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354 related items for PubMed ID: 35016295
1. Gelatin-Based Matrices as a Tunable Platform To Study in Vitro and in Vivo 3D Cell Invasion. Peter M, Singh A, Mohankumar K, Jeenger R, Joge PA, Gatne MM, Tayalia P. ACS Appl Bio Mater; 2019 Feb 18; 2(2):916-929. PubMed ID: 35016295 [Abstract] [Full Text] [Related]
2. An interplay of matrix stiffness, dimensionality and adhesivity on cellular behavior. Singh A, Dalal N, Tayalia P. Biomed Mater; 2023 Feb 09; 18(2):. PubMed ID: 36720169 [Abstract] [Full Text] [Related]
3. Low-Concentration Gelatin Methacryloyl Hydrogel with Tunable 3D Extrusion Printability and Cytocompatibility: Exploring Quantitative Process Science and Biophysical Properties. Das S, Valoor R, Ratnayake P, Basu B. ACS Appl Bio Mater; 2024 May 20; 7(5):2809-2835. PubMed ID: 38602318 [Abstract] [Full Text] [Related]
4. Development of a Photo-Crosslinking, Biodegradable GelMA/PEGDA Hydrogel for Guided Bone Regeneration Materials. Wang Y, Ma M, Wang J, Zhang W, Lu W, Gao Y, Zhang B, Guo Y. Materials (Basel); 2018 Aug 03; 11(8):. PubMed ID: 30081450 [Abstract] [Full Text] [Related]
5. Stiffness modification of photopolymerizable gelatin-methacrylate hydrogels influences endothelial differentiation of human mesenchymal stem cells. Lin CH, Su JJ, Lee SY, Lin YM. J Tissue Eng Regen Med; 2018 Oct 03; 12(10):2099-2111. PubMed ID: 30058281 [Abstract] [Full Text] [Related]
6. In Vitro Investigation of Vocal Fold Cellular Response to Variations in Hydrogel Porosity and Elasticity. Nejati S, Mongeau L. ACS Biomater Sci Eng; 2024 Jun 10; 10(6):3909-3922. PubMed ID: 38783819 [Abstract] [Full Text] [Related]
7. Adjusting the accuracy of PEGDA-GelMA vascular network by dark pigments via digital light processing printing. Sheng L, Li M, Zheng S, Qi J. J Biomater Appl; 2022 Feb 10; 36(7):1173-1187. PubMed ID: 34738507 [Abstract] [Full Text] [Related]
8. Characterizing the Effects of Synergistic Thermal and Photo-Cross-Linking during Biofabrication on the Structural and Functional Properties of Gelatin Methacryloyl (GelMA) Hydrogels. Chansoria P, Asif S, Polkoff K, Chung J, Piedrahita JA, Shirwaiker RA. ACS Biomater Sci Eng; 2021 Nov 08; 7(11):5175-5188. PubMed ID: 34597013 [Abstract] [Full Text] [Related]
9. Untangling the response of bone tumor cells and bone forming cells to matrix stiffness and adhesion ligand density by means of hydrogels. Jiang T, Zhao J, Yu S, Mao Z, Gao C, Zhu Y, Mao C, Zheng L. Biomaterials; 2019 Jan 08; 188():130-143. PubMed ID: 30343256 [Abstract] [Full Text] [Related]
10. Enhanced Electroactivity, Mechanical Properties, and Printability through the Addition of Graphene Oxide to Photo-Cross-linkable Gelatin Methacryloyl Hydrogel. Xavier Mendes A, Moraes Silva S, O'Connell CD, Duchi S, Quigley AF, Kapsa RMI, Moulton SE. ACS Biomater Sci Eng; 2021 Jun 14; 7(6):2279-2295. PubMed ID: 33956434 [Abstract] [Full Text] [Related]
11. Gelatin-Methacryloyl (GelMA) Hydrogels with Defined Degree of Functionalization as a Versatile Toolkit for 3D Cell Culture and Extrusion Bioprinting. Pepelanova I, Kruppa K, Scheper T, Lavrentieva A. Bioengineering (Basel); 2018 Jul 18; 5(3):. PubMed ID: 30022000 [Abstract] [Full Text] [Related]
12. A GelMA-PEGDA-nHA Composite Hydrogel for Bone Tissue Engineering. Wang Y, Cao X, Ma M, Lu W, Zhang B, Guo Y. Materials (Basel); 2020 Aug 24; 13(17):. PubMed ID: 32847000 [Abstract] [Full Text] [Related]
13. 3D cell entrapment in crosslinked thiolated gelatin-poly(ethylene glycol) diacrylate hydrogels. Fu Y, Xu K, Zheng X, Giacomin AJ, Mix AW, Kao WJ. Biomaterials; 2012 Jan 24; 33(1):48-58. PubMed ID: 21955690 [Abstract] [Full Text] [Related]
14. GelMA, Click-Chemistry Gelatin and Bioprinted Polyethylene Glycol-Based Hydrogels as 3D Ex Vivo Drug Testing Platforms for Patient-Derived Breast Cancer Organoids. Bock N, Forouz F, Hipwood L, Clegg J, Jeffery P, Gough M, van Wyngaard T, Pyke C, Adams MN, Bray LJ, Croft L, Thompson EW, Kryza T, Meinert C. Pharmaceutics; 2023 Jan 12; 15(1):. PubMed ID: 36678890 [Abstract] [Full Text] [Related]
15. Polyethylene glycol diacrylate scaffold filled with cell-laden methacrylamide gelatin/alginate hydrogels used for cartilage repair. Zhang X, Yan Z, Guan G, Lu Z, Yan S, Du A, Wang L, Li Q. J Biomater Appl; 2022 Jan 12; 36(6):1019-1032. PubMed ID: 34605703 [Abstract] [Full Text] [Related]
16. Photo-Cross-linked Gelatin Methacryloyl Hydrogels Enable the Growth of Primary Human Endometrial Stromal Cells and Epithelial Gland Organoids. Salisbury E, Rawlings TM, Efstathiou S, Tryfonos M, Makwana K, Fitzgerald HC, Gargett CE, Cameron NR, Haddleton DM, Brosens JJ, Eissa AM. ACS Appl Mater Interfaces; 2024 Jul 31; 16(30):39140-39152. PubMed ID: 39022819 [Abstract] [Full Text] [Related]
17. Molecular interactions and forces of adhesion between single human neural stem cells and gelatin methacrylate hydrogels of varying stiffness. Puckert C, Tomaskovic-Crook E, Gambhir S, Wallace GG, Crook JM, Higgins MJ. Acta Biomater; 2020 Apr 01; 106():156-169. PubMed ID: 32084598 [Abstract] [Full Text] [Related]
18. Microfluidic-enabled bottom-up hydrogels from annealable naturally-derived protein microbeads. Sheikhi A, de Rutte J, Haghniaz R, Akouissi O, Sohrabi A, Di Carlo D, Khademhosseini A. Biomaterials; 2019 Feb 01; 192():560-568. PubMed ID: 30530245 [Abstract] [Full Text] [Related]
19. Construction of tissue-engineered skin with rete ridges using co-network hydrogels of gelatin methacrylated and poly(ethylene glycol) diacrylate. Shen Z, Cao Y, Li M, Yan Y, Cheng R, Zhao Y, Shao Q, Wang J, Sang S. Mater Sci Eng C Mater Biol Appl; 2021 Oct 01; 129():112360. PubMed ID: 34579879 [Abstract] [Full Text] [Related]
20. Optimization of Gelatin Methacryloyl Hydrogel Properties through an Artificial Neural Network Model. Karaoglu IC, Kebabci AO, Kizilel S. ACS Appl Mater Interfaces; 2023 Sep 27; 15(38):44796-44808. PubMed ID: 37704030 [Abstract] [Full Text] [Related] Page: [Next] [New Search]