Articles published in Journal of Tissue Science and Engineering have been cited by esteemed scholars and scientists all around the world.
Journal of Tissue Science and Engineering has got h-index 15, which means every article in Journal of Tissue Science and Engineering has got 15 average citations.
Following are the list of articles that have cited the articles published in Journal of Tissue Science and Engineering.
| 2022 | 2021 | 2020 | 2019 | 2018 | |
|---|---|---|---|---|---|
Year wise published articles |
62 | 35 | 19 | 10 | 8 |
Year wise citations received |
82 | 70 | 134 | 99 | 72 |
| Journal total citations count | 807 |
| Journal impact factor | 1.67 |
| Journal 5 years impact factor | 6.09 |
| Journal cite score | 5.74 |
| Journal h-index | 15 |
| Journal h-index since 2018 | 10 |
FARMACIJO, F. Z., & BERTONCELJ, V. RAZVOJ NANOVLAKEN Z RASTNIMI DEJAVNIKI IN NJIHOV VPLIV NA CELIÄŒNI ODZIV IN VITRO. |
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Wolfe, P. (2011). Tissue Engineering an Acellular Bioresorbable Vascular Graft to Promote Regeneration. |
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Rodriguez, I. A., Saxena, G., Hixon, K. R., Sell, S. A., & Bowlin, G. L. (2016). In vitro characterization of MGâ€Â63 osteoblastâ€Âlike cells cultured on organicâ€Âinorganic lyophilized gelatin sponges for early bone healing. Journal of Biomedical Materials Research Part A, 104(8), 2011-2019. |
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Polycaprolactone, E. (2015). Preliminary Investigation and Characterization of Electrospun Polycaprolactone and Manuka Honey Scaffolds for Dermal Repair. |
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Sell, S. A., Ericksen, J. J., & Bowlin, G. L. (2012). The incorporation and controlled release of plateletâ€Ârich plasmaâ€Âderived biomolecules from polymeric tissue engineering scaffolds. Polymer International, 61(12), 1703-1709. |
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Rodriguez, I., Saxena, G., Sell, S., & Bowlin, G. (2014). Mineralization and characterization of composite lyophilized gelatin sponges intended for early bone regeneration. Bioengineering, 1(1), 62-84. |
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Rodriguez, I. A., Sell, S. A., McCool, J. M., Saxena, G., Spence, A. J., & Bowlin, G. L. (2013). A preliminary evaluation of lyophilized gelatin sponges, enhanced with platelet-rich plasma, hydroxyapatite and chitin whiskers for bone regeneration. Cells, 2(2), 244-265. |
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Bertoncelj, V., Pelipenko, J., Kristl, J., Jeras, M., Cukjati, M., & Kocbek, P. (2014). Development and bioevaluation of nanofibers with blood-derived growth factors for dermal wound healing. European Journal of Pharmaceutics and Biopharmaceutics, 88(1), 64-74. |
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Rodriguez, I. A., Growney Kalaf, E. A., Bowlin, G. L., & Sell, S. A. (2014). Platelet-rich plasma in bone regeneration: engineering the delivery for improved clinical efficacy. BioMed research international, 2014. |
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Sell, S. A., Wolfe, P. S., Spence, A. J., Rodriguez, I. A., McCool, J. M., Petrella, R. L., ... & Bowlin, G. L. (2012). A preliminary study on the potential of manuka honey and platelet-rich plasma in wound healing. International journal of biomaterials, 2012. |
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Sundaramurthi, D., Krishnan, U. M., & Sethuraman, S. (2014). Electrospun nanofibers as scaffolds for skin tissue engineering. Polymer Reviews, 54(2), 348-376. |
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Jiang, H., Wang, L., & Zhu, K. (2014). Coaxial electrospinning for encapsulation and controlled release of fragile water-soluble bioactive agents. Journal of Controlled Release, 193, 296-303. |
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Sell, S. A., Wolfe, P. S., Ericksen, J. J., Simpson, D. G., & Bowlin, G. L. (2011). Incorporating platelet-rich plasma into electrospun scaffolds for tissue engineering applications. Tissue Engineering Part A, 17(21-22), 2723-2737. |
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Chhabra, H., Kumbhar, J., Rajwade, J., Jadhav, S., Paknikar, K., Jadhav, S., & Bellare, J. R. (2016). Three-dimensional scaffold of gelatin–poly (methyl vinyl ether-alt-maleic anhydride) for regenerative medicine: Proliferation and differentiation of mesenchymal stem cells. Journal of Bioactive and Compatible Polymers, 31(3), 273-290. |
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Jeevani, T. (2011). Stem cell Transplantation-Types, Risks and Benefits. J Stem Cell Res Ther, 1(3). |
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Arun Kumar, R., Sathish Kumar, D., & Nishanth, T. (2011). A Review on Stem cell Research & Their Role in Various Diseases. J Stem Cell Res Ther, 1(3), 1-5. |
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Hu, N., Wang, T., Cao, J., Su, K., Zhou, J., Wu, J., & Wang, P. (2013). Comparison between ECIS and LAPS for establishing a cardiomyocyte-based biosensor. Sensors and Actuators B: Chemical, 185, 238-244. |
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Minuth, W. W. (2016). The rabbit nephrogenic zone in culture: past, present and future as a model to investigate causes of impaired nephrogenesis. Journal of Pediatric and Neonatal Individualized Medicine (JPNIM), 6(1), e060111. |
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Minuth, W. W., & Denk, L. (2016). Bridging the gap between traditional cell cultures and bioreactors applied in regenerative medicine: practical experiences with the MINUSHEET perfusion culture system. Cytotechnology, 68(2), 179-196. |
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Minuth, W. W., & Denk, L. (2012). Supportive development of functional tissues for biomedical research using the MINUSHEET® perfusion system. Clinical and translational medicine, 1(1), 22. |
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Journal of Tissue Science and Engineering received 807 citations as per Google Scholar report
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