´ºË®ÌÃÊÓƵ

335.ÌýS. Uman, N. Weingarten, M. Helmers, A. Iyengar, K.L. Xu, K. Worthington, D. Meldrum, J. Dominic, S. Guevara-Plunkett, A. Schiazza, P. Atluri,ÌýJ.A. Burdick, Engineering and Monitoring the Sustained Release of Extracellular Vesicles from Hydrogels for In Vivo Therapeutic Applications,ÌýAdvanced NanoBiomed Research, in press.

334.ÌýC.R. Scanzello, K.A. Hasty, C.B. Chung, H. Drissi, N.J. Willet, H. Krug, D. Ewart, S. Jerban, J.F. Baker, C.L. Duvall, D.B.F. Saris, J.M. Brunger,ÌýJ.A. Burdick, K.P. Spindler, T.M. Griffin, Teaming up to Overcome Challenges in the Clinical Translation of New Therapeutics for Osteoarthritis,ÌýJournal of Orthopaedic Research, in press.

333.ÌýA. Mora-Boza, A. Mulero-Russe, N. Di Caprio,ÌýJ.A. Burdick, A. Singh, A.J. Garcia, Facile Photopatterning of Perfusable Microchannels in Hydrogels for Microphysiological Systems,ÌýNature Protocols, in press.

332.ÌýV.G. Muir, M. Fainor, B.S. Orozco, R. Hilliard, M. Boyes, H.E. Smith, R.L. Mauck, T.P. Schaer,ÌýJ.A. Burdick, S.E. Gullbrand, Injectable Radiopaque Hyaluronic Acid Granular Hydrogels for Intervertebral Disc Repair,ÌýAdvanced Healthcare Materials, in press.

331.ÌýB.R. Nelson, B.E. Kirkpatrick, N.P. Skillin, N. Di Caprio, J.S. Lee, L.P. Hibbard, G.K. Hach, A. Khang, T.J. White,ÌýJ.A. Burdick, C.N. Bowman, K.S. Anseth, Facile Physicochemical Reprogramming of PEG-Dithiolane Microgels,ÌýAdvanced Healthcare Materials, in press.

330.ÌýB.R. Nelson, B.E. Kirkpatrick, C.E. Miksch, M.D. Davidson, N.P. Skillin, G.K. Hach, A. Khang, S.N. Hummel, B.D. Fairbanks,ÌýJ.A. Burdick, C.N. Bowman, K.S. Anseth, Photoinduced Dithiolane Crosslinking, Exchange, and Depolymerization for Multiresponsive Dynamic Hydrogels,ÌýAdvanced Materials, in press.

329.ÌýM.B. Riffe, M.D. Davidson, G. Seymour, A. Dhand, M.E. Cooke, H.M. Zlotnick, R.R. McLeod,ÌýJ.A. Burdick, Multi-material Volumetric Additive Manufacturing of Hydrogels using Gelatin as a Sacrificial Network and 3D Suspension Bath,ÌýAdvanced Materials, 36, 2309026, 2024.

328.ÌýL.A. Krattiger, D.B. Emiroglu, S. Pravato, L.O. Moser, O.A. Bachmann, S.Y. La Cioppa, G.J. Rodriguez Rivera,ÌýJ.A. Burdick, A.J. DeMello, M.W. Tibbitt, M. Ehrbar, Microfluidic Platforms to Screen Granular Hydrogel Microenvironments for Tissue Regeneration,ÌýAdvanced Functional Materials, 34:2310507, 2024.

327.ÌýA.P. Dhand, M.D. Davidson, H.M. Zlotnick, T.J. Kolibaba, J.P. Killgore,ÌýJ.A. Burdick, Additive Manufacturing of Highly Entangled Polymer Networks,ÌýScience, 385:566-572, 2024.

326.ÌýA. Pardo, M. Gomez-Florit, M.D. Davidson, M. Ozgen Ozturk-Oncel, R.M.A. Domingues, J.A. Burdick,ÌýM.E. Gomes, Hierarchical Design of Tissue-Mimetic Fibrillar Hydrogel Scaffolds,ÌýAdvanced Healthcare Materials, 13:2303167, 2024.

325. D.E. Mason, P. Camacho, M.E. Goeckel, B.R. Tobin, S.L. Vega, P.H. Wu, D. Johnson, S.J. Heo, D. Wirtz,ÌýJ.A. Burdick, L. Wood, B.Y. Chow, A.N. Stratman, J.D. Boerckel, Mechanotransductive Feedback Control of Endothelial Cell Motility and Vascular Morphogenesis,ÌýeLIFE, 12:RP86668, 2024.

324.ÌýL.L. Wang, S. Tuohy, A. Nace, K.L. Xu,ÌýJ.A. Burdick, G. Cotsarelis, Local and Sustained Baricitnib Delivery to the Skin through Injectable Hydrogels Containing Reversible Thioimidate Adducts,ÌýAdvanced Healthcare Materials, 13:2303256, 2024.

323.ÌýN. Di Caprio, M.D. Davidson, A.C. Daly,ÌýJ.A. Burdick, Injectable MSC Spheroid and Microgel Granular Composites for Engineering Tissue,ÌýAdvanced Materials, 36:2312226, 2024.

322.ÌýK.L. Xu, N. Di Caprio, H. Fallahi, M. Dehghany, M.D. Davidson, L. Laforest, B.C.H. Cheung, Y. Zhang, M. Wu, V. Shenoy, L. Han, R.L. Mauck,ÌýJ.A. Burdick, Microinterfaces in Biopolymer-based Biocontinuous Hydrogels Guide Rapid 3D Cell Migration,Ìý±·²¹³Ù³Ü°ù±ðÌý°ä´Ç³¾³¾³Ü²Ô¾±³¦²¹³Ù¾±´Ç²Ô²õ, 15:2766, 2024.

321. A. Mora-Boza, A. Mulero-Russe, N. Di Caprio, J.A. Burdick,ÌýA. Singh, A.J. Garcia, Facile Photopatterning of Perfusable Microchannels in Synthetic Hydrogels to Recreate Microphysiological Environments,ÌýAdvanced Materials, 35:2306765, 2023.

320.ÌýM. Fainor, B.S. Orozco, V.G. Muir, S. Mahindroo, S. Gupta, R.L. Mauck,ÌýJ.A. Burdick, H.E. Smith, S.E. Gullbrand, Mechanical Crosstalk between the Intervertebral Disc, Facet Joints and Vertebral Endplate following Acute Disc Injury in a Rabbit Model,ÌýJOR Spine, 6:e1287, 2023.

319. R. Cruz-Acuna, S.W. Kariuki, K. Sugiura, S. Karaiskos, E.M. Plaster, C. Loebel, G. Efe, T.A. Karakasheva, J.T. Gabre, J. Hu, J.A. Burdick, A.K. Rustgi, Engineered Hydrogel Reveals Contribution of Matrix Mechanics to Esophageal Adenocarcinoma and Identifies Matrix-Activated Therapeutic Targets, Journal of Clinical Investigation, 133:e168146, 2023.

318.ÌýI.E.M. de Jong, M.L. Hunt, D. Chen, Y. Du, J. Llewellyn, K. Gupta, D. Li, D. Erxleben, F. Rivas, A.R. Hall, E.E. Furth, A. Naji, C. Liu, A. Dhand,ÌýJ.A. Burdick, M.G. Davey, A.W. Flake, R.J. Porte, P.A. Russo, J.W. Gaynor, R.G. Wells, A Fetal Wound Healing Program after Intrauterine Bile Duct Injury May Contribute to Biliary Atresia,ÌýJournal of Hepatology, 79: 1396-1407, 2023.

317. Y.C. Dong, L.M. Nieves, J.C. Hsu, A. Kumar, M. Bouche, U. Krishnan, K.J. Mossburg, D. Saxena, S. Uman, T. Kambayashi,ÌýJ.A. Burdick, M.M. Kim, J.F. Dorsey, D.P. Cormode, Novel Combination Treatment for Melanoma: FLASH Radiotherapy and Immunotherapy Delivered by a Radiopaque and Radiation Responsive Hydrogel,ÌýChemistry of Materials, 25: 9542-9551, 2023.

316.ÌýA. Schwab, M.A. Wesdopr, J. Xu, F. Abinzano, C. Loebel, R. Levato, D. Eglin, R. Narcisi, M.J. Stoddart, J. Malda,ÌýJ.A. Burdick, M. D’Este, G. JVM van Osch, Modulating Design Parameters to Drive Cell Invasion into Hydrogels for Osteochondral Tissue Formation,ÌýJournal of Orthopaedic Translation, 41: 42-53, 2023.

315.ÌýR. Avendano, D.E. Midgett, I. Melvinsdottir, S. Thorn, S. Uman, Z. Pickell, S.R. Lee, Z. Liu, M. Mamarian, J.S. Duncan, F.G. Spinale,ÌýJ.A. Burdick, A.J. Sinusas, Improvement in Cardiac Function and Regional LV Strain Following Intramyocardial Injection of a Hydrogel Early Post Myocardial Infarction in a Porcine Model,ÌýJournal of Applied Physiology,135:405-420, 2023.

314. R. Goldshmid, H. Simaan-Yameen, L. Ifergan, C. Loebel,ÌýJ.A. Burdick, D. Seliktar, Modulus-dependent Effects on Neurogenic, Myogenic and Chondrogenic Differentiation of Human Mesenchymal Stem Cells in Three-dimensional Hydrogel Cultures,ÌýJournal of Biomedical Materials Research A, 111:1441-1458, 2023.

313.ÌýK.L. Xu, R.L. Mauck,ÌýJ.A. Burdick, Modeling Development using Hydrogels,ÌýDevelopment, 150:dev201527, 2023.

312.ÌýJ.H. Galarraga, H.M. Zlotnick, R.C. Locke, S. Gupta, N.L. Fogarty, K.M. Masada, B.D. Stoeckl, L. Laforest, M. Castilho, J. Malda, R. Levato, J.L. Carey, R.L. Mauck,ÌýJ.A. Burdick, Evaluation of Surgical Fixation Methods for the Implantation of MEW-Reinforced HA Hydrogel Composites in Porcine Cartilage Defects,ÌýInternational Journal of Bioprinting, 9:775, 2023.

311. N. Di Caprio and J.A. Burdick, Engineering Biomaterials to Guide Spheroid Formation, Function, and Fabrication into 3D Tissue Constructs,ÌýActa Biomaterialia, 165:4-18, 2023.Ìý

310.ÌýM.E. Prendergast, S.J. Heo, R.L. Mauck,ÌýJ.A. Burdick, Suspension Bath Bioprinting and Maturation of Anisotropic Meniscal Constructs,ÌýBiofabrication, 15:035003, 2023.

309.ÌýÌýR.C. Locke, H.M. Zlotnick, B.D. Stoeckl, G.W. Fryhofer, J.H. Galarraga, A.P. Dhand, M.H. Zgonis, J.L. Carey, J.A. Burdick, R.L. Mauck, Linguistic Analysis Identifies Emergent Biomaterial Fabrication Trends for Orthopaedic Applications,ÌýAdvanced Healthcare Materials, 12:2202591, 2023.

308.ÌýV.G. Muir, S. Weintraub, A.P. Dhand, H. Fallahi, L. Han, J.A. Burdick, Influence of Microgel and Interstitial Matrix Compositions on Granular Hydrogel Composite Properties,ÌýAdvanced Science, 10:2206117, 2023.

307.ÌýK. Shiraishi, P.P. Shah, M.P. Morley, C. Loebel, G.T. Santini, J. Katzen, M.C. Basil, S.M. Lin, J.D. Planer, E. Cantu, D. Jones, A. Nottingham, S. Li, F.L. Cardenas-Diaz, S. Zhou,ÌýJ.A. Burdick, R. Jain, E.E. Morrisey, Biophysical Forces Mediated by Respiration Maintain Lung Alveolar Epithelial Cell Fate,ÌýCell, 186:1-15, 2023.

306. S.J. Heo, S. Thakur, X. Chen, C. Loebel, B. Xia, R. McBeath, J.A. Burdick, V.B. Shenoy, R.L. Mauck, M. Lakadamyali, Aberrant Chromatin Reorganization in Cells from Diseased Fibrous Connective Tissue in Response to Altered Chemomechanical Cues,ÌýNature Biomedical Engineering,Ìý7:177-191, 2023.

305. S.L. Thorn, J.A. Shuman, M.R. Stacy, B.P. Purcell, H. Doviak, J.A. Burdick, F.G. Spinale, A.J. Sinusas, Matrix Metalloproteinase-Targeted SPECT/CT Imaging for Evaluation of Therapeutic Hydrogels for the Early Modulation of Post-Infarct Myocardial Remodeling,ÌýJournal ofÌýCardiovascular Translational Research, 16:155-165, 2023.

304. J.H. Galarraga, A.P. Dhand, B.P. Enzmann, J.A. Burdick, Synthesis, Characterization, and Digital Light Processing of a Hydrolytically Degradable Hyaluronic Acid Hydrogel,ÌýBiomacromolecules, 24: 413-425, 2023.

303. V.G. Muir, T.H. Qazi, S. Weintraub, B.O. Torres Maldonado, P.E. Arratia, J.A. Burdick, Sticking Together: Injectable Granular Hydrogels with Increased Functionality via Dynamic Covalent Inter-particle Crosslinking,ÌýSmall, 18:2201115, 2022.

302. K.A. Rose, N. Gogotsi, J.H. Galarraga, J.A. Burdick, C.B. Murray, D. Lee, R.J. Composto, Shape Anisotropy Enhances Nanoparticle Dynamics in Nearly Homogeneous Hydrogels,ÌýMacromolecules, 55:8514-8523, 2022.

301. A.P. Dhand, M.D. Davidson, J.H. Galarraga, T.H. Qazi, R.C. Locke, R.L. Mauck, J.A. Burdick, Simultaneous One-pot Interpenetrating Network Formation to Expand 3D Processing Capabilities,ÌýAdvanced Materials, 34:2202261, 2022.

300.ÌýÌýC. Loebel, A.I. Weiner, M.K. Eiken, J.B. Katzen, M.P. Morley, V. Bala, F.L. Cardenas-Diaz, M.D. Davidson, K. Shiraishi, M.C. Basil, L.T. Ferguson, J.R. Spence, M. Ochs, M.F. Beers, E.E. Morrisey, A.E. Vaughan, J.A. Burdick, Microstructured Hydrogels to Guide Self-Assembly and Function of Lung Alveolospheres,ÌýAdvanced Materials, 34:2202992, 2022.

299. V.G. Muir, M.E. Prendergast, J.A. Burdick, Methods to Fragment Bulk Hydrogels and Process into Granular Hydrogels for Biomedical Applications,ÌýJournal of Visualized Experiments, 183:e63867, 2022.

298. T.H. Qazi, M. Blatchley, M.D. Davidson, F. Yavitt, M.E. Cooke, K.S. Anseth, J.A. Burdick, Programming Hydrogels to Probe Spatiotemporal Cell Biology,ÌýCell Stem Cell, 29: 678-691, 2022.

297. T.H. Qazi, V.G. Muir, J.A. Burdick, Methods to Characterize Granular Hydrogel Rheological Properties, Porosity, and Cell Invasion,ÌýACS Biomaterials Science & Engineering, 8:1427-1442, 2022.

296. M.E. Prendergast and J.A. Burdick, Computational Modeling and Experimental Characterization of Extrusion Printing into Suspension Baths,ÌýAdvanced Healthcare Materials, 11:2101679, 2022.

295. T.H. Qazi, J. Wu, V.G. Muir, S. Weintraub, S. Gullbrand, D. Lee, D. Issadore, J.A. Burdick, Anisotropic Rod-shaped Particles Influence Injectable Granular Hydrogel Properties and Cell Invasion,ÌýAdvanced Materials, 34:2109194, 2022.

294. C. Loebel, A. Saleh, K.R. Jacobson, R. Daniels, R.L. Mauck, S. Calve, J.A. Burdick, Metabolic Labeling of Secreted Matrix to Investigate Cell-Material Interactions in Tissue Engineering and Mechanobiology,ÌýNature Protocols, 17:618-648, 2022.

293. D.E. Midgett, S.L. Thorn, S.S. Ahn, S. Uman, R. Avendano, I. Melvinsdottir, T. Lysyy, J.S. Kim, J.S. Duncan, J.D. Humphrey, X. Papademitris, J.A. Burdick, A.J. Sinusas, CineCT Platform for In Vivo and Ex Vivo Measurement of 3D High Resolution Lagrangian Strains in the Left Ventricle Following Myocardial Infarction and Intramyocardial Delivery of Theranostic Hydrogel,ÌýJournal of Molecular and Cellular Cardiology, 166:74-90, 2022.

292. J.H. Galarraga, R.C. Locke, C.E. Witherel, B. Stoeckl, M. Castilho, R.L. Mauck, J. Malda, R. Levato, J.A. Burdick, Fabrication of MSC-laden Composites of Hyaluronic Acid Hydrogels Reinforced with MEW Scaffolds for Cartilage Repair,ÌýBiofabrication, 14:014106, 2022.

291. B. Yin, J. Ni, C.E. Witherel, M. Yang, J.A. Burdick, C. Wen, S.H.D. Wong, Harnessing Cell-derived Exosomes for Osteoarthritis Theranostics,ÌýTheranostics, 12:207-231, 2022.

290. J.M. Patel, M.L. Sennett, A.R. Martin, K.S. Saleh, M.R. Eby, B.S. Ashley, L.M. Miller, G.R. Dodge, J.A. Burdick, J.L. Carey, R.L. Mauck, Resorbable Pins to Enhance Scaffold Retention in a Porcine Chondral Defect Model,ÌýCartilage, 13:1676S-1687S, 2021.

289. M.D. Davidson, M.E. Prendergast, E. Ban, K.L. Xu, G. Mickel, P. Mensah, A. Dhand, P.A. Janmey, V.B. Shenoy, J.A. Burdick, Programmable and Contractile Materials through Cell Encapsulation in Fibrous Hydrogel Assemblies,ÌýScience Advances, 7:eabi8157, 2021.

288. M.E. Prendergast, M.D. Davidson, J.A. Burdick, A Biofabrication Approach to Align Cells within Bioprinted Photocrosslinkable and Cell-degradable Hydrogel Constructs via Embedded Fibers,ÌýBiofabrication, 13:044108, 2021.

287. V.G. Muir and J.A. Burdick, Chemically-modified Biopolymers for the Formation of Biomedical Hydrogels,ÌýChemical Reviews, 121:10908-10949, 2021.

286. M.L. Becker and J.A. Burdick, Introduction: Polymeric Biomaterials,ÌýChemical Reviews, 121:10789-10791, 2021.

285. V.G. Muir, T.H. Qazi, J. Shan, J. Groll, J.A. Burdick, Influence of Microgel Fabrication Technique on Granular Hydrogel Properties,ÌýACS Biomaterials Science & Engineering, 9:4269-4281, 2021.

284. Y.C. Dong, M. Bouché, S. Uman, J.A. Burdick, D.P. Cormode, Detecting and Monitoring Hydrogels with Medical Imaging,ÌýACS Biomaterials Science & Engineering, 9:4027-4047, 2021.

283. N. Oliva, M. Shin, J.A. Burdick, Editorial: Special Issue on Advanced Biomedical Hydrogels,ÌýACS Biomaterials Science & Engineering, 9:3993-3996, 2021.

282. M. Bouché, Y.C. Dong, S. Sheikh, K. Taing, D. Saxena, J.C. Hsu, M.H. Chen, R.D. Salinas, H. Song, J.A. Burdick, J. Dorsey, D.P. Cormode, A Novel Treatment for Glioblastoma Delivered by a Radiation Responsive and Radiopaque Hydrogel,ÌýACS Biomaterials Science & Engineering, 7:3209-3220, 2021.

281. W.J. Gordian-Velez, D. Chouhan, R.A. Espana, H.I. Chen, J.A. Burdick, J.E. Duda, D.K. Cullen, Restoring Lost Nigrostriatal Fibers in Parkinson’s Disease based on Clinically-Inspired Design Criteriia,ÌýBrain Research Bulletin, 175:168-185, 2021.

280. B. Yang, K. Wei, C. Loebel, K. Zhang, Q. Feng, R. Li, D.S. Wong, X. Xu, C. Lau, X. Chen, P. Zhao, C. Yin, J.A. Burdick, Y. Wang, L. Bian, Enhanced Mechanosensing of Cells in Synthetic 3D Matrix with Controlled Biophysical Dynamics,ÌýNature Communications, 12:3514, 2021.

279. J.M. Patel, C. Loebel, K.S. Saleh, B.C. Wise, E.D. Bonnevie, L.M. Miller, J.L. Carey, J.A. Burdick, R.L. Mauck, Stabilization of Damaged Articular Cartilage with Hydrogel-mediated Reinforcement and Sealing,ÌýAdvanced Healthcare Materials, 10:2100315, 2021.

278. R. Cruz-Acuna, G. Vunjak-Novakovic, J.A. Burdick, A.K. Rustgi, Emerging Technologies Provide Insights on Cancer Extracellular Matrix Biology and Therapeutics,ÌýiScience, 24:102475, 2021.

277. A.R. Martin, J.M. Patel, R.C. Locke, M.R. Eby, K.S. Saleh, M.D. Davidson, M.L. Sennett, H.M. Zlotnick, A.H. Chang, J.L. Carey, J.A. Burdick, R.L. Mauck, Nanofibrous Hyaluronic Acid Scaffolds Delivering TGF-b3 and SDF-1a for Articular Cartilage Repair in a Large Animal Model,ÌýActa Biomaterialia, 126:170-182, 2021.

276. J.J. Chung, S.T. Kim, S. Zaman, M.R. Helmers, M.F. Arisi, E. Li, Z. Tran, C.W. Chen, P. Altshuler, M.H. Chen, J.A. Burdick, P. Atluri, Therapeutic Efficacy of Cryopreserved, Allogeneic Extracellular Vesicles for Treatment of Acute Myocardial Infarction,ÌýInternational Heart Journal, 62:381-389, 2021.

275. A.P. Dhand, J.H. Galarraga, J.A. Burdick, Enhancing Biopolymer Hydrogel Functionality through Interpenetrating Networks,ÌýTrends in Biotechnology, 39:519-538, 2021.

274. J.A. Zepp, M.P. Morley, C. Loebel, M.M. Kremp, F.N. Chaudhry, M.C. Basil, J.P. Leach, D.C. Liberti, T.K. Niethamer, Y. Ying, S. Jayachandran, A. Babu, S. Zhou, D.B. Frank, J.A. Burdick, E.E. Morrisey, Genomic, Epignomic, and Biophysical Cues Controlling the Emergence of the Lung Alveolus,ÌýScience, 371:eabc3172, 2021.

273. T.H. Qazi and J.A. Burdick, Granular Hydrogels for Endogenous Tissue Repair,ÌýBiomaterials and Biosystems, 1:100008, 2021.

272. A.C. Daly, M.D. Davidson, J.A. Burdick, 3D Printing of High Cell-Density Heterogenous Tissue Models through Spheroid Fusion within Self-Healing Hydrogels,ÌýNature Communications, 12:753, 2021.

271. B.D. Cosgrove, C. Loebel, T.P. Driscoll, T.K. Tsinman, E.N. Dai, S.J. Heo, N.A. Dyment, J.A. Burdick, R.L. Mauck, Nuclear Envelope Wrinkling Predicts Mesenchymal Progenitor Cell Mechano-Response in 2D and 3D Microenvironments,ÌýBiomaterials, 270:120662, 2021.

270. A.C. Daly, M.E. Prendergast, A.J. Hughes, J.A. Burdick, Bioprinting for the Biologist,ÌýCell, 184:18-32, 2021.

269. B.B. Mendes, A.C. Daly, R.L. Reis, R.M.A. Domingues, M.E. Gomes, J.A. Burdick, Injectable Hyaluronic Acid and Platelet Lysate-derived Granular Hydrogels for Biomedical Applications,ÌýActa Biomaterialia, 119:101-113, 2021.

268. J.E. Cohen, A.B. Goldstone, H. Wang, B.P. Purcell, Y. Shudo, J.W. MacArthur, A.N. Steele, M.J. Paulsen, B.B. Edwards, C.N. Aribeana, N.C. Cheung, J.A. Burdick, Y.J. Woo, A Bioengineered Neuregulin-Hydrogel Therapy Reduces Scar Size and Enhances Post-Infarct Ventricular Contractility in an Ovine Large Animal Model,ÌýJournal of Cardiovascular Development and Disease, 7:53, 2020.

267. S. Trujillo, S.L. Vega, K.H. Song, M.J. Dalby, J.A. Burdick, M. Salmeron-Sanchez, Engineered Full-length Fibronectin-Hyaluronic Acid Hydrogels for Stem Cell Engineering,ÌýAdvanced Healthcare Materials, 9:2000989, 2020.

266. L. Ouyang, J.P.K. Armstrong, Y. Lin, J.P. Wojciechowski, C. Lee-Reeves, D. Hachin, K. Zhou, J.A. Burdick, M.M. Stevens, Expanding and Optimizing 3D Bioprinting Capabilities using Complementary Network Bioinks,ÌýScience Advances, 6:eabc5529, 2020.

265. K.S. Lim, J.H. Galarraga, X. Cui, G.C.J. Lindberg, J.A. Burdick, T.B.F. Woodfield, Fundamentals and Applications of Photocrosslinking in Bioprinting,ÌýChemical Reviews, 120:10662-10694, 2020.

264. C. Loebel, M.Y. Kwon, C. Wang, L. Han, R.L. Mauck, J.A. Burdick, Metabolic Labeling to Probe the Spatiotemporal Accumulation of Matrix at the Chondrocyte-Hydrogel Interface,ÌýAdvanced Functional Materials, 30:1909802, 2020.

263. D.S. Li, R. Avazmohammadi, C.B. Rodell, E.W. Hsu, J.A. Burdick, J.H. Gorman, R.C. Gorman, M.S. Sacks, How Hydrogel Inclusions Modulate the Local Mechanical Response in Early and Fully Formed Post-Infarcted Myocardium,ÌýActa Biomaterialia, 14:296-306, 2020.

262. C.B. Rodell, Z.L. Zhang, N.N. Dusaj, Y. Oquendo, M.E. Lee, W. Bouma, J.H. Gorman, J.A. Burdick, R.C. Gorman, Injectable Shear-Thinning Hydrogels Prevent Ischemic Mitral Regurgitation and Normalize Ventricular Flow Dynamics,ÌýSeminars in Thoracic and Cardiovascular Surgery, 32:445-453, 2020.

261. S. Uman, L.L. Wang, S.L. Thorn, Z. Liu, J.S. Duncan, A.J. Sinusas, J.A. Burdick, Imaging of Injectable Hydrogels Delivered into Myocardium with SPECT/CT,ÌýAdvanced Healthcare Materials, 9:2000294, 2020.

260. S.J. Heo, K.H. Song, S. Thakur, L.M. Miller, X. Cao, A.P. Peredo, B.N. Seiber, F. Qu, T.P. Driscoll, V.B. Shenoy, M. Lakadamyali, J.A. Burdick, R.L. Mauck, Nuclear Softening Expedites Interstitial Cell Migration in Fibrous Networks and Dense Connective Tissues,ÌýScience Advances, 6:eaax5083, 2020.

259. S.H. Hong, M. Shin, E. Park, J.H. Ryu, J.A. Burdick, H. Lee, Alginate-boronic acid: pH-triggered Bio-inspired Glue for Hydrogel Assembly,ÌýAdvanced Functional Materials, 30:1908497, 2020.

258. M.D. Davidson, J.A. Burdick, R.G. Wells, Engineered Biomaterial Platforms to Study Fibrosis,ÌýAdvanced Healthcare Materials, 9:1901682, 2020.

257. K.H. Song, S.J. Heo, A.P. Peredo, M.D. Davidson, R.L. Mauck, J.A. Burdick, Influence of Fiber Stiffness on Meniscal Cell Migration into Dense Fibrous Networks,ÌýAdvanced Healthcare Materials, 9:1901228, 2020.

256. J.A. Burdick, A.J. Garcías, Special Issue: Biomaterials in Mechanobiology,ÌýAdvanced Healthcare Materials, 9:2000412, 2020.

255. J.J. Chung, J. Han, L.L. Wang, M.F. Arisi, S. Zaman, J. Gordon, E. Li, S.T. Kim, Z. Tran, C.W. Chen, A.C. Gaffey, J.A. Burdick, P. Atluri, Delayed Delivery of Endothelial Progenitor Cell-Derived Extracellular Vesicles via Shear-Thinning Gel Improves Post-Infarct Hemodynamics,ÌýJournal of Thoracic and Cardiovascular Surgery, 159:1825-1835, 2020.

254. M.E. Prendergast and J.A. Burdick, Recent Advances in Enabling Technologies in 3D Printing for Precision Medicine,ÌýAdvanced Materials, 32:1902516, 2020.

253. S. Uman, A. Dhand, J.A. Burdick, Recent Advances in Shear-thinning and Self-healing Hydrogels for Biomedical Applications,ÌýJournal of Applied Polymer Science, 137:48668, 2020.

252. M.D. Davidson, E. Ban, A.C.M. Schoonen, M.H. Lee, M. D’Este, V.B. Shenoy, J.A. Burdick, Mechanochemical Adhesion and Plasticity in Multi-fiber Hydrogel Networks,ÌýAdvanced Materials, 32:1905719, 2020.

251. W. Sun, B. Starly, A.C. Daly, J.A. Burdick, J. Groll, G. Skeldon, W. Shu, Y. Sakai, M. Shinohara, M. Nishikawa, J. Jang, D.-W. Cho, M. Nie, S. Takeuchi, S. Ostrovidov, A. Khademhosseini, R.D. Kamm, V. Mironov, L. Moroni, I.T. Ozbolat, The Bioprinting Roadmap,ÌýBiofabrication, 12:022002, 2020.

250. A.C. Daly, L.A. Riley, T. Segura, J.A. Burdick, Hydrogel Microparticles for Biomedical Applications,ÌýNature Reviews Materials, 5:20-43, 2020.

249. J.H. Galarraga, M.Y. Kwon, J.A. Burdick, 3D Bioprinting via an In Situ Crosslinking Technique towards Engineering Cartilage Tissue,ÌýScientific Reports, 9:19987, 2019.

248. M. Shin, K.H. Song, J.C. Burrell, D.K. Cullen, J.A. Burdick, Injectable and Conductive Granular Hydrogels for 3D Printing and Electroactive Tissue Support,ÌýAdvanced Science, 6:1901229, 2019.

247. M.Y. Kwon, C. Wang, J.H. Galarraga, E. Pure, L. Han, J.A. Burdick, Influence of Hyaluronic Acid Modification on CD44 Binding towards the Design of Hydrogel Biomaterials,ÌýBiomaterials, 222:119451, 2019.

246. J.H. Galarraga and J.A. Burdick, Protein Patterning: Moving Hydrogels to the 4th Dimension,ÌýNature Materials, 18:914-915, 2019.

245. M.D. Davidson, K.H. Song, M.H. Lee, J. Llewellyn, Y. Du, B.M. Baker, R.G. Wells, J.A. Burdick, Engineered Fibrous Networks to Investigate the Influence of Fiber Mechanics on Myofibroblast Differentiation,ÌýACS Biomaterials Science & Engineering, 5:3899-3908, 2019.

244. M. Shin, J.H. Galarraga, M.Y. Kwon, H. Lee, J.A. Burdick, Gallol-derived ECM-mimetic Adhesive Bioinks Exhibiting Temporal Shear-thinning and Stabilization Behavior,ÌýActa Biomaterialia, 95:165-175, 2019.

243. C. Loebel, R.L. Mauck, J.A. Burdick, Local Nascent Protein Deposition and Remodeling Guide Mesenchymal Stromal Cell Mechanosensing and Fate in Three-dimensional Hydrogels,ÌýNature Materials, 18:883-891, 2019.

242. J.M. Patel, K.S. Saleh, J.A. Burdick, R.L. Mauck, Bioactive Factors for Cartilage Repair and Regeneration: Improving Delivery, Retention, and Activity,ÌýActa Biomaterialia, 93:222-238, 2019.

241. A.C. Gaffey, M.H. Chen, A. Trubelja, C.M. Venkataraman, C.W. Chen, J.J. Chung, S. Schultz, C.M. Sehgal, J.A. Burdick, P. Atluri, Delivery of Progenitor Cells with Injectable Shear-thinning Hydrogel Maintains Geometry and Normalizes Strain to Stabilize Cardiac Function after Ischemia,ÌýThe Journal of Thoracic and Cardiovascular Surgery, 157:1479-1490, 2019.

240. C. Loebel, A. Ayoub, J.H. Galarraga, O. Kossovar, H. Simaan-Yameen, D. Seliktar, J.A. Burdick, Tailoring Supramolecular Guest-Host Hydrogel Viscoelasticity with Covalent Fibrinogen Double Networks,ÌýJournal of Materials Chemistry B, 7:1753-1760, 2019.

239. M. Kim, D.R. Steinberg, J.A. Burdick, R.L. Mauck, Extracellular Vesicles Mediate Improved Functional Outcomes in Engineered Cartilage Produced from MSC/Chondrocyte Co-Cultures,ÌýProceedings of the National Academy of Sciences (PNAS), 116:1569-1578, 2019.

238. M.H. Chen, J.J. Chung, J.E. Mealy, S. Zaman, E.C. Li, M.F. Arsi, P. Atluri, J.A. Burdick, Injectable Supramolecular Hydrogel/Microgel Composites for Therapeutic Delivery,ÌýMacromolecular Bioscience, 19:1800248, 2019.

237. C.B. Highley, K.H. Song, A.C. Daly, J.A. Burdick, Jammed Microgel Inks for 3D Printing Applications,ÌýAdvanced Science, 6:1801076, 2019.

236. J. Groll, J.A. Burdick, D.W. Cho, B. Derby, M. Gelinsky, S.C. Heilshorn, T. Jungst, J. Malda, V.A. Mironov, K. Nakayama, A. Ovsianikov, W. Sun, S. Takeuchi, J.J. Yoo, T.B.F. Woodfield, A Definition of Bioinks and their Distinction from Biomaterial Inks,ÌýBiofabrication, 11:013001, 2018.

235. B.P. Purcell, S.C. Barlow, P.E. Perreault, L. Freeburg, H. Doviak, J. Jacobs, A. Hoenes, K.N. Zellars, A.Y. Khakoo, T. Lee, J.A. Burdick, F.G. Spinale, Delivery of a Matrix Metalloproteinase Responsive Hydrogel Releasing TIMP-3 following Myocardial Infarction: Effects on Left Ventricular Remodeling,ÌýAmerican Journal of Physiology: Heart and Circulatory Physiology, 315:H814-H825, 2018.

234. Y.M. Klyachkin, A. Idris, C.B. Rodell, H. Tripathi, S. Ye, P. Nagareddy, A. Asfour, E. Gao, R. Annabathula, M. Ratajczak, J.A. Burdick, A. Abdel-Latif, Cathelicidin Related Antimicrobial Peptide (CRAMP) Enhances Bone Marrow Cell Retention and Attenuates Cardiac Dysfunction in a Mouse Model of MI,ÌýStem Cell Reviews and Reports, 14:702-714, 2018.

233. H. Wang, C.B. Rodell, X. Zhang, N.N. Dusaj, J.H. Gorman, JJ. Pilla, B.M. Jackson, J.A. Burdick, R.C. Gorman, J.F. Wenk, Effects of Hydrogel Injection on Borderzone Contractility Post Myocardial Infarction,ÌýBiomechanics and Modeling in Mechanobiology, 17:1533-1542, 2018.

232. K.H. Song, C.B. Highley, A. Rouff, J.A. Burdick, Complex 3D-printed Microchannels within Cell-degradable Hydrogels,ÌýAdvanced Functional Materials, 28: 1801331, 2018.

231. L.L. Wang, J.J. Chung, E.C. Li, S. Uman, P. Atluri, J.A. Burdick, Injectable and Protease-Degradable Hydrogel for siRNA Sequestration and Triggered Delivery to the Heart,ÌýJournal of Controlled Release, 285:152-161, 2018.

230. C.W. Chen, L.L. Wang, S. Zaman, J. Gordon, M.F. Arisi, C.M. Venkataraman, J.J. Chung, G. Hung, A.C. Gaffey, L.A. Spruce, H. Fazelinia, R.C. Gorman, S.H. Seeholzer, J.A. Burdick, P. Atluri, Sustained Release of Endothelial Progenitor Cell-Derived Extracellular Vesicles from Shear-Thinning Hydrogels Improves Angiogenesis and Promotes Function after Myocardial Infarction,ÌýCardiovascular Research, 114: 1029-1040, 2018.

229. J.E. Mealy, J.J. Chung, H.H. Jeong, D. Issadore, D. Lee, P. Atluri, J.A. Burdick, Injectable Granular Hydrogels with Multifunctional Properties for Biomedical Applications,ÌýAdvanced Materials, 30:1705912, 2018.

228. L. Moroni, J.A. Burdick, C.B. Highley, S.J. Lee, Y. Morimoto, S. Takeuchi, J.J. Yoo, Biofabrication Strategies for 3D in vitro Models and Regenerative Medicine,ÌýNature Reviews Materials, 3:21-37, 2018.

227. S. Ilkhanizadeh, H. Sabelström, Y.A. Miroshnikova, A. Frantz, W. Zhu, A. Idilli, J.N. Lakins, C. Schmidt, D.A. Quigley, T. Fenster, E. Yuan, J.R. Trzeciak, S. Saxena, O.R. Lindberg, J.K. Mouw, J.A. Burdick, S. Magnitsky, M.S. Berger, J.J. Phillips, D. Arosio, D. Sun, V.M. Weaver, W. Weiss, A.I. Persson, Antisecretory Factor-mediated Inhibition of Cell Volume Dynamics Produces Anti-tumor Activity in Glioblastoma,ÌýMolecular Cancer Research, 16:777-790, 2018.

226. M.Y. Kwon, S.L. Vega, W.M. Gramlich, M. Kim, R.L. Mauck, J.A. Burdick, Dose and Timing of N-cadherin Peptides Regulates MSC Chondrogenesis within Hydrogels,ÌýAdvanced Healthcare Materials, 7:1701199, 2018.

225. L. Guo, H.J. Kim, H. Wang, J. Monaghan, F. Frevermuth, J.C. Sung, K. O’Donovan, C.M. Fare, Z. Diaz, N. Singh, Z.C. Zhang, M. Coughlin, E.A. Sweeny, M.E. DeSantis, M.E. Jackrel, C.B. Rodell, J.A. Burdick, O.D. King, A.D. Gitler, C. Lagier-Tourenne, U.B. Pandey, Y.M. Chook, J.P. Taylor, J. Shorter, Nuclear-import Receptors Reverse Aberrant Phase Transitions of Disease-Linked RNA-binding Proteins with Prion-like Domains,ÌýCell, 173:677-692, 2018.

224. L. Ouyang, J.A. Burdick, W. Sun, Facile Biofabrication of Heterogeneous Multilayer Tubular Hydrogels by Fast Diffusion-Induced Gelation,ÌýACS Applied Materials & Interfaces, 10:12424-12430, 2018.

223. A.M. Rosales, C.B. Rodell, M.H. Chen, M.G. Morrow, K.S. Anseth, J.A. Burdick, Reversible Control of Network Properties in Azobenzene-Containing Hyaluronic Acid-Based Hydrogels,ÌýBioconjugate Chemistry, 29:905-913, 2018.

222. Z. Gong, S.E. Szczesny, S.R. Caliari, E.E. Charrier, O. Chaudhuri, X. Cao, Y. Lin, R.L. Mauck, P.A. Janmey, J.A. Burdick, V.B. Shenoy, Matching Material and Cellular Timescales Maximizes Cell Spreading on Viscoelastic Substrates,ÌýProceedings of the National Academy of Sciences (PNAS), 115:E2686-E2695, 2018.

221. L.L. Wang, C.B. Highley, Y.C. Yeh, J.H. Galarraga, S. Uman, J.A. Burdick, 3-dimensional Extrusion Bioprinting of Single- and Double-network Hydrogels Containing Dynamic Covalent Crosslinks,ÌýJournal of Biomedical Materials Research A, 106A:865-875, 2018.

220. C. Loebel and J.A. Burdick, Engineering Stem and Stromal Cell Therapies for Musculoskeletal Tissue Repair,ÌýCell Stem Cell, 22:325-339, 2018.

219. T.L. Rapp, C.B. Highley, B.C. Manor, J.A. Burdick, I.J. Dmochowski, Ruthenium-Crosslinked Hydrogels with Rapid, Visible-Light Degradation,ÌýChemistry: A European Journal, 24:2328-2333, 2018.

218. L. Moroni, T. Boland, J.A. Burdick, C. De Maria, B. Derby, G. Forgacs, J. Groll, Q. Li, J. Malda, V.A. Mironov, C. Mota, M. Nakamura, W. Shu, S. Takeuchi, T.B.F. Woodfield, T. Xu, J.J. Yoo, G. Vozzi, Biofabrication: A Guide to Technology and Terminology,ÌýTrends in Biotechnology, 36:384-402, 2018.

217. S.L. Vega, M.Y. Kwon, K.H. Song, C. Wang, R.L. Mauck, L. Han, J.A. Burdick, Combinatorial Hydrogels with Biochemical Gradients for Screening 3D Cellular Microenvironments,ÌýNature Communications, 9:614, 2018.

216. M.H. Chen, L.L. Wang, J.J. Chung, Y.H. Kim, P. Atluri, J.A. Burdick, Methods to Assess Shear-Thinning Hydrogels for Application as Injectable Biomaterials,ÌýACS Biomaterials Science & Engineering, 3:3146-3160, 2017.

215. L.L. Wang, Y. Liu, J.J. Chung, T. Wang, A.C. Gaffey, M. Lu, C.A. Cavanaugh, S. Zhou, R. Kanade, P. Atluri, E.E. Morrisey, J.A. Burdick, Sustained miRNA Delivery from an Injectable Hydrogel Promotes Cardiomyocyte Proliferation and Functional Regeneration after Ischaemic Injury,ÌýNature Biomedical Engineering, 1: 983-992, 2017.

214. F. Qu, J.L. Holloway, J.A. Burdick, R.L. Mauck, Programmed Biomolecule Delivery to Enable and Direct Cell Migration for Connective Tissue Repair,ÌýNature Communications, 8:1780, 2017.

213. H. Wang, C.B. Rodell, M.E. Lee, N.N. Dusaj, J.H. Gorman, J.A. Burdick, R.C. Gorman, J. Wenk, Computational Sensitivity Investigation of Hydrogel Injection Characteristics for Myocardial Support,ÌýJournal of Biomechanics, 64:231-235, 2017.

212. M.C. Lampi, M. Guvendiren, J.A. Burdick, C.A. Reinhart-King, Photopatterned Hydrogels to Investigate the Endothelial Cell Response to Matrix Stiffness Heterogeneity,ÌýACS Biomaterials Science & Engineering, 3:3007-3016, 2017.

211. A.M. Rosales, S.L. Vega, F.W. DelRio, J.A. Burdick, K.S. Anseth, Hydrogels with Reversible Mechanics to Probe Dynamic Cell Microenvironments,ÌýAngewandte Chemie, 129:12300-12304, 2017.

210. R.L. Sala, M.Y. Kwon, M. Kim, S. Gullbrand, E.A. Henning, R.L. Mauck, E.R. Camargo, J.A. Burdick, Thermosensitive Poly(N-vinylcaprolactam) Injectable Hydrogels for Cartilage Tissue Engineering,ÌýTissue Engineering A, 23:935-945, 2017.

209. Y.C. Yeh, E.A. Corbin, S.R. Caliari, L. Ouyang, S.L. Vega, R. Truitt, L. Han, K.B. Margulies, J.A. Burdick, Mechanically Dynamic PDMS Substrates to Investigate Changing Cell Environments,ÌýBiomaterials, 145:23-32, 2017.

208. B. Trappmann, B.M. Baker, W.J. Polacheck, C.K. Choi, J.A. Burdick, C.S. Chen, Matrix Degradability Controls Multicellularity of Collective Cell Migration,ÌýNature Communications, 8:371, 2017.

207. Y.C. Yeh, L. Ouyang, C.B. Highley, J.A. Burdick, Norbornene-modified Poly(glycerol sebacate) as a Photocurable and Biodegradable Elastomer,ÌýPolymer Chemistry, 8:5091-5099, 2017.

206. M. Kim, M.J. Farrell, D.R. Steinberg, J.A. Burdick, R.L. Mauck, Enhanced Nutrient Transport Improves the Depth-Dependent Properties of Tri-Layered Engineered Cartilage Constructs with Zonal Co-culture of Chondrocytes and MSCs,ÌýActa Biomaterialia, 58:1-11, 2017.

205. C. Loebel, C.B. Rodell, M.H. Chen, J.A. Burdick, Shear-thinning and Self-healing Hydrogels as Injectable Therapeutics and for 3D-Printing,ÌýNature Protocols, 12:1521-1541, 2017.

204. X. Cao, E. Ban, B.M. Baker, Y. Lin, J.A. Burdick, C.S. Chen, V.B. Shenoy, A Multi-scale Model Predicts Increasing Focal Adhesion Size with Decreasing Stiffness in Fibrous Matrices,ÌýProceedings of the National Academy of Sciences (PNAS), 114:E4549-E4555, 2017.

203. V. Ramjee, D. Li, L.J. Manderfield, F. Liu, K.A. Engleka, H. Aghajanian, C.B. Rodell, W. Lu, V. Ho, T. Wang, L. Li, A. Singh, D. Cibi, J.A. Burdick, M.K. Singh, R. Jain, J.A. Epstein, Epicardial YAP/TAZ Orchestrate an Immune Suppressive Response following MI,ÌýJournal of Clinical Investigation, 127:899-911, 2017.

202. L. Ouyang, C.B. Highley, W. Sun, J.A. Burdick, A Generalizable Strategy for the 3D Printing of Hydrogels from Non-viscous Photocrosslinkable Inks,ÌýAdvanced Materials, 29:1604983, 2017.

201. L.L. Wang, J.N. Sloand, A.C. Gaffey, C.M. Venkataraman, Z. Wang, A. Trubelja, D.A. Hammer, P. Atluri, J.A. Burdick, Injectable, Guest-Host Assembled Polyethylenimine Hydrogel for siRNA Delivery,ÌýBiomacromolecules, 18:77-86, 2017.

200. S.L. Vega, M. Kwon, J.A. Burdick, Recent Advances in Hydrogels for Cartilage Tissue Engineering,ÌýEuropean Cells and Materials Journal, 33:59-75, 2017.

199. L.L. Wang and J.A. Burdick, Engineered Hydrogels for Local and Sustained Delivery of RNA-interference Therapies,ÌýAdvanced Healthcare Materials, 6:1601041, 2017.

198. H. Sundararaghavan and J.A. Burdick, Cell Encapsulation, in Comprehensive Biomaterials II (eds. P. Ducheyne, D. Hutmacher, J. Kirkpatrick, K. Healy), Elsevier, 2017.

197. B.D. Cosgrove, K.L. Mui, T.P. Driscoll, S.R. Caliari, K.D. Mehta, R.K. Assoian, J.A. Burdick, R.L. Mauck, N-cadherin Adhesive Interactions Modulate ECM Mechanosensing and Fate Commitment of Mesenchymal Stem Cells,ÌýNature Materials, 15, 1297-1306, 2016.

196. H. Wang, X. Zhang, S.M. Dorsey, J.R. McGarvey, K.S. Campbell, J.A. Burdick, J.H. Gorman, J.J. Pilla, R.C. Gorman, J.F. Wenk, Computational Investigation of Transmural Differences in Left Ventricular Contractility,ÌýJournal of Biomechanical Engineering, 138:114501, 2016.

195. A. Nikou, S.M. Dorsey, J.R. McGarvey, J.H. Gorman, J.A. Burdick, J.J. Pilla, R.C. Gorman, J.F. Wenk, Effects of Using the Unloaded Configuration in Predicting the In Vivo Diastolic Properties of the Heart,ÌýComputer Methods in Biomechanics and Biomedical Engineering, 19:1714-1720, 2016.

194. C.B. Rodell, M.E. Lee, H. Wang, S. Takebayashi, T. Takayama, T. Kawaura, J.S. Arkles, N.N. Dusaj, S.M. Dorsey, W.R.T. Witschey, J.J. Pilla, J.H. Gorman, J.F. Wenk, J.A. Burdick, R.C. Gorman, Injectable Shear-Thinning Hydrogels for Minimally Invasive Delivery to Infarcted Myocardium to Limit Left-Ventricular Remodeling,ÌýCirculation: Cardiovascular Interventions, 9:e004058, 2016.

193. L. Ouyang, C.B. Highley, C.B. Rodell, W. Sun, J.A. Burdick, 3D Printing of Shear-Thinning Hyaluronic Acid Hydrogels with Secondary Crosslinking,ÌýACS Biomaterials Science & Engineering, 2:1743-1751, 2016.

192. J. Miller and J.A. Burdick, Editorial: Special Issue on 3D Printing of Biomaterials,ÌýACS Biomaterials Science & Engineering, 2:1658-1661, 2016.

191. C.B. Rodell, N.N. Dusaj, C.B. Highley, J.A. Burdick, Injectable and Cytocompatible Tough Double-Network Hydrogels Through Tandem Supramolecular and Covalent Crosslinking,ÌýAdvanced Materials, 28:8419-8424, 2016.

190. Y.C. Yeh, C.B. Highley, L. Ouyang, J.A. Burdick, 3D Printing of Photocurable Poly(glycerol sebacate) Elastomers,ÌýBiofabrication, 8:045004, 2016.

189. C.B. Rodell, C.B. Highley, M.H. Chen, N.N. Dusaj, C. Wang, L. Han, J.A. Burdick, Evolution of Hierarchical Porous Structures in Supramolecular Guest-Host Hydrogels,ÌýSoft Matter, 12:7839-7847, 2016.

188. K.G. Abdullah and J.A. Burdick, Local and Topical Treatment of Glioblastoma, in Glioblastoma (eds. K. Abdullah and S. Brem), Elsevier, 2016.

187. D.E. Soranno, C.B. Rodell, C. Altmann, J. Duplantis, A. Andres-Hernando, J.A. Burdick, S. Faubel, Delivery of Interleuken-10 via Injectable Hydrogels Improves Renal Outcomes and Reduces Systemic Inflammation following Ischemic Acute Kidney Injury in Mice,ÌýAmerican Journal of Physiology – Renal Physiology, 311:F362-F372, 2016.

186. S.R. Caliari, S.L. Vega, M. Kwon, E.M. Soulas, J.A. Burdick, Dimensionality and Spreading Influence MSC YAP/TAZ Signaling in Hydrogel Environments,ÌýBiomaterials, 103:314-323, 2016.

185. C.B. Highley, M. Kim, D. Lee, J.A. Burdick, Near-Infrared Light Triggered Release of Molecules from Supramolecular Hydrogel-Nanorod Composites,ÌýNanomedicine, 11:1579-1590, 2016.

184. S.R. Caliari, M. Perepelyuk, E. Soulas, G.Y. Lee, R.G. Wells, J.A. Burdick, Gradually Softening Hydrogels for Modeling Hepatic Stellate Cell Behavior During Fibrosis Regression,ÌýIntegrative Biology, 8:720-728, 2016.

183. S.L. Vega, M. Kwon, R.L. Mauck, J.A. Burdick, Single Cell Imaging to Probe Mesenchymal Stem Cell N-Cadherin Mediated Signaling within Hydrogels,ÌýAnnals of Biomedical Engineering, 44:1921-1930, 2016.

182. S.R. Caliari and J.A. Burdick, A Practical Guide to Hydrogels for Cell Culture,ÌýNature Methods, 13:405-414, 2016.

181. A. Nikou, S.M. Dorsey, J.R. McGarvey, J.H. Gorman, J.A. Burdick, J.J. Pilla, R.C. Gorman, J.F. Wenk, Computational Modeling of Healthy Myocardium in Diastole,ÌýAnnals of Biomedical Engineering, 44:980-992, 2016.

180. M.B. Fisher, N.S. Belkin, A.H. Milby, E.A. Henning, N. Soegaard, M. Kim, C. Pfeifer, V. Saxena, G.R. Dodge, J.A. Burdick, T.P. Schaer, D.R. Steinberg, R.L. Mauck, Effects of Mesenchymal Stem Cell and Growth Factor Delivery on Cartilage Repair in a Mini-Pig Model,ÌýCartilage, 7:174-184, 2016.

179. S.R. Caliari, M. Perepelyuk, B.D. Cosgrove, S.J. Tsai, G.Y. Lee, R.L. Mauck, R.G. Wells, J.A. Burdick, Stiffening Hydrogels for Investigating the Dynamics of Hepatic Stellate Cell Mechanotransduction during Myofibroblast Activation,ÌýScientific Reports, 6:21387, 2016.

178. C.B. Highley, G.D. Prestwich, J.A. Burdick, Recent Advances in Hyaluronic Acid Hydrogels for Biomedical Applications,ÌýCurrent Opinion in Biotechnology, 40:35-40, 2016.

177. P. Viswanathan, M. Guvendiren, W. Chua, S.B. Telerman, K. Liakath-Ali, J.A. Burdick, F.M. Watt, Mimicking the Topography of the Epidermal-Dermal Interface with Elastomer Substrates,ÌýIntegrative Biology, 8:21-29, 2016.

176. J. Groll, T. Boland, T. Blunk, J.A. Burdick, D.W. Cho, P.D. Dalton, B. Derby, G. Forgacs, Q. Li, V.A. Mironov, L. Moroni, M. Nakamura, W. Shu, S. Takeuchi, G. Vozzi, T.B.F. Woodfield, T. Xu, J.J. Yoo, J. Malda, Biofabrication: Reappraising the Definition of an Evolving Field,ÌýBiofabrication, 8:013001, 2016.

175. J.A. Burdick, Robert L. Mauck, and S. Gerecht, To Serve and Protect: Hydrogels to Improve Stem Cell-Based Therapies,ÌýCell Stem Cell, 18:13-15, 2016.

174. S.M. Dorsey and J.A. Burdick, Hydrogels for Cardiac Repair, in Applications of Hydrogels in Regenerative Medicine (eds. A. Khademhosseini and U. Demirci), World Scientific Publishing Company, 2016.

173. C.B. Rodell, J.E. Mealy, J.A. Burdick, Supramolecular Guest-Host Interactions for the Preparation of Biomedical Materials,ÌýBioconjugate Chemistry, 26:2279-2289, 2015.

172. M.W. Tibbitt, C.B. Rodell, J.A. Burdick, K.S. Anseth, Progress in Material Design for Biomedical Applications,Ìý Proceedings of the National Academy of Sciences (PNAS), 112:14444-14451, 2015.

171. I.L. Kim, C.G. Pfeifer, M.B. Fisher, V. Saxena, G.R. Meloni, M. Kwon, M. Kim, D.R. Steinberg, R.L. Mauck, J.A. Burdick, Fibrous Scaffolds with Varied Fiber Chemistry and Growth Factor Delivery Promote Repair in a Porcine Cartilage Defect Model,ÌýTissue Engineering A, 21:2680-2690, 2015.

170. A.C. Gaffey, M.H. Chen, C.M. Venkataraman, A. Trubelja, C.B. Rodell, P.V. Dinh, G. Hung, J.W. MacArthur, R.V. Soopan, J.A. Burdick, P. Atluri, Injectable Shear-thinning Hydrogels to Deliver Endothelial Progenitor Cells to Enhance Cell Engraftment and Improve Ischemic Myocardium,ÌýJournal of Thoracic and Cardiovascular Surgery, 150:1268-1277, 2015.

169. B.M. Baker, B. Trappmann, W.Y. Wang, M.S. Sakar, I.L. Kim, V.B. Shenoy, J.A. Burdick, C.S. Chen, Cell-Mediated Fiber Recruitment Drives Extracellular Matrix Mechanosensing in Engineered Fibrillar Microenvironments,ÌýNature Materials, 14:1262-1268, 2015.

168. J.E. Mealy, C.B. Rodell, J.A. Burdick, Sustained Small Molecule Delivery from Injectable Hydrogels through Host-Guest Mediated Retention,ÌýJournal of Materials Chemistry B, 3:8010-8019, 2015.

167. C.B. Highley, C.B. Rodell, J.A. Burdick, Direct 3D Printing of Shear-thinning Hydrogels into Self-healing Hydrogels,ÌýAdvanced Materials, 27:5075-5079, 2015.

166. J.L. Holloway, H. Ma, R. Rai, K.D. Hankenson, J.A. Burdick, Synergistic Effects of SDF-1α and BMP-2 Delivery from Proteolytically Degradable Hyaluronic Acid Hydrogels for Bone Repair,ÌýMacromolecular Bioscience, 15:1218-1223, 2015.

165. M. Kim, S.J. Yeo, C.B. Highley, P.J. Yoo, J.A. Burdick, J. Doh, D. Lee, One-step Generation of Multi-functional Polyelectrolyte Microcapsules via Nanoscale Interfacial Complexation in Emulsion (NICE),ÌýACS Nano, 9:8269-8278, 2015.

164. S.M. Dorsey, J.R. McGarvey, H. Wang, A. Nikou, L. Arama, K.J. Koomalsingh, N. Kondo, J.H. Gorman, J.J. Pila, R.C. Gorman, J.F. Wenk, J.A. Burdick, MRI Evaluation of Injectable Hyaluronic Acid Hydrogel Therapy to Limit Ventricular Remodeling after Myocardial Infarction,ÌýBiomaterials, 69:65-75, 2015.

163. J.R. McGarvey, D. Mojsejenko, S.M. Dorsey, A. Nikou, J.A. Burdick, J.H. Gorman, B.M. Jackson, J.J. Pilla, R.C. Gorman, J.F. Wenk, Temporal Changes in Infarct Material Properties: An In Vivo Assessment using MRI and Finite Element Simulations,ÌýAnnals of Thoracic Surgery, 100:582-589, 2015.

162. M. Guvendiren and J.A. Burdick, Hydrogels with Dynamically Tunable Properties, in Integrative Mechanobiology: Micro and Nano Techniques in Cell Mechanobiology (eds. Y. Sun, C. Simmons, D. Kim), Cambridge University Press, 2015.

161. D. Mojsejenko, J.R. McGarvey, S.M. Dorsey, J.H. Gorman, J.A. Burdick, J.J. Pilla, R.C. Gorman, J.F. Wenk, Estimating Passive Mechanical Properties in a Myocardial Infarction using MRI and Finite Element Simulations,ÌýBiomechanics and Modeling in Mechanobiology, 14:633-647, 2015.

160. K. Ihada-Stansbury, J. Ames, S. Sanyal, N. Aiad, K.C. Kawabata, I. Levental, H.G. Sundararaghavan, K. Miyazono, J.A. Burdick, P. Janmey, R.G. Wells, P.L. Jones, The Homeobox Gene Transcription Factor Prx1 Regulates Pulmonary Vascular Smooth Muscle Cell Differentiation via its Control over Matrix Properties,ÌýPulmonary Circulation, 5:382-397, 2015.

159. C.B. Rodell, R. Rai, S. Faubel, J.A. Burdick, D.E. Soranno, Local Immunotherapy via Delivery of Interleukin-10 and Transforming Growth Factor beta Antagonist for Treatment of Chronic Kidney Disease,ÌýJournal of Controlled Release, 206:131-139, 2015.

158. S.M. Dorsey, M. Haris, A. Singh, W.R.T. Witschey, C.B. Rodell, F. Kogan, R. Reddy, J.A. Burdick, Visualization of Injectable Hydrogels using Chemical Exchange Saturation Transfer MRI,ÌýACS Biomaterials Science & Engineering, 1:227-237, 2015.

157. C.B. Rodell, R.J. Wade, B.P. Purcell, N. Dusaj, J.A. Burdick, Selective Proteolytic Degradation of Guest-Host Assembled, Injectable Hyaluronic Acid Hydrogels,ÌýACS Biomaterials Science & Engineering, 1:277-286, 2015.

156. R.L. Mauck and J.A. Burdick, From Repair to Regeneration; Biomaterials to Reprogram the Wound Microenvironment,ÌýAnnals of Biomedical Engineering, 43:529-542, 2015.

155. R.J. Wade, E.J. Bassin, C.B. Rodell, J.A. Burdick, Protease Degradable Electrospun Fibrous Hydrogels,ÌýNature Communications, 6:6639, 2015.

154. J.R. McGarvey, N. Kondo, W. Witschey, M. Takebe, C. Aoki, J.A. Burdick, F.G. Spinale, J.J. Pilla, J.H. Gorman, R.C. Gorman, Injectable Microsphere Gel Progressively Improves Global Ventricular Function, Regional Contractile Strain, and Mitral Regurgitation after Myocardial Infarction,ÌýAnnals of Thoracic Surgery, 99:597-603, 2015.

153. R.J. Wade, E.J. Bassin, W.M. Gramlich, J.A. Burdick, Nanofibrous Hydrogels with Spatially Patterned Biochemical Signals to Control Cell Behavior,ÌýAdvanced Materials, 27:1356-1362, 2015.

152. M.B. Fisher, N.S. Belkin, A.R. Milby, E.A. Henning, M. Bostrom, M. Kim, G. Meloni, G.R. Dodge, J.A. Burdick, T.P. Schaer, D.R. Steinberg, R.L. Mauck, Cartilage Repair and Subchondral Bone Remodeling in Response to Focal Lesions in a Mini-Pig Model: Impact of Injury Type and Treatment,ÌýTissue Engineering A, 3:850-860, 2015.

151. C.B. Rodell, J.W. MacArthur, S.M. Dorsey, R.J. Wade, L.L. Wang, Y.J. Woo, J.A. Burdick, Shear-thinning Hydrogels with Secondary Autonomous Covalent Crosslinking to Modulate Viscoelastic Properties In Vivo,ÌýAdvanced Functional Materials, 25:636-644, 2015.

150. R.J. Wade and J.A. Burdick, Advances in the Engineering of Nanofibrous Scaffolds for Biomedical Applications: From Electrospinning to Self-Assembly,ÌýNano Today, 9:722-742.

149. C.B. Highley, C.B. Rodell, I.L. Kim, R.J. Wade, J.A. Burdick, Ordered, Adherent Layers of Nanofibers Enabled by Supramolecular Interactions,ÌýJournal of Materials Chemistry B, 2:8110-8115, 2014.

148. J.J. Green and J.A. Burdick, Editorial: Nanoscale Biomaterials,ÌýJournal of Materials Chemistry B, 2:8039-8042, 2014.

147. C.B. Rodell and J.A. Burdick, Radicals Promote Magnetic Gel Assembly,ÌýNature, 514:574-575, 2014.

146. M.P. Lutolf and J.A. Burdick, Editorial: Stem Cell-Materials Interactions,ÌýBiomaterials Science, 2:545-1547, 2014.

145. J.R. McGarvey, S. Pettaway, J. Shuman, C.P. Novack, K.N. Zellars, P. Freels, R.L. Echols, J.A. Burdick, J.H. Gorman, R.C. Gorman, F.G. Spinale, Targeted Injection of a Biocomposite Material Alters Macrophage and Fibroblast Phenotype and Function Following Myocardial Infarction: Relation to LV Remodeling,ÌýJournal of Pharmacology and Experimental Therapeutics, 350:71-709, 2014.

144. J.L. Holloway, H. Ma, R. Rai, J.A. Burdick, Modulating Hydrogel Crosslink Density and Degradation to Control Bone Morphogenetic Protein Delivery and Bone Formation,ÌýJournal of Controlled Release, 191:63-70, 2014.

143. M. Guvendiren, M. Perepelyuk, R.G. Wells, J.A. Burdick, Hydrogels with Differential and Patterned Mechanics to Study Stiffness Mediated Myofibroblastic Differentiation of Hepatic Stellate Cells,ÌýJournal of the Mechanical Behavior of Biomedical Materials, 38:198-208, 2014.

142. E. Tous Kichula, H. Wang, S.M. Dorsey, S.E. Szczesny, D.M. Elliott, J.A. Burdick, J.F. Wenk, Experimental and Computational Investigation of Altered Mechanical Properties in Myocardium after Hydrogel Injection,ÌýAnnals of Biomedical Engineering, 7:1546-1556, 2014.

141. J.E. Cohen, B.P. Purcell, J.W. MacArthur, A. Mu, Y. Shudo, J.B. Patel, C.M. Brusalis, A. Trubelja, A.S. Fairman, B.B. Edwards, G. Hung, W. Hiesinger, P. Atluri, K.B. Margulies, J.A. Burdick, Y.J. Woo, A Bioengineered Hydrogel System Enables Targeted and Sustained Intramyocardial Delivery of Neuregulin, Activating the Cardiomyocyte Cell Cycle and Enhancing Ventricular Function in a Murine Model of Ischemic Cardiomyopathy,ÌýCirculation Heart Failure, 7:619-626, 2014.

140. B.P. Purcell, D. Lobb, M.B. Charati, S.M. Dorsey, R.J. Wade, K.N. Zellars, H. Doviak, S. Pettaway, C.B. Logdon, J.A. Shuman, C. Novak, J.H. Gorman, R.C. Gorman, F.G. Spinale, J.A. Burdick, Injectable and Bioresponsive Hydrogels for On-Demand Matrix Metalloproteinase Inhibition,ÌýNature Materials, 13:653-661, 2014.

139. D.E. Soranno, H.D. Lu, H.M. Weber, R. Rai, J.A. Burdick, Immunotherapy with Injectable Hydrogels to Treat Obstructive Nephropathy,ÌýJournal of Biomedical Materials Research A, 102: 2173-2180, 2014.

138. Y.I. Shen, E. Abaci, Y. Krupsi, L.C. Weng, J.A. Burdick, S. Gerecht, Hyaluronic Acid Hydrogel Stiffness and Oxygen Tension Affect Cancer Cell Fate and Endothelial Sprouting,ÌýBiomaterials Science, 2:655-665, 2014.

137. B.P. Purcell, I.L. Kim, V. Chuo, T. Guenin, S.M. Dorsey, J.A. Burdick, Incorporation of Sulfated Hyaluronic Acid Macromers into Degradable Hydrogel Scaffolds for Sustained Molecule Delivery,ÌýBiomaterials Science, 2:693-702, 2014.

136. M.I. Dishowitz, F. Zhu, H.G. Sundararaghavan, J.L. Ifkovits, J.A. Burdick, K.D. Hankenson, Jagged1 Immobilization to a Poly(b-amino ester) Polymer Activates the Notch Signaling Pathway and Induces Osteogenesis,ÌýJournal of Biomedical Materials Research A, 102:1558-1567, 2014.

135. S.R. Eckhouse, B.P. Purcell, J.R. McGarvey, D. Lobb, C.B. Logdon, H. Doviak, J.W. O’Neil, J.A. Schuman, C.P. Novak, K.N. Zellars, S. Pettaway, R.A. Black, A. Khakoo, T. Lee, R. Mukherjee, J.H. Gorman, R.C. Gorman, R.A. Black, J.A. Burdick, F.G. Spinale, Local Hydrogel Release of Recombinant TIMP-3 Attenuates Adverse Left Ventricular Remodeling after Experimental Myocardial Infarction,ÌýScience Translational Medicine, 6:223ra21, 2014.

134. W. Gramlich, J.L. Holloway, R. Rai, J.A. Burdick, Transdermal Gelation of Methacrylated Macromers with Near-infrared Light and Gold Nanorods,ÌýNanotechnology, 25:014004, 2014.

133. C.B. Rodell, A.L. Kaminski, J.A. Burdick, Rational Design of Network Properties in Guest-Host Assembled and Shear-Thinning Hyaluronic Acid Hydrogels,ÌýBiomacromolecules, 14:4125-4134, 2013.

132. W.M. Gramlich, I.L. Kim, J.A. Burdick, Synthesis and Orthogonal Photopatterning of Hyaluronic Acid Hydrogels with Thiol-Norbornene Chemistry,ÌýBiomaterials, 34:9803-9811, 2013.

131. J.A. Shuman, J.R. Zurcher, A.A. Sapp, J.A. Burdick, R.C. Gorman, J.H. Gorman, E.C. Goldsmith, F.G. Spinale, Localized Targeting of Biomaterials following Myocardial Infarction: A Foundation to Build on,ÌýTrends in Cardiovascular Medicine, 23:301-311, 2013.

130. M. Guvendiren and J.A. Burdick, Engineering Synthetic Hydrogel Microenvironments to Instruct Stem Cells,ÌýCurrent Opinion in Biotechnology, 24:841-846, 2013.

129. J.W. MacArthur, B.P. Purcell, Y. Shudo, J.E. Cohen, A. Fairman, A. Trubelja, J. Patel, P. Hsiao, E. Yang, W. Hiesinger, P. Atluri, J.A. Burdick, Y.J. Woo, Sustained Release of Engineered Stromal Cell Derived Factor 1-alpha from Injectable Hydrogels Effectively Recruits Endothelial Progenitor Cells and Preserves Ventricular Functional Following Myocardial Infarction,ÌýCirculation, 128:S79-S86, 2013.

128. H.D. Lu, D.E. Soranno, C.B. Rodell, I.L. Kim, J.A. Burdick, Secondary Photocrosslinking of Injectable Shear-Thinning Dock-and-Lock Hydrogels,ÌýAdvanced Healthcare Materials, 2:1028-1036, 2013.

127. L. Bian, M. Guvendiren, R.L. Mauck, J.A. Burdick, Hydrogels that Mimic Developmentally Relevant Matrix and N-cadherin Interactions Enhance MSC Chondrogenesis,ÌýProceedings of the National Academy of Sciences (PNAS), 110:10117-10122, 2013.

126. I.L. Kim, S. Khetan, B.M. Baker, C.S. Chen, J.A. Burdick, Fibrous Hyaluronic Acid Hydrogels that Direct MSC Chondrogenesis through Mechanical and Adhesive Cues,ÌýBiomaterials, 34:5571-5580, 2013.

125. S. Khetan, M. Guvendiren, W.R. Legant, D.M. Cohen, C.S. Chen, J.A. Burdick, Degradation-mediated Cellular Traction Directs Stem Cell Fate in Covalently Crosslinked Three-dimensional Hydrogels,ÌýNature Materials, 12:458-465, 2013.

124. D. Hanjaya-Putra, Y.I. Shen, A. Wilson, K. Fox-Talbot, S. Khetan, J.A. Burdick, C. Steenbergen, S. Gerecht, Integration and Regression of Implanted Engineered Human Vascular Networks During Deep Wound Healing,ÌýStem Cells Translational Medicine, 2:297-306, 2013.

123. J.A. Burdick, R.L. Mauck, J.H. Gorman, R.C. Gorman, Acellular Biomaterials: An Evolving Alternative to Cell-Based Therapies,ÌýScience Translational Medicine, 5:176ps4, 2013.

122. H.G. Sundararaghavan, R.L. Saunders, D.A. Hammer, J.A. Burdick, Fiber Alignment Directs Cell Motility over Chemotactic Gradients,ÌýBiotechnology and Bioengineering, 110:1249-1254, 2013.

121. M. Guvendiren and J.A. Burdick, Stem Cell Response to Spatially and Temporally Displayed and Reversible Surface Topography,ÌýAdvanced Healthcare Materials, 2:155-164, 2013.

120. L. Bian, C. Hou, E. Tous, R. Rai, R.L. Mauck, J.A. Burdick, The Influence of Hyaluronic Acid Hydrogel Crosslinking Density and Macromolecular Diffusivity on Human MSC Chondrogenesis and Hypertrophy,ÌýBiomaterials, 34:413-421, 2013.

119. J.S. Katz and J.A. Burdick, Synthetic Biomaterials, in The Biomedical Engineering Handbook, 4th Edition (eds. J. Fisher, A. Mikos, Tissue Engineering Section), CRC Press, 2013.

118. J.A. Burdick and W.L. Murphy, Moving from Static to Dynamic Complexity in Hydrogel Design,ÌýNature Communications, 3:1269, 2012.

117. R.J. Wade and J.A. Burdick, Engineering ECM Signals into Biomaterials,ÌýMaterials Today, 15:454-459, 2012.

116. J.S. Katz, K.A. Eisenbrown, E.D. Johnston, N.P. Kamat, J. Rawson, M.J. Therien, J.A. Burdick, D.A. Hammer, Soft Biodegradable Polymersomes from Caprolactone-Derived Polymers,ÌýSoft Matter, 8:10853-10862, 2012.

115. B.M. Baker, R.P. Shah, A.M. Silverstein, J.L. Esterhai, J.A. Burdick, R.L. Mauck, Sacrificial Nanofibrous Composites Provide Instruction without Impediment and Enable Functional Tissue Formation,ÌýProceedings of the National Academy of Sciences (PNAS), 109:14176-14181, 2012.

114. S.W. Lee, K.E. Tettey, I.L. Kim, J.A. Burdick, D. Lee, Controlling the Cell-Adhesion Properties of Poly(acrylic acid)/Polyacrylamide Hydrogen-Bonded Multilayers,ÌýMacromolecules, 45:6120-6126, 2012.

113. B.P. Purcell, J.A. Elser, A. Mu, K.B. Margulies, J.A. Burdick, Synergistic Effects of SDF-1a Chemokine and Hyaluronic Acid Release from Degradable Hydrogels on Directing Bone Marrow Derived Cell Homing to Myocardium,ÌýBiomaterials, 33:7849-7857, 2012.

112. E. Tous, H.M. Weber, M.H. Lee, K.J. Koomalsingh, T. Shuto, N. Kondo, J.H. Gorman, D. Lee, R.C. Gorman, J.A. Burdick, Tunable Hydrogel-Microsphere Composites that Modulate Local Inflammation and Collagen Bulking,ÌýActa Biomaterialia, 8:3218-3227, 2012.

111. R.A. Marklein, D.E. Soranno, J.A. Burdick, Magnitude and Presentation of Mechanical Signals Influence Adult Stem Cell Behavior in 3-Dimensional Macroporous Hydrogels,ÌýSoft Matter, 8:8113-8120, 2012.

110. D. Hanjaya-Putra, K. Wong, K. Hirotsu, S. Khetan, J.A. Burdick, S. Gerecht, Spatial Control of Cell-Mediated Degradation to Regulate Vasculogenesis and Angiogenesis in Synthetic Hydrogels,ÌýBiomaterials, 33:6123-6131, 2012.

109. I.E. Erickson, S.R. Kestle, K.H. Zellars, M.J. Farrell, M. Kim, J.A. Burdick, R.L. Mauck, High Stem Cell Seeding Densities in Hyaluronic Acid Hydrogels Produce Engineered Cartilage with Native Tissue Properties,ÌýActa Biomaterialia, 3027-3034, 2012.

108. M. Guvendiren and J.A. Burdick, Stiffening Hydrogels to Probe Short- and Long-Term Cellular Responses to Dynamic Mechanics,ÌýNature Communications, 3:792, 2012.

107. J.A. Burdick, Injectable Gels for Organ/Tissue Repair,ÌýBiomedical Materials, 7:024100, 2012.

106. I.E. Erickson, S.R. Kestle, K.H. Zellars, G.R. Dodge, J.A. Burdick, R.L. Mauck, Improved Cartilage Repair via In Vitro Pre-Maturation of MSC Seeded Hyaluronic Acid Hydrogels,ÌýBiomedical Materials, 7:024110, 2012.

105. L. Bian, D.Y. Zhai, E.C. Zhang, R.L. Mauck, and J.A. Burdick, Dynamic Compressive Loading Enhances Cartilage Matrix Synthesis and Distribution and Suppresses Hypertrophy in hMSC-Laden Hyaluronic Acid Hydrogels,ÌýTissue Engineering A, 18:715-724, 2012.

104. H.D. Lu, M.B. Charati, I.L. Kim, J.A. Burdick, Injectable Shear-Thinning Hydrogels Engineered with a Self-Assembling Dock-and-Lock Mechanism,ÌýBiomaterials, 33:2145-2133, 2012.Ìý

103. J.A. Elser, B.P. Purcell, I.A. Allana, J.A. Burdick, K.B. Margulies, Ischemia Induces Selective Progenitor Cell Engraftment in the Isolated-Perfused Heart,ÌýJournal of Molecular and Cellular Cardiology, 52:105-112, 2012.

102. M.H. Lee, K.C. Hribar, T. Brugarolas, N.P. Kamat, J.A. Burdick, D. Lee, Harnessing Interfacial Phenomena to Program the Release Properties of Hollow Microspheres,ÌýAdvanced Functional Materials, 22:131-138, 2012.

101. M. Guvendiren, H.D. Lu, and J.A. Burdick, Shear-Thinning Hydrogels for Biomedical Applications,ÌýSoft Matter, 8:260-272, 2012.

100. M. Guvendiren, B. Purcell, J.A. Burdick, Photopolymerizable Systems, in Comprehensive Polymer Science (eds. R. Langer and D. Tirrell), Elsevier, 2012.

99. V.V. Ramanan, K.C. Hribar, J.S. Katz, J.A. Burdick, Nanofiber-Nanorod Composites Exhibiting Light-Induced Reversible LCST Transitions,ÌýNanotechnology, 22:494009, 2011.

98. E. Tous, J.L. Ifkovits, K.J. Koomalsingh, T. Shuto, T. Soeda, N. Kondo, J.H. Gorman, R.C. Gorman, J.A. Burdick, Influence of Injectable Hyaluronic Acid Hydrogel Degradation Behavior on Infarction Induced Ventricular Remodeling,ÌýBiomacromolecules, 12:4127-4135, 2011.

97. J.A. Burdick and F.M. Watt, High-throughput Stem Cell Niches,ÌýNature Methods, 8:915-916, 2011.

96. I.L. Kim, R.L. Mauck, J.A. Burdick, Hydrogel Design for Cartilage Tissue Engineering - A Case Study with Hyaluronic Acid,ÌýBiomaterials, 32:8771-8782, 2011.

95. E. Tous, B.P. Purcell, J.L. Ifkovits, J.A. Burdick, Injectable Acellular Hydrogels for Cardiac Repair,ÌýJournal of Cardiovascular Translational Research, 4:528-542, 2011.

94. M. Morita, C.E. Eckert, K. Matsuzaki, M. Noma, L.P. Ryan, J.A. Burdick, B.M. Jackson, J.H. Gorman, M.S. Sacks, R. C. Gorman, Modification of Infarct Material Properties Limits Adverse Ventricular Remodeling,ÌýAnnals of Thoracic Surgery, 92:617-624, 2011.

93. D. Hanjaya-Pura, V. Bose, Y.I. Shen, J. Yee, S. Khetan, J.A. Burdick, S. Gerecht, Controlled Activation of Morphogenesis to Generate Functional Human Microvasculature in a Synthetic Matrix,ÌýBlood, 118:804-815, 2011.Ìý

92. L. Bian, D.Y. Zhai, E. Tous, R. Rai, R.L. Mauck, J.A. Burdick, Enhanced Chondrogenesis Following Delivery of TGF-b3 from Alginate Microspheres within Hyaluronic Acid Hydrogels In Vitro and In Vivo,ÌýBiomaterials, 12:2344-2350, 2011.

91. H.G. Sundararaghavan and J.A. Burdick, Gradients with Depth in Electrospun Fibrous Scaffolds for Directed Cellular Behavior,ÌýBiomacromolecules, 12:2344-2350, 2011.

90. K.C. Hribar, M.H. Lee, D. Lee, J.A. Burdick, Enhanced Release of Small Molecules from Near-Infrared Light Responsive Polymer-Nanorod Composites,ÌýACS Nano, 5:2948-2956, 2011.Ìý

89. J.A. Burdick and G. Prestwich, Hyaluronic Acid Hydrogels for Biomedical Applications,ÌýAdvanced Materials, 23:H41-H56, 2011.Ìý

88. L. Bian, D.Y. Zhai, R.L. Mauck, J.A. Burdick, Coculture of Human Mesenchymal Stem Cells and Articular Chondrocytes Reduces Hypertrophy and Enhances Functional Properties of Engineered Cartilage,ÌýTissue Engineering A, 17-1137-1145, 2011.

87. H. Sundararaghavan and J.A. Burdick, Cell Encapsulation, in Comprehensive Biomaterials (eds. P. Ducheyne, D. Hutmacher, J. Kirkpatrick, K. Healy), Elsevier, 2011.

86. R.C. Gorman, B.M. Jackson, J.A. Burdick and J.H. Gorman, Infarct Restraint to Limit Adverse Ventricular Remodeling,ÌýJournal of Cardiovascular Translational Research, 4:73-81, 2011.Ìý

85. S. Khetan and J.A. Burdick, Patterning Hydrogels in 3-Dimensions towards Controlling Cellular Interactions,ÌýSoft Matter, 7:830-838, 2011.

84. J.A. Burdick and R.L. Mauck (editors),ÌýBiomaterials for Tissue Engineering Applications: A Review of the Past and Future Trends, Springer Verlag, 2011.

83. D.M. Brey, N.A. Motlekar, J.P. Garino, S.L. Diamond, R.L. Mauck, J.A. Burdick, High-throughput Screening of a Small Molecule Library for Promoters and Inhibitors of Mesenchymal Stem Cell Osteogenic Differentiation,ÌýBiotechnology and Bioengineering, 108:163-174, 2011.

82. J.L. Ifkovits, K. Wu, R.L. Mauck, J.A. Burdick, The Influence of Fibrous Elastomer Structure and Porosity on Matrix Organization,ÌýPLoS One, 5:e15717, 2010.Ìý

81. M. Guvendiren, J.A. Burdick, S. Yang, Solvent Induced Transition from Wrinkles to Creases in Thin Film Gels with Depth-Wise Crosslinking Gradients,ÌýSoft Matter, 6:5795-5801, 2010.Ìý

80. V. Ramanan, J.S. Katz, M. Guvendiren, E. Cohen, R.A. Marklein, J.A. Burdick, Photocleavable Side Groups to Spatially alter Hydrogel Properties and Cellular Interactions,ÌýJournal of Materials Chemistry, 20:8920-8926, 2010.Ìý

79. S. Khetan and J.A. Burdick, Patterning Network Structure to Spatially Control Cellular Remodeling and Stem Cell Fate within 3-Dimensional Hydrogels,ÌýBiomaterials, 31:8228-8234, 2010.Ìý

78. M.B. Charati, I. Lee, K.C. Hribar, J.A. Burdick, Light-sensitive Polypeptide Hydrogel and Nanorod Composites,ÌýSmall, 6:1608-1611, 2010.Ìý

77. J.L. Ifkovits, E. Tous, M. Minakawa, M. Morita, J.D. Robb, K.J. Koomalsingh, J.H. Gorman, R.C. Gorman, J.A. Burdick, Injectable Hydrogel Properties Influence Extent of Post-Infarction Left Ventricular Remodeling in an Ovine Model,ÌýProceedings of the National Academy of Sciences (PNAS), 107:11507-11512, 2010.Ìý

76. M. Guvendiren and J.A. Burdick, The Control of Stem Cell Morphology and Differentiation by Hydrogel Surface Wrinkles,ÌýBiomaterials, 31:6511-6518, 2010.Ìý

75. D.M. Brey, C. Chung, K.D. Hankenson, J.P. Garino, J.A. Burdick, Identification of Osteoconductive and Biodegradable Polymers from a Combinatorial Polymer Library,ÌýJournal of Biomedical Materials Research A, 93A:807-816, 2010.

74. J.S. Katz and J.A. Burdick, Light-Responsive Biomaterials: Development and Applications,ÌýMacromolecular Bioscience, 10:339-348, 2010.Ìý

73. M. Guvendiren, J.A. Burdick, S. Yang, Kinetic Study of Swelling-Induced Surface Pattern Formation and Ordering in Hydrogel Films with Depth-wise Crosslinking Gradients,ÌýSoft Matter, 6:2044-2049, 2010.Ìý

72. J.S. Katz, S. Zhong, B.G. Ricart, D.J. Pochan, D.A. Hammer, J.A. Burdick, Modular Synthesis of Biodegradable Diblock Copolymers for Designing Functional Polymersomes,ÌýJournal of the American Chemical Society (JACS), 132:3654-3655, 2010.Ìý

71. L.C. Ionescu, G.C. Lee, B.J. Sennett, J.A. Burdick, R.L. Mauck, An Anisotropic Nanofiber/Microsphere Composite with Controlled Release of Biomolecules for Fibrous Tissue Engineering,ÌýBiomaterials, 31:4113-4120, 2010.Ìý

70. H.G. Sundararaghavan, R.B. Metter, J.A. Burdick, Electrospun Fibrous Scaffolds with Multi-scale and Photopatterned Porosity,ÌýMacromolecular Bioscience, 10:265-270, 2010.Ìý

69. R.B. Metter, J.L. Ifkovits, K. Hou, L. Vincent, B. Hsu, L. Wang, R.L. Mauck, J.A. Burdick, Biodegradable Fibrous Scaffolds with Diverse Properties by Electrospinning Candidates from a Combinatorial Macromer Library,ÌýActa Biomaterialia, 6:1219-1226, 2010.Ìý

68. S. Khetan, V. Ramanan, and J.A. Burdick, 3D Encapsulation of Cells in Hydrogels using Radical and Addition Polymerizations, in 3-D Tissue Engineering (Methods in Bioengineering) (eds. M.L. Yarmush and R.S. Langer), Artech House Publishing, 2010.

67. R.L. Mauck and J.A. Burdick, Engineering Cartilage Tissue, inÌýThe Tissue Engineering Book: State of the Art, Visions, and LimitationsÌý(ed. N. Pallua), Springer Science + Business Media, 2010.

66. R.A. Marklein and J.A. Burdick, Controlling Stem Cell Fate with Material Design,ÌýAdvanced Materials, 22:175-189, 2010.Ìý

65. R.A. Marklein and J.A. Burdick, Spatially Controlled Hydrogel Mechanics to Modulate Stem Cell Interactions,ÌýSoft Matter, 6:136-143, 2010.Ìý

64. S. Khetan and J.A. Burdick, Cellular Encapsulation in 3D Hydrogels for Tissue Engineering,ÌýJournal of Visualized Experiments, 32, 2009.Ìý

63. J.L. Ifkovits, H.G. Sundararaghavan, and J.A. Burdick, Electrospinning Fibrous Polymer Scaffolds for Tissue Engineering and Cell Culture,ÌýJournal of Visualized Experiments, 32, 2009.Ìý

62. I.E. Erickson, A.H. Huang, S. Sengupta, S. Kestle, J.A. Burdick, R.L. Mauck, Macromer Density Influences Mesenchymal Stem Cell Chondrogenesis and Maturation in Photocrosslinked Hyaluronic Acid Hydrogels,ÌýOsteoarthritis and Cartilage, 17:1639-1648, 2009.Ìý

61. M. Guvendiren, S. Yang, J.A. Burdick, Swelling-induced Surface Patterns in Hydrogels with Gradient Crosslinking Density,ÌýAdvanced Functional Materials,19:3038-3045, 2009.Ìý

60. J.L. Ifkovits, J.J. Devlin, G. Eng, T.P. Martens, G. Vunjak-Novakovic, J.A. Burdick, Photocrosslinked Biodegradable Fibrous Scaffolds with Tunable Properties for Tissue Engineering Applications,ÌýApplied Materials and Interfaces, 1:1878-1886, 2009.Ìý

59. P.M. George, R. Saigal, M. Lawlor, M.J. Moore, D.A. LaVan, R. Marini, M. Selig, M. Makhni, J.A. Burdick, R. Langer, D.S. Kohane, Stand-Alone Three-Dimensional Conductive Constructs for Nerve Regeneration and Other Applications,ÌýJournal of Biomedical Materials Research A, 91A:519-527, 2009.Ìý

58. B.M. Baker, N.L. Nerurkar, J.A. Burdick, D.M. Elliott, R.L. Mauck, Fabrication and Modeling of Dynamic Multi-Polymer Nanofibrous Scaffolds,ÌýJournal of Biomechanical Engineering, 131:101012, 2009.Ìý

57. M.B. Charati, J.L. Ifkovits, J.A. Burdick, J.G. Linhardt, K.L. Kiick, Hydrophilic Elastomeric Biomaterials based on Resilin-like Polypeptides,ÌýSoft Matter, 5:3412-3416, 2009.Ìý

56. A. Peters, D.M. Brey, J.A. Burdick, High-throughput and Combinatorial Technologies for Tissue Engineering Applications,ÌýTissue Engineering B, 15:225-239, 2009.Ìý

55. K.C. Hribar, R.B. Metter, J.L. Ifkovits, T. Troxler, J.A. Burdick, Light-Induced Temperature Transitions in Biodegradable Polymer and Nanorod Composites,ÌýSmall, 5:1830-1834, 2009.Ìý

54. R.L. Mauck, B.M. Baker, N.L. Neururkar, J.A. Burdick, W.J. Li, R.S. Tuan, D.M. Elliott, Engineering on the Straight and Narrow: The Mechanics of Nanofibrous Assemblies for Fiber-Reinforced Tissue Regeneration,ÌýTissue Engineering B, 15:171-193, 2009.Ìý

53. C. Chung, M. Beecham, R.L. Mauck, J.A. Burdick, Tailored Hydrogel Crosslinking and Degradation to Enhance Neocartilage Formation by Mesenchymal Stem Cells in Hyaluronic Acid Hydrogels,ÌýBiomaterials, 30:4287-4296, 2009.Ìý

52. M. Brigham, A. Bick, E. Lo, A. Bendali, J.A. Burdick, A. Khademhosseini, Mechanically Robust and Bioadhesive Collagen and Photocrosslinkable Hyaluronic Acid Semi-Interpenetrating Networks,ÌýTissue Engineering A, 15:1633-643, 2009.Ìý

51. J.A. Burdick, Cellular Control in Two Clicks,ÌýNature, 260:469-470, 2009.Ìý

50. I.E. Erickson, A.H. Huang, C. Chung, R. Li, J.A. Burdick, R.L. Mauck, Differential Maturation and Structure-Function Relationships in Mesenchymal Stem Cell and Chondrocyte Seeded Hydrogels,ÌýTissue Engineering A, 15:1041-1052, 2009.Ìý

49. J.S. Katz, D.H. Levine, K.P. Davis, F.S. Bates, D.A. Hammer, J.A. Burdick, Membrane Stabilization of Biodegradable Polymersomes,ÌýLangmuir, 25:4429-4434, 2009.Ìý

48. S. Khetan, J.S. Katz, J.A. Burdick, Sequential Crosslinking to Control Cellular Spreading in 3-Dimensional Hydrogels,ÌýSoft Matter, 5:1601-1606, 2009.Ìý

47. J.A. Burdick and G. Vunjak-Novakovic, Engineering the Cellular Microenvironment for Controlled Stem Cell Differentiation,ÌýTissue Engineering A, 15:205-219, 2009.Ìý

46. C. Chung and J.A. Burdick, Influence of 3D Hyaluronic Acid Microenvironments on Mesenchymal Stem Cell Chondrogenesis,ÌýTissue Engineering A, 15:243-254, 2009.Ìý

45. J.S. Katz and J.A. Burdick, Hydrogel Mediated Delivery of Trophic Factors for Neural Repair,ÌýWiley Interdisciplinary Reviews – Nanomedicine, 1:128-139, 2009.Ìý

44. R.D. Hubbard, J.J. Martinez, J.A. Burdick, B.A. Winkelstein, Controlled Release of GDNF Reduces Nerve Root-Mediated Behavioral Hypersensitivity,ÌýJournal of Orthopaedic Research, 27:120-127, 2009.Ìý

43. A.R. Tan, B.M. Baker, J.L. Ifkovits, D.M. Brey, R.L.Mauck, J.A. Burdick, Electrospinning of Photocrosslinked and Degradable Fibrous Scaffolds,ÌýJournal of Biomedical Materials Research A, 87A:1034-1043, 2008.Ìý

42. J.L. Ifkovits, R.F. Padera, and J.A. Burdick, Biodegradable and Radically Polymerized Elastomers with Enhanced Processing Capabilities,ÌýBiomedical Materials, 3:034104, 2008.Ìý

41. C. Chung, I.E. Erickson, R.L. Mauck, J.A. Burdick, Differential Behavior of Auricular and Articular Chondrocytes in Hyaluronic Acid Hydrogels,ÌýTissue Engineering, 14:1121-1131, 2008.Ìý

40. S. Sahoo, C. Chung, S. Khetan, J.A. Burdick, Hydrolytically Degradable Hyaluronic Acid Hydrogels with Controlled Temporal Network Structures,ÌýBiomacromolecules, 9:1088-1092, 2008.Ìý

39. D.M. Brey, I. Erickson, and J.A. Burdick, Influence of Macromer Molecular Weight and Chemistry on Poly(b-amino ester) Network Properties and Initial Cell Interactions,ÌýJournal of Biomedical Materials Research A, 85A:731-741, 2008.Ìý

38. B.M. Baker, A.O. Gee, R.B. Metter, A.S. Nathan, R.L. Marklein, J.A. Burdick, R.L. Mauck, The Potential to Improve Cell Infiltration by the Selective Removal of Sacrificial Fibers,ÌýBiomaterials, 29:2348-2358, 2008.Ìý

37. D.M. Brey, J.L. Ifkovits, R. Mozia, J.S. Katz, and J.A. Burdick, Controlling Poly(b-amino ester) Network Properties through Macromer Branching,ÌýActa Biomaterialia, 4:207-217, 2008.Ìý

36. C. Chung and J.A. Burdick, Engineering Cartilage Tissue,ÌýAdvanced Drug Delivery Reviews, 60:243-262, 2008.Ìý

35. J.L. Ifkovits and J.A. Burdick, Photopolymerizable and Degradable Biomaterials for Tissue Engineering Applications,ÌýTissue Engineering, 13:2369-2385, 2007.Ìý

34. S. Gerecht, J.A. Burdick, L.S. Ferreira, S.A. Townsend, R. Langer, G. Vunjak-Novakovic, Hyaluronic Acid Hydrogel for Controlled Self-renewal and Differentiation of Human Embryonic Stem Cells,ÌýProceedings of the National Academy of Sciences (PNAS), 104:11298-11303, 2007.Ìý

33. E. Figallo, C. Cannizzaro, S. Gerecht, J.A. Burdick, R. Langer, N. Elvassore, G. Vunjak-Novakovic, Micro Bioreactor Array for Controlling Cellular Microenvironments,ÌýLab on a Chip, 7:710-719, 2007.Ìý

32. S. Gerecht, J.A. Burdick, C. Cannizzaro, G. Vunjak-Novakovic, 3D Cultivation of Human Embryonic Stem Cells, inÌýHuman Embryonic Stem CellsÌý(eds. J. Masters, B. Palsson, J. Thomson), Springer Verlag, 2007.

31. Y. Yeo, W. Geng, T. Ito, D.S. Kohane, J.A. Burdick, M. Radisic, Photocrosslinkable Hydrogel for Myocyte Cell Culture and Injection,ÌýJournal of Biomedical Materials Research B, Applied Biomaterials, 81B:312-322, 2007.Ìý

30. A. Khademhosseini, G. Eng, J. Yeh, J. Fukuda, J. Blumling, R. Langer, J.A. Burdick, Micromolding of Photocrosslinkable Hyaluronic Acid for Cell Encapsulation and Entrapment,ÌýJournal of Biomedical Materials Research A, 79A:522-532, 2006.Ìý

29. D.G. Anderson, C.A. Tweedie, N. Hossain, S.M. Navarro, D.M. Brey, K.J. Van Vliet, R. Langer, J.A. Burdick, A Combinatorial Library of Photocrosslinkable and Degradable Materials,ÌýAdvanced Materials, 18:2614-2618, 2006.Ìý

28. J. Piantino, J.A. Burdick, D. Goldberg, R. Langer, L.I. Benowitz, An Injectable, Degradable Hydrogel for Trophic Factor Delivery Enhances Axonal Rewiring and Improves Performance after Spinal Cord Injury,ÌýExperimental Neurology, 201: 359-367, 2006.Ìý

27. C. Chung, J. Mesa, G.J. Miller, M.A. Randolph, T. Gill, J.A. Burdick, Effects of Auricular Chondrocyte Expansion on Neocartilage Formation in Photocrosslinkable Hyaluronic Acid Networks,ÌýTissue Engineering, 12:2665-2673, 2006.Ìý

26. C. Chung, J. Mesa, M.A. Randolph, M. Yaremchuk, J.A. Burdick, Influence of Gel Properties on Neocartilage Formation by Auricular Chondrocytes Photoencapsulated in Hyaluronic Acid Networks,ÌýJournal of Biomedical Materials Research A, 77A: 518-525, 2006.Ìý

25. Y. Yeo, J.A. Burdick, C.B. Highley, R. Marini, R. Langer, D.S. Kohane, Peritoneal Application of Chitosan and UV-crosslinkable Chitosan,ÌýJournal of Biomedical Materials Research A, 78A: 668-675, 2006.

24. P.M. George, D.A. LaVan, J.A. Burdick, C.Y. Chen, E. Liang, R. Langer, Electrically Controlled Drug Delivery from a Biotin-Doped Conductive Polypyrrole,ÌýAdvanced Materials, 18: 577-581, 2006.Ìý

23. J.A. Burdick, M. Ward, E. Liang, M.J. Young, R. Langer, Stimulation of Neurite Outgrowth by Neurotrophins Delivered from Degradable Hydrogels,ÌýBiomaterials, 27: 452-459, 2006.

22.ÌýJ.A. Burdick and Molly M. Stevens, Biomedical Hydrogels, inÌýBiomaterials, Artificial Organs, and Tissue EngineeringÌý(eds. J. Jones and L. Hench), Woodhead Publishing Ltd., Cambridge, 2005.Ìý

21. B.A. Pfeifer, J.A. Burdick, S. Little, R. Langer, Poly(ester-anhydride):Poly(b-amino ester) Micro- and Nanospheres: DNA Encapsulation and Cellular Transfection,ÌýInternational Journal of Pharmaceutics, 304, 210-219, 2005.Ìý

20. S. Levenberg, J.A. Burdick, T. Kraehenbuehl, R. Langer, Neurotrophin Induced Differentiation of Human Embryonic Stem Cells on 3-Dimensional Polymeric Scaffolds,ÌýTissue Engineering, 11: 506-512, 2005.Ìý

19. J.A. Burdick, C. Chung, X. Jia, M.A. Randolph, R. Langer, Controlled Degradation and Mechanical Behavior of Photopolymerized Hyaluronic Acid Networks,ÌýBiomacromolecules, 6: 386-391, 2005.Ìý

18. B.A. Pfeifer, J.A. Burdick, R. Langer, Formulation and Surface Modification of Poly(Ester-Anhydride) Micro- and Nanospheres,ÌýBiomaterials, 26: 117-124, 2005.Ìý

17. T.M. Lovestead, J.A. Burdick, K.S. Anseth, C.N. Bowman, Understanding Multivinyl Monomer Photopolymerization Kinetics through Modeling and GPC Investigation of Degradable Networks,ÌýPolymer, 46: 6226-6234, 2005.Ìý

16. D.G. Anderson, J.A. Burdick, R. Langer, Smart Biomaterials,ÌýScience, 305: 1923-1924, 2004.

15. A. Khademhosseini, J. Yeh, S. Jon, G. Eng, K.Y. Suh, J.A. Burdick, R. Langer, Molded PEG Microstructures for Capturing and Shear Protecting Cells Within Microfluidic Channels,ÌýLab On A Chip, 4: 425-430, 2004.

14. J.A. Burdick, A. Khademhosseini, R. Langer, Fabrication of Gradient Hydrogels Using a Microfluidics/ Photopolymerization Process,ÌýLangmuir, 20: 5153-5156, 2004.

13. X. Jia, J.A. Burdick, J. Kobler, R.J. Clifton, J.J. Rosowski, S.M. Zeitels, R. Langer, Synthesis and Characterization of In Situ Crosslinkable Hyaluronic Acid-Based Hydrogels with Potential Application for Vocal Fold Regeneration,ÌýMacromolecules, 37: 3239-3248, 2004.

12. J.A. Burdick, T. Lovestead, K.S. Anseth, Kinetic Chain Lengths in Highly Crosslinked Networks Formed by the Photoinitiated Polymerization of Degradable Divinyl Monomers: A GPC Investigation,ÌýBiomacromolecules, 4: 149-156, 2003.

11. K.A. Davis, J.A. Burdick, K.S. Anseth, Photopolymerized Crosslinked Degradable Copolymer Networks for Tissue Engineering Applications,ÌýBiomaterials, 24: 2485-2495, 2003.

10. J.A. Burdick, W.S. Dernell, D. Frankel, K.S. Anseth, An Initial Investigation of Photocurable 3-Dimensional Lactic Acid Based Scaffolds in a Critical-Sized Cranial Defect,ÌýBiomaterials, 24: 1613-1620, 2003.

9. A.K. Poshusta, J.A. Burdick, D.J. Mortisen, R.F. Padera, D. Ruehlman, M.J. Yaszemski, K.S. Anseth, Histocompatibility of Photocrosslinked Polyanhydrides: A Novel In Situ Forming Orthopaedic Biomaterial,ÌýJournal of Biomedical Materials Research, 64A: 62-69, 2003.

8. J.A. Burdick, M.N. Mason, A.D. Hinman, K. Thorne, K.S. Anseth, Delivery of Osteoinductive Growth Factors from Degradable PEG Hydrogels Influences Osteoblast Differentiation and Mineralization,ÌýJournal of Controlled Release, 83: 53-63, 2002.

7. J.A. Burdick and K.S. Anseth, Photoencapsulation of Osteoblasts in Injectable RGD-Modified PEG Hydrogels for Bone Tissue Engineering,ÌýBiomaterials, 23: 4315-4323, 2002.

6. J.A. Burdick, R.F. Padera, J.V. Huang, K.S. Anseth, An Investigation of the Cytotoxicity and Histocompatibility of In Situ Forming Lactic Acid Based Orthopaedic Biomaterials,ÌýJournal of Biomedical Materials ResearchÌý(Applied Biomaterials), 63: 484-491, 2002.

5. K.S. Anseth and J.A. Burdick, New Directions in Photopolymerizable Biomaterials,ÌýMRS Bulletin, 27:130-138, 2002.

4. J.A. Burdick, M.N. Mason, K.S. Anseth, In Situ Forming Lactic Acid Based Orthopaedic Biomaterials: Influence of Oligomer Chemistry on Osteoblast Attachment and Function,ÌýJournal of Biomaterials Science, Polymer EditionÌý12: 1253-1265, 2001.

3. J.A. Burdick, L.M. Philpott, K.S. Anseth, Synthesis and Characterization of Tetrafunctional Lactic Acid Oligomers: A Potential In Situ Forming Orthopaedic Biomaterial,ÌýJournal of Polymer Science, A, Polymer ChemistryÌý39: 683-692, 2001.

2. J.A. Burdick, A.J. Peterson, K.S. Anseth, Conversion and Temperature Profiles During the Photoinitiated Polymerization of Thick Orthopaedic Biomaterials,ÌýBiomaterialsÌý22: 1779-1786, 2001.

1. A.K. Burkoth, J. Burdick, K.S. Anseth, Surface and Bulk Modifications to Photocrosslinked Polyanhydrides to Control Degradation Behavior,ÌýJournal of Biomedical Materials ResearchÌý51: 352-359, 2000.