffolds with electrospun tidemark component for modeling the osteochondral interface. Gels, 2024, 10, 745. https://doi.org/10.3390/gels10110745
- Kadyr S, Nurmanova U, Khumyrzakh B, Zhakypbekova A, Saginova D, Daniyeva N, Erisken C*. Braided biomimetic PCL grafts for anterior cruciate ligament reconstruction. Biomedical Materials (Bristol),2024, 19 025034, DOI 10.1088/1748-605X/ad2555.
- Mukasheva F, Zhanbassynova A, Erisken C*. Biomimetic grafts from ultrafine fibers for collagenous tissues. Bio-Medical Materials and Engineering 2024, 35: 323–335, DOI: 10.3233/BME-230193.
- Yildirim N, Amanzhanova A, Kulzhanova G, Mukasheva F, Erisken C*. Osteochondral interface: Regenerative engineering and challenges. ACS Biomater. Sci. Eng. 2023, 9, 3, 1205–1223. DOI: 10.1021/acsbiomaterials.2c01321.
- Kadyr S, Adeoye A, Smatov S, Zhakypbekova A, Erisken C*. Biomimetic Fiber-based Models For Anterior Cruciate Ligament Regeneration. Tissue Engineering Part A, 2023, 29(9-10).
- Smatov S, Mukasheva F, Erisken C*. Collagen fibril diameter distribution of sheep Anterior Cruciate Ligament. Polymers, 2023, 15(3):752. DOI: 10.3390/polym15030752. Q1, IF: 4.967
- Adeoye AO, Mukasheva F, Smatov S, Khumyrzakh B, Kadyr S, Shulgau Z and Erisken C. A biomimetic synthetic nanofiber-based model for anterior cruciate ligament regeneration. Front. Bioeng. Biotechnol., 2022, 10:969282. DOI: 10.3389/fbioe.2022.969282 (IF: 5.89)
- Beisbayeva Z, Zhanbassynova A, Kulzhanova G, Mukasheva F, Erisken C*. Change in collagen fibril diameter distribution of bovine Anterior Cruciate Ligament upon injury can be replicated in a nanostructured scaffold. Molecules, 2021, 26(5): 1204. DOI: 10.3390/molecules26051204 (IF: 3.267)
- Cevat Erisken, Andrew Tsiantis, Thanasis Papathansiou, Evangelos Karvelas*. Collagen fibril diameter distribution affects permeability of ligament tissue: A computational study on healthy and injured tissues. Computer Methods and Programs in Biomedicine, 2020 (196): 105554. DOI: 10.1016/j.cmpb.2020.105554 (IF: 3.424)
- Ozlu B, Ergin M, Budak S, Tunali S, Yildirim N, Erisken C*. A Bioartificial Rat Heart Tissue: Perfusion Decellularization and Characterization. The International Journal of Artificial Organs, 2019, 42 (12), 757-764. DOI: 10.1177/0391398819863434 (IF=1.337).
- Arda NY, Akay S, Erisken C*. Effect of gadolinium concentration on temperature change under magnetic field. PLOS ONE, 2019, 14(4):e0214910. DOI: 10.1371/journal.pone.0214910. (IF=2.74)
- Velioglu ZB, Pulat D, Demirbakan B, Ozcan B, Bayrak E, Erisken C*. 3D Printed poly(lactic acid) scaffolds for trabecular bone repair and regeneration: scaffold and native bone characterization. Connective Tissue Research, 2019, 60(3):274-282. DOI: 10.1080/03008207.2018.1499732 (IF=2.795)
- Erisken C*, Aksel H. Functional scaffolds for dental pulp regeneration. Turkiye Klinikleri J Endod-Special Topics 2018;4(1):19-26.
- Lee NM, Erisken C, Iskratsch T, Sheetz M, Levine WN, Lu HH*. Polymer fiber-based models of connective tissue repair and healing. Biomaterials 2017, 112: 303-312. doi: 10.1016/ j.biomaterials.2016.10.013. (IF=10.317)
- Gurlek A, Sevinc B, Bayrak E, Erisken C*. Synthesis and characterization of polycaprolactone for Anterior Cruciate Ligament regeneration. Materials Science & Engineering C: Materials for Biological Applications, 2017, 71:820-826. doi:10.1016/j.msec.2016.10.071. (IF=5.88)
- Bayrak E, Ozcan B, Erisken C*. Processing of polycaprolactone and hydroxyapatite to fabricate graded electrospun composites for tendon-bone interface regeneration. Journal of Polymer Engineering, 2017, 37(1): 99–106. doi: 10.1515/polyeng-2016-0017 (IF=1.21)
- Bayrak E, Ozcan B, Erisken C*. Cartilage-bone interface features, scaffold and cell options for regeneration. Journal of Tissue Science and Engineering 2016, 7:174. doi:10.4172/2157-7552.1000174.
- Aksel H*, Serper A, Kalayci S, Somer G, Erisken C. Effects of QMix and ethylenediaminetetraacetic acid on decalcification and erosion of root canal dentin. Microsc Res Tech. 2016, 79(11):1056-1061. doi: 10.1002/jemt.22745. (IF=2.117)
- Ozcan B, Bayrak E, Erisken C*. Characterization of human dental pulp tissue under oscillatory shear and compression. Journal of Biomechanical Engineering 2016, 138:061006. doi: 10.1115/1.4033437(IF=1.947)
- Erisken C*, Kalyon DM, Zhou J, Kim SG, Mao JJ. Viscoelastic properties of dental pulp tissue and ramifications on biomaterial development for pulp regeneration. Journal of Endodontics 2015, 41(10): 1711-1717. (IF=3.188)
- Lee CH, Rodeo SA, Fortier LA, Lu C, Erisken C and Mao JJ*. Protein-releasing polymeric scaffolds induce fibrochondrocytic differentiation of endogenous cells for knee meniscus regeneration in sheep. Science Translational Medicine 2014, 6(266): 266ra171. (IF=16.304)
- Kalyon DM*, Erisken C, Ozkan S, Ergun-Butros A, Yu X, Wang H, Valdevit A, Ritter A. Functionally-graded polymeric graft substitutes and scaffolds for tissue engineering can be fabricated via various extrusion methods. Editorial Article. Journal of Tissue Science and Engineering 2014, 5:1.
- Erisken C, Zhang X, Moffat KL, Levine WN, Lu HH*. Scaffold fiber diameter regulates human tendon fibroblast growth and differentiation. Tissue Engineering Part A 2013, 19(3-4): 519-528. (IF=3.766)
- Senturk-Ozer S, Gevgilili H, Erisken C, Ward D, Kalyon DM*. Nanofibrous meshes by advanced electrospinning. Society of Plastics Engineers Plastics Research Online 2013, 4685:1-4.
- Zhang X, Bogdanowicz D, Erisken C, Lee NM, Lu HH*. Biomimetic scaffold design for functional and integrative tendon repair. Journal of Shoulder and Elbow Surgery 2012, 21: 266-277. (IF=2.817)
- Erisken C, Kalyon D*, Wang H, Ornek C, Xu J. Osteochondral tissue formation through adipose-derived stromal cell differentiation on biomimetic polycaprolactone nanofibrous scaffolds with graded insulin and beta-glycerophosphate concentrations. Tissue Engineering Part A 2011, 17(9-10): 1239-1252. (IF=3.766)
- Erisken C, Kalyon D*, Wang H. Viscoelastic and biomechanical properties of osteochondral tissue constructs generated from graded polycaprolactone and beta-tricalcium phosphate composites. Journal of Biomechanical Engineering 2010, 132(9):091013. (IF=1.947)
- Erisken C, Kalyon D*, Wang H. Functionally graded electrospun polycaprolactone and beta-tricalcium phosphate nanocomposites for tissue engineering applications. Biomaterials 2008, 29: 4065-4073. (IF=10.317)
- Erisken C, Kalyon D*, Wang H. A hybrid twin screw extrusion/electrospinning method to process nanoparticle-incorporated electrospun nanofibers. Nanotechnology 2008, 19: (IF=3.5)
- Erisken C, Göçmez A, Yilmazer U, Pekel F, Özkar S*. Modeling and Rheology of HTPB Based Composite Solid-Propellants. Polymer Composites 1998, 19: 463-472. (IF=2.265)
- Göçmez A, Erisken C, Yilmazer U, Pekel F, Özkar S*. Mechanical and Burning Properties of Highly Loaded Composite Propellants. Journal of Applied Polymer Science 1998, 67: 1457-1464. (IF=2.52)