Adam S. Hayward
Procter & Gamble
14 Papers
71 Citations
Adam S. Hayward is an academic researcher from Procter & Gamble. The author has contributed to research in topics: Cellulose & Extracellular polymeric substance. The author has an hindex of 6, co-authored 14 publications. Previous affiliations of Adam S. Hayward include Durham University.
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Papers
Recent advances in 2D and 3D in vitro systems using primary hepatocytes, alternative hepatocyte sources and non-parenchymal liver cells and their use in investigating mechanisms of hepatotoxicity, cell signaling and ADME.
Patricio Godoy,Nicola J. Hewitt,Ute Albrecht,Melvin E. Andersen,Nariman Ansari,Sudin Bhattacharya,Johannes G. Bode,Jennifer Bolleyn,Christoph Borner,J Böttger,Albert Braeuning,Robert A. Budinsky,Britta Burkhardt,Neil R. Cameron,Giovanni Camussi,Chong Su Cho,Yun Jaie Choi,J. Craig Rowlands,Uta Dahmen,Georg Damm,Olaf Dirsch,María Teresa Donato,Jian Dong,Steven Dooley,Dirk Drasdo,Dirk Drasdo,Dirk Drasdo,Rowena Eakins,Karine Sá Ferreira,Valentina Fonsato,Joanna Fraczek,Rolf Gebhardt,Andrew Gibson,Matthias Glanemann,Christopher E. Goldring,María José Gómez-Lechón,Geny M. M. Groothuis,Lena Gustavsson,Christelle Guyot,David Hallifax,Seddik Hammad,Adam S. Hayward,Dieter Häussinger,Claus Hellerbrand,Philip Hewitt,Stefan Hoehme,Hermann-Georg Holzhütter,J. Brian Houston,Jens Hrach,Kiyomi Ito,Hartmut Jaeschke,Verena Keitel,Jens M. Kelm,B. Kevin Park,Claus Kordes,Gerd A. Kullak-Ublick,Edward L. LeCluyse,Peng Lu,Jennifer Luebke-Wheeler,Anna Lutz,Daniel J. Maltman,Madlen Matz-Soja,Patrick D. McMullen,Irmgard Merfort,Simon Messner,Christoph Meyer,Jessica Mwinyi,Dean J. Naisbitt,Andreas K. Nussler,Peter Olinga,Francesco Pampaloni,Jingbo Pi,Linda J. Pluta,Stefan Przyborski,Anup Ramachandran,Vera Rogiers,Cliff Rowe,Celine Schelcher,Kathrin Schmich,Michael Schwarz,Bijay Singh,Ernst H. K. Stelzer,Bruno Stieger,Regina Stöber,Yuichi Sugiyama,Ciro Tetta,Wolfgang E. Thasler,Tamara Vanhaecke,Mathieu Vinken,Thomas S. Weiss,Agata Widera,Courtney G. Woods,Jinghai James Xu,Kathy Yarborough,Jan G. Hengstler +94 more
TL;DR: This review encompasses the most important advances in liver functions and hepatotoxicity and analyzes which mechanisms can be studied in vitro and how closely hepatoma, stem cell and iPS cell–derived hepatocyte-like-cells resemble real hepatocytes.
Acrylic-acid-functionalized PolyHIPE scaffolds for use in 3D cell culture.
TL;DR: Initial bio-compatibility assessments with human hepatocytes show that the acid functionality does not have any detrimental effect on cell adhesion, and it is believed that this material can be a useful precursor scaffold towards 3D substrates that offer tailored surface functionality for enhanced cellAdhesion.
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Improved garment longevity and reduced microfibre release are important sustainability benefits of laundering in colder and quicker washing machine cycles
TL;DR: In this article, the impacts of washing temperature and washing time on garment color loss (dye fading), colour staining, and microfibre release were evaluated using retail consumer clothing.
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Galactose-functionalized polyHIPE scaffolds for use in routine three dimensional culture of mammalian hepatocytes.
Adam S. Hayward,Ahmed M. Eissa,Daniel J. Maltman,Naoko Sano,Stefan Przyborski,Neil R. Cameron +5 more
TL;DR: Experiments with primary rat hepatocytes showed that cellular albumin synthesis was greatly enhanced during the initial adhesion/settlement period of cells on the galactose-functionalized material, suggesting that the surface carbohydrates are accessible and selective to cells entering the scaffold.
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Extracellular DNA Provides Structural Integrity to a Micrococcus luteus Biofilm.
Jamie T. Blakeman,Ana L. Morales-García,Ana L. Morales-García,Joy Mukherjee,Klaus Gori,Adam S. Hayward,Neil Joseph Lant,Mark Geoghegan +7 more
TL;DR: Force spectroscopy was used to show that extracellular DNA (eDNA) has a pre-eminent structural role in a biofilm, and this treatment almost completely eliminated any components of the biofilm maintaining the adhesion, establishing a key structural role for eDNA.