Dynamic Loading of Human Engineered Heart Tissue Enhances Contractile Function and Drives Desmosome-linked Disease Phenotype | [PDF]
Bliley JM, Vermeer MCSC, Duffy  RM, Batalov I, Kramer D, Tashman JW, Shiwarski DJ, Lee A, Teplenin AS, Volkers L, Coffin B, Hoes MF, Kalmykov A, Palchesko RN, Sun Y, Jongbloed JDH, Bomer N, de Boer RA, Suurmeijer AJH, Pijnappels DA, Bolling MC, van der Meer P,  and Feinberg AW. bioRχiv.

3D Bioprinting using UNIversal Orthogonal Network (UNION) Bioinks
Hull SM, Lindsay CD, Bruenl LG, Shiwarski DJ, Tashman JW, Roth JG, Myung D, Feinberg AW, and Heilshorn SC. Advanced Functional Materials, 2020.

Hierarchical Machine Learning for High Fidelity 3D Printed Biopolymers 
Bone, JM, Childs CM, Menon A, Póczos B, Feinberg AW, LeDuc PR, and Washburn NR. ACS Biomaterials Science and Engineering, Vol. 6, 2020, pp. 7021-7031.

Fibronectin-Based Nanomechanical Biosensors to Map 3D Strains in Live Cells and Tissue | [PDF]
Shiwarski DJ, Tashman JW, Tsamis A, Bliley JM, Blundon MA, Aranda-Michel E, Jallerat Q, Szymanski JM, McCartney BM, and Feinberg AW. Nature Communications, Vol. 11, Article 5883, 2020.

FRESH 3D Bioprinting a Full-Size Model of the Human Heart 
Mirdamadi E, Tashman JW, Shiwarski DJ, Palchesko RN, and Feinberg AW. ACS Biomaterials Science and Engineering, Vol. 6, 2020, pp. 6453-6459.

Biohybrid Actuators for Soft Robotics: Challenges in Scaling Up | [PDF]
Won P, Ko SH, Majidi C, Feinberg AW, and Webster-Wood VA. Actuators, Vol. 9, 2020, pp. 96-107.

Engineering Aligned Skeletal Muscle Tissue Using Decellularized Plant-Derived Scaffolds
Cheng Y-W, Shiwarski DJ, Ball RL, Whitehead KA, and Feinberg AW. ACS Biomaterials Science and Engineering, Vol. 6, Issue 5, 2020, pp. 3046-3054.

3D Printed Biaxial Stretcher Compatible with Live Fluorescence Microscopy | [PDF]
Shiwarski DJ, Tashman JW, Eaton AF, Apodaca G, and Feinberg AW. HardwareX, Vol. 7, 2020. 

Three-Dimensional Fuzzy Graphene Ultra-Microelectrodes for Subcellular Electrical Recordings | [PDF]
Rastogi SK, Bliley JM, Matino L, Garg R, Santoro F, and Feinberg AW. Nano Research, 2020.

Extracellular Matrix Structure and Composition in the Early Four-Chambered Embryonic Heart | [PDF]
Jallerat Q and Feinberg AW. Cells, Vol. 9, Issue 2, 2020. 


De Novo Lung Biofabrication: Clinical Need, Construction Methods, and Design Strategy | [PDF]
Comber EM, Palchesko RN, Ng WH, Ren X, and Cook KE. Translation Research, 2019.

Organ-on-e-chip: Three-Dimensional Self-Rolled Biosensor Array for Electrical Interrogations of Human Electrogenic Spheroids | [PDF]
Kalmykov A, Huang C, Bliley JM, Shiwarski DJ, Tashman JW, Hinton TJ, Abdullah A, Rastogi SK, Shukla S, Mataev E, Feinberg AW, Hsia KJ, and Cohen-Karni T. Science Advances, Vol. 5, Issue 8, 2019.

3D Bioprinting of Collagen to Rebuild Components of the Human Heart | [PDF]
Lee A, Hudson AR, Shiwarski DJ, Tashman JW, Hinton TJ, Yerneni S, Bliley JM, Campbell PG, and Feinberg AW. Science, Vol. 365, Issue 6452, 2019, pp. 482-487.

Cryopreserved Cell-laden Alginate Microgel Bioink for 3D Bioprinting of Living Tissues | [PDF]
Jeon O, Lee YB, Hinton TJ, Feinberg AW, and Alsberg E. Materials Today Chemistry, 12, 2019, pp 61-70.

Optimization of Silicone 3D Printing with Hierarchical Machine Learning
Menon A, Póczos B, Feinberg AW, and Washburn NR. 3D Printing and Additive Manufacturing, 2019, (Ahead of Print).


3D Bioprinting of Cardiac Muscle Tissue
Lee A and Feinberg AW. in 3D Bioprinting in Regenerative Engineering: Principles and Applications, CRC Press, 2018, pp 249-270.

Natural Biomaterials for Corneal Tissue Engineering, Repair, and Regeneration
Palchesko RN, Carrasquilla SD and Feinberg AW. Advanced Healthcare Materials, 7(16), 2018, pp 1701434.

Graphene Microelectrode Arrays for Electrical and Optical Measurements of Human Stem Cell-Derived Cardiomyocytes
Rastogi SK, Bliley J, Shiwarski DJ, Raghavan G, Feinberg AW and Cohen-Karni T. Cellular and Molecular Bioengineering, 2018, (Online First).

Expert-guided optimization for 3D printing of soft and liquid materials | [PDF]
Abdollahi S, Davis A, Miller JH and Feinberg AW. PLOS ONE, 13(4), 2018, e0194890.

Large volume syringe pump extruder for desktop 3D printers | [PDF]
Pusch K, Hinton TJ and Feinberg AW. HardwareX, 3, 2018, pp 49-61.


Biohybrid actuators for robotics: A review of devices actuated by living cells
Ricotti L, Trimmer B, Feinberg AW, Raman R, Parker KK, Bashir R, Sitti M, Martel S, Dario P and Menciassi A. Science Robotics, 2(12), 2017, eaaq0495.

Measuring the Poisson’s Ratio of Fibronectin Using Engineered Nanofibers | [PDF]
Szymanski JM, Zhang K and Feinberg AW. Scientific Reports, 7, 2017, Article number: 13413.

Progress in three-dimensional bioprinting
Feinberg AW and Miller JS. MRS Bulletin, 42(8), 2017, pp 557-562.

Stretch-dependent changes in molecular conformation in fibronectin nanofibers
Szymanski JM, Sevcik EN, Zhang K and Feinberg AW. Biomaterials Science, 5, 2017, pp 1629-1639.

Patterning on Topography for Generation of Cell Culture Substrates with Independent Nanoscale Control of Chemical and Topographical Extracellular Matrix Cues
Sevcik EN,  Szymanski JM, Jallerat Q and Feinberg AW. Current Protocols in Cell Biology, 75, 2017, pp 10.23.1–10.23.25.

3D Bioprinting from the Micrometer to Millimeter Length Scales: Size Does Matter
Hinton TJ*, Lee A* and Feinberg AW. Current Opinion in Biomedical Engineering, 1, 2017, pp 31-37.


Scaffold-Free Tissue Engineering of Functional Corneal Stromal Tissue
Syed-Picard FN, Du Y, Hertsenberg AJ, Palchesko RN, Funderburgh ML, Feinberg AW and Funderburgh JF. Journal of Tissue Engineering and Regenerative Medicine, 2016, (Online First).

Engineered Basement Membranes for Regenerating the Corneal Endothelium
Palchesko RN, Funderburgh JF and Feinberg AW. Advanced Healthcare Materials, 5(22), 2016, pp 2942–2950.

3D Printing PDMS Elastomer in a Hydrophilic Support Bath via Freeform Reversible Embedding | [PDF]
Hinton TJ, Hudson A, Pusch K, Lee A and Feinberg AW. ACS Biomaterials Science & Engineering, 2 (10), 2016, pp 1781–1786.

Defined Micropatterning of ECM Protein Adhesive Sites on Alginate Microfibers for Engineering Highly Anisotropic Muscle Cell Bundles | Cover Image
Patil P,  Szymanski JM and Feinberg AW. Advanced Materials Technologies, 1(4), 2016, pp 1-5.

Understanding the Role of ECM Protein Composition and Geometric Micropatterning for Engineering Human Skeletal Muscle | Cover Image
Duffy RM, Sun Y and Feinberg AW. Annals of Biomedical Engineering, 44(6), 2016, pp 2076-2089.


Biological Soft Robotics
Feinberg AW. Annual Review of Biomedical Engineering, 17(1), 2015, pp 243-265.

Three-dimensional printing of complex biological structures by freeform reversible embedding of suspended hydrogels | [PDF]
Hinton TJ, Jallerat Q, Palchesko RN, Park JH, Grodzicki MS, Shue HJ, Ramadan MH, Hudson AR and Feinberg AW. Science Advances, 1(9), 2015, e1500758.

Spontaneous Helical Structure Formation in Laminin Nanofibers
Szymanski JM, Ba M and Feinberg AWJournal of Materials Chemistry B, 3, 2015, pp 7993-8000.

Differentiation of Cardiomyocytes from Human Pluripotent Stem Cells Using Monolayer Culture | [PDF] 
Batalov I and Feinberg AWBiomarker Insights, Supplementary Issue: Stem Cell Biology, 10(S1) 2015, pp 71-76.

Cytoskeletal Prestress Regulates Nuclear Shape and Stiffness in Cardiac Myocytes
Lee H, Adams WJ, Alford PW, McCain ML, Feinberg AW, Sheehy SP, Goss JA and Parker KK. Experimental Biology and Medicine, 2015, (Online Early View).

Functional maturation of human pluripotent stem cell derived cardiomyocytes in vitro – Correlation between contraction force and electrophysiology
Ribeiro MC, Tertoolen LG, Guadix JA, Bellin M, Kosmidis G, D’Aniello C, Monshouwer-Kloots J, Goumans M, Wang Y, Feinberg AW, Mummery CL, Passier R. Biomaterials,  (51)2015, pp 138-150.

Conformal Nanopatterning of Extracellular Matrix Proteins onto Topographically Complex Surfaces | [PDF]
Sun Y, Jallerat Q, Szymanksi JM and Feinberg AW. Nature Methods, 2(12), 2015, pp 134-136.

In Vitro Expansion of Corneal Endothelial Cells on Biomimetic Substrates | [PDF]
Palchesko RN, Lathrop KL, Funderburgh JF and Feinberg AWScientific Reports, (5), 2015, pp 1-9. 


Shrink Wrapping Cells in a Defined Extracellular Matrix to Modulate the Chemo-Mechanical Microenvironment | [PDF]
Palchesko RN, Szymanksi JM, Sahu A and Feinberg AWCellular and Molecular Bioengineering, 7(3), 2014, pp 355-368.

Fabrication of Freestanding Alginate Microfibers and Microstructures for Tissue Engineering Applications | [PDF]
Szymanksi JM and Feinberg AWBiofabrication, 6(2), 2014, pp 1-11.

ECM Protein Nanofibers and Nanostructures Engineered using Surface-Initiated Assembly | [PDF]
Szymanksi JM, Jalleart Q and Feinberg AWJournal of Visualized Experiments, (86), 2014, e51176. 

Nano‐and Microstructured ECM and Biomimetic Scaffolds for Cardiac Tissue Engineering
Jallerat Q, Szymanski JM and Feinberg AW. in Bio-inspired Materials for Biomedical Engineering,  2014, pp 195-226.

Engineered Skeletal Muscle Tissue for Soft Robotics: Fabrication Strategies, Current Applications and Future Challenges
Duffy R and Feinberg AWWiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology,  6(2), 2014, pp 178-195.


Functional Differences in Engineered Myocardium from Embryonic Stem Cell-Derived versus Neonatal Cardiomyocytes[PDF]
Feinberg AW, Ripplinger CM, van der Meer P, Sheehy SP, Domian I, Chien KR  and Parker KK. Stem Cell Reports, 1(5), 2013, pp 387-396. 

Optimizing the Structure and Contractility of Skeletal Muscle Thin Films
Sun Y, Duffy R, Lee A and Feinberg AWActa Biomaterialia, 9(8), 2013, pp 7885-7894.

Nanofiber Biomaterials
Palchesko RN, Sun Y, Zhang L, Szymanksi JM, Jalleart Q and Feinberg AW. in Springer Handbook of Nanomaterials, 2013, pp 977-1010.


Development of Polydimethylsiloxane Substrates with Tunable Elastic Modulus to Study Cell Mechanobiology in Muscle and Nerve[PDF]
Palchesko RN, Zhang L, Sun Y and Feinberg AW. PLoS ONE, 7(12), 2012, e51499, pp 1-13. 

A Tissue-Engineered Jellyfish with Biomimetic Propulsion | [PDF]
Nawroth J, Lee H, Feinberg AW, McCain M, Grosberg A, Dabiri JO and Parker KK. Nature Biotechnology, 30(8), 2012, pp 792-797. 

Controlling the contractile strength of engineered cardiac muscle by hierarchal tissue architecture | [PDF]
Feinberg AW, Alford AW, Hongwei J, Ripplinger CR, Werdich AA, Sheehy SP, Grosberg A and Parker KK. Biomaterials, 33(23), 2012, pp 5732-5741. 

Engineered Tissue Grafts: Opportunities and Challenges in Regenerative Medicine 
Feinberg AWWiley Interdisciplinary Reviews: Systems Biology and Medicine4, 2012, pp 207-220.


Hierarchical architecture influences calcium dynamics in engineered cardiac muscle
Pong T, Adams WJ, Bray MA, Feinberg AW, Sheehy SP, Werdich AA and Parker KK. Experimental Biology and Medicine, 363(3), 2011, pp 366-373.

2010 and Earlier

Surface-Initiated Assembly of Protein Nanofabrics
Feinberg AW and Parker KK. Nano Letters, 10 (6), 2010, pp 2184-2191.

Nuclear morphology and deformation in engineered cardiac myocytes and tissues
Bray MP, Adams WJ, Geisse NA, Feinberg AW, Sheehy SP and Parker KK. Biomaterials, 31 (19), 2010, pp 5143 – 5150.

Biohybrid Thin Films for Measuring Contractility in Engineered Cardiovascular Muscle | [PDF]
Alford PW*, Feinberg AW*, Sheehy SP and Parker KK. Biomaterials, 31 (13), 2010, pp 3613 – 3621. (*Authors contributed equally to this work) 

Generation of Functional Ventricular Heart Muscle from Mouse Ventricular Progenitor Cells | [PDF]
Domian IJ, Chiravuri M, van der Meer P, Feinberg AW, Shi X, Shao Y, Wu SM, Parker KK and Chien KR, Science, Vol. 326, no. 5951, 2009, pp 426 – 429. 

Engineering High-Density Endothelial Cell Monolayers on Soft Substrates
Feinberg AW, Schumacher JF and Brennan AB, Acta Biomaterialia, 5 (6), 2009, pp 2013 – 2024.

Systematic Variation of Microtopography, Surface Chemistry and Elastic Modulus and the State Dependent Effect on Endothelial Cell Alignment
Feinberg AW, Wilkerson WR, Seegert CA, Gibson AL, Wilson LH and Brennan AB. Journal of Biomedical Materials Research: Part A, 86A (2), 2008, pgs. 522-34.

Micropatterning Approaches for Cardiac Biology
Geisse NA, Feinberg AW, Kuo P, Sheey SP, Bray M and Parker KK, in Micro and Nanoengineering of the Cell Microenvironment: Applications and Technologies. Eds. Khademhosseini, Borenstein, Takayama and Tomer, Artech House Publishers, 2008, pp 341 – 360.

Muscular Thin Films for Building Actuators and Powering Devices
Feinberg AW, Feigel A, Shevkopylas SS, Sheehy SP, Whitesides GM and Parker KK. Science, 2007: Vol. 317, no. 5843, pp 1366 – 1370.

Engineered antifouling microtopographies – effect of feature size, geometry, and roughness on settlement of zoospores of the green alga Ulva
Schumacher JF, Carman ML, Estes TG, Feinberg AW, Wilson LH, Callow ME, Callow JA, Finlay JA and Brennan AB., Biofouling, 2007 Vol. 23 (1): pp 1-8.

Engineered antifouling microtopographies – correlating wettability with cell attachment
Carman ML, Estes TG, Feinberg AW, Schumacher JF, Wilkerson WR, Wilson LH, Callow ME, Callow JA and Brennan AB. Biofouling, Vol. 22 (1) 2006: pp 11-21.

Antifouling Potential of Lubricious, Micro-engineered, PDMS Elastomers against Zoospores of the Green Fouling Alga Ulva (Enteromorpha)
Wilson LH, Schumacher JF, Carman ML, Gibson AL, Feinberg AW, Callow ME, Finlay JA, Callow JA and Brennan AB. Biofouling, 2004 Vol. 20 (1): pp 53-63.

Investigating the Energetics of Bioadhesion on Microengineered Siloxane Elastomers: Characterizing the Topography, Mechanical Properties, and Surface Energy and Their Effect on Cell Contact Guidance
Feinberg AW, Gibson AL, Wilkerson WR, Seegert CA, Wilson LH, Zhao LC, Baney RH, Callow JA, Callow ME and Brennan AB. in Synthesis and Properties of Silicones and Silicone-Modified Materials. Eds. Clarson, Fitzgerald, Owen, Smith and V. Dyke, ACS. 2003, 838:pp 196-211.

(Please download my curricula vitae to view publications from previous years)