Biology-inspired microphysiological systems to advance patient benefit and animal welfare in drug development (2020) Uwe Marx, et al. (2020) ALTEX – Alternatives to Animal Experimentation.

The value of organs-on-chip for regulatory safety assessment (2019) Minne Heringa, Margriet Park, Anne Kienhuis and Rob Vandebriel, ALTEX preprint published December 13.

Engineered 3D Polymer and Hydrogel Microenvironments for Cell Culture Applications (2019) Daniel Fan, Urs Staufer and Angelo Accardo, Bioengineering6(4), 113, Review paper.

Building Blocks for a European Organ-on-Chip Roadmap (2019) M. Mastrangeli, S. Millet, C. Mummery, P. Loskill, D. Braeken, W. Eberle, M. Cipriano, L. Fernandez, M. Graef, X. Gidrol, N. Picollet-D’Hahan, B. van Meer, I. Ochoa, M. Schutte, J. van den Eijnden-van Raaij; ALTEX – Alternatives to Animal Experimentation, Volume 36, Issue 3, pp. 481-492.

Organ-on-Chip in Development: Towards a roadmap for organs-on-chip (2019) M. Mastrangeli, S. Millet, the ORCHID partners, J. van den Eijnden-van Raaij;  ALTEX-Alternatives to Animal Experimentation, Volume 36, Issue 4, 2019.

Impact of organ-on-a-chip technology on pharmaceutical R&D costs, Franzen, N. et al. (2019) Drug Discovery Today

Human Retina-on-a-Chip: Merging Organoid and Organ-on-a-Chip Technology to Generate Complex Multi-Layer Tissue Models. Kevin Achberger, Christopher Probst, Jasmin Haderspeck, Sylvia Bolz, Julia Rogal, Johanna Chuchuy, Marina Nikolova, Virginia Cora, Lena Antkowiak, Wadood Haq, Nian Shen, Katja Schenke-Layland, Marius Ueffing, Stefan Liebau, Peter Loskill. (2019)

Stem-cell culture moves to the third dimension. Tachibana, CY. Nature 558 (2018)

Advances in organ-on-a-chip engineeringZhang, B., Korolj, A., Fook Lun Lai, B., Radisic M. Nature (2018)

Fabricating porous, photo-crosslinked poly (trimethylene carbonate) membranes using temperature-induced phase separation. Thijs Pasman, Dirk W. Grijpma, Dimitrios F. Stamatialis and André A. Poot; Polimers Advances Technologies (2016) DOI: 10.1002/pat.3956

Three-dimensional cardiac microtissues composed of cardiomyocytes and endothelial cells co-differentiated from human pluripotent stem cells. Giacomelli E, Bellin M, Sala L, van Meer BJ, Tertoolen LG, Orlova VV, Mummery CL.Development. 2017 Mar 15;144(6):1008-1017. doi: 10.1242/dev.143438.

Instrumented cardiac microphysiological devices via multimaterial three-dimensional printing Johan U. Lind, Travis A. Busbee, Alexander D. Valentine, Francesco S. Pasqualini, Hongyan Yuan, Moran Yadid, Sung-Jin Park, Arda Kotikian, Alexander P. Nesmith, Patrick H. Campbell, Joost J. Vlassak, Jennifer A. Lewis & Kevin K. Parker, Nature Materials (2016) Published online 24 October 2016

Integrating cardiomyocytes from human pluripotent stem cells in safety pharmacology: has the time come? Review. Sala L, Bellin M, Mummery CL. Br J Pharmacol. 2016 Sep 19. doi: 10.1111/bph.13577. [Epub ahead of print]

Biology-Inspired Microphysiological System Approaches to Solve the Prediction Dilemma of Substance Testing (t4 Workshop ReportMarx U, Andersson TB, Bahinski A, Beilmann M, Beken S, Cassee FR, Cirit M, Daneshian M, Fitzpatrick S, Frey O, Gaertner C, Giese C, Griffith L, Hartung T, Heringa MB, Hoeng J, de Jong WH, Kojima H, Kuehnl, Leist M, Luch A, Maschmeyer I, Sakharov D, Sips AJAM, Steger-Hartmann T, Tagle DA, Tonevitsky A, Tralau T, Tsyb S, van de Stolpe A, Vandebriel R, Vulto P, Wang J, Wiest J, Rodenburg M, Roth A; ALTEX 33(3), 2016, Epub May 15, 2016; doi:10.14573/altex.1603161.

Cytostretch, an Organ-on-Chip Platform; Nikolas Gaio, Berend van Meer, William Quirós Solano, Lambert Bergers, Anja van de Stolpe, Christine Mummery, Pasqualina M. Sarro and Ronald Dekker, Micromachines 2016, 7(7), 120; doi:10.3390/mi7070120

Organs-on-chips in Drug Development: The importance of Involving Stakeholders in Early Health Technology Assessment; Heleen H.T. Middelkamp, Andries D. van der Meer, J. Marjan Hummel, Dimitrios F. Stamatialis, Christine L. Mummery, Robert Passier, and Maarten J. IJzerman, Applied In Vitro Toxicology, February 2016, DOI: 10.1089/aivt.2015.0029

Microfluidic organ-on-chip technology for blood-brain barrier research; Marinke W van der Helm, Andries D van der Meer, Jan C T Eijkel, Albert van den Berg & Loes I Segerink, Tissue Barriers, Volume 4, Issue 1, 2016, Special Issue: Blood Brain Barrier DOI: 10.1080/21688370.2016.1142493Published online 28 January 2016

Reverse Engineering Human Pathophysiology with Organs-on-Chips; Donald E. Ingber, Cell, Volume 164, Issue 6, p1105–1109, 10 March 2016

The Promise and Potential of “Organs-on-Chips” as Preclinical ModelsBahinski Anthony, Applied In Vitro Toxicology. December 2015, 1(4): 235-242. doi:10.1089/aivt.2015.29002.rtl.

Workshop Meeting Report Organs-on-Chips: Human Disease Models. Anja van de Stolpe and  Jaap den Toonder, Lab on a chip 13, first published online 22 Mar 2013, 3449- 3470

Microfluidic Organs-on-Chips; Sangeeta N Bhatia & Donald E Ingber, Nature biotechnology 32,  Published online 05 August 2014, pages  760-772

International coordination of large-scale human induced pluripotent stem cell initiatives: Welcome Trust and ISSCR workshops white paper. Filipa A.C. Soares, Michael Sheldon, Mahendra Rao, Christine Mummery, and Ludovic Vallier, Stem Cell Reports 0, Published online 2014 Dec 9, pages 931-939

The Principles of Humane Experimental Technique. W.M.S. Russell and R.L. Burch, London: Methuen, New Edition 1992, especially pages 69-154

Innovative Human-Specific Investigational Approaches to Autoimmune Disease, Anja van de Stolpe and  Robert H. Kauffmann RSC Advances 5, First published online 04 Feb 2015, pages 18451 – 18463