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Skin Tissue Models

  • ID: 4226440
  • Book
  • November 2017
  • Region: Global
  • 472 Pages
  • Elsevier Science and Technology
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Skin Tissue Models provides a translational link for biomedical researchers on the interdisciplinary approaches to skin regeneration. As the skin is the largest organ in the body, engineered substitutes have critical medical application to patients with disease and injury - from burn wounds and surgical scars, to vitiligo, psoriasis and even plastic surgery. This volume offers readers preliminary description of the normal structure and function of mammalian skin, exposure to clinical problems and disease, coverage of potential therapeutic molecules and testing, skin substitutes, models as study platforms of skin biology and emerging technologies.

The editors have created a table of contents which frames the relevance of skin tissue models for researchers as platforms to study skin biology and therapeutic approaches for different skin diseases, for clinicians as tissue substitutes, and for cosmetic and pharmaceutical industries as alternative test substrates that can replace animal models.

  • Offers descriptions of the normal structure/function of mammalian skin, exposure to clinical problems, and more
  • Presents coverage of skin diseases (cancer, genodermatoses, vitiligo and psoriasis) that extends to clinical requirements and skin diseases in vitro models
  • Addresses legal requirements and ethical concerns in drugs and cosmetics in vitro testing
  • Edited and authored by internationally renowned group of researchers, presenting the broadest coverage possible

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Section 1
Therapeutic Molecules and Cosmetics Testing
1. Cosmetic industry requirements regarding skin models for cosmetic testing   Christian Pellevoisin, Charbel Bouez, José Cotovio 2. Overall perspective on the clinical importance of skin models   Yusef Yousuf, Saeid Amini-Nik, Marc G. Jeschke,

Section 2
Skin Diseases: clinical demands and diseased-skin in vitro models
3. In vitro models of Melanoma   Dagmar Kulms, Friedegund Meier 4. Organotypic and humanized animal models of genodermatoses   Esteban Chacón-Solan, Sara Guerrero-Aspizua, Lucía Martínez-Santamaría, Marcela Del Rio, Fernando Larcher 5. In vitro models of Psoriasis   Bryan Roy, Mélissa Simard, Isabelle Lorthois, Audrey Bélanger, Maxim Maheux, Alexandra Duque-Fernandez, Geneviève Rioux, Philippe Simard, Marianne Deslauriers, Louis-Charles Masson, Alexandre Morin and Roxane Pouliot 6. In vitro models of Vitiligo Muriel Cario-André, Katia Boniface, François-Xavier Bernard, Alain Taieb, Maria Lucia Dell'Anna, Julien Seneschal 7. In vitro models of squamous cell carcinoma   Elizabeth Pavez Loriè, Hans-Jürgen Stark, Manuel Berning, Petra Boukamp

Section 3
Skin Substitutes: Clinical demands and skin tissue equivalents
8. Strategies to promote the vascularization of skin substitutes after transplantation   Jennifer Bourland, Julie Fradette 9. On the path to scarring-free skin regeneration approaches   Mohammed Ashrafi, Adam Hague, Mohamed Baguneid, Teresa Alonso-Rasgado, Ardeshir Bayat 10. Pre-clinical Models for Wound Healing Studies   Irena Pastar, Liang Liang, Andrew P Sawaya, Tongyu Cao Wikramanayake, George D Glinos, Stephan Drakulich, Vivien Chen, Olivera Stojadinovic, Stephen C Davis, and Marjana Tomic-Canic 11. The importance of targeting inflammation in skin regeneration   Megan Schrementi, Lin Chen, Luisa Ann DiPietro

Section 4
In Vitro Models as study platforms of skin Biology
12. In Vitro Models to study hair follicles generation   Ana Korosec, Beate Maria Lichtenberger 13. In Vitro Models to study cutaneous innervation mechanisms   Nicolas Lebonvallet, Christelle Le Gall-Ianotto, Jérémy Chéret, Raphaël Leschiera, Matthieu Talagas, Raphaële Le Garrec, Virginie Buhé, Killian L'herondelle, Olivier Gouin, Mehdi Sakka, Nicholas Boulais, Ulysse Pereira, Jean-Luc Carré, Laurent Misery 14. Skin in vitro models to study dermal white adipose tissue role in skin healing   Manuela E. L. Lago, Mariana T. Cerqueira, Rogério P. Pirraco, Rui L. Reis, Alexandra P. Marques 15. Immunocompetent in vitro skin models   Victoria Hutter, Stewart B Kirton, David YS Chau

Section 5
Emerging technologies for the development of 3D skin models
16. Additive manufacturing in the development of 3D skin models   Kelsey Retting, Deborah G. Nguyen 17. Induced Pluripotent Stem Cells Potential to generate skin tissue models   Olga Kashpur, Avi Smith, Nailia Mukhamedshina, Jeremy Baskin, Yulia Shamis, Kyle Hewitt, Behzad Gerami-Naini, Jonathan A. Garlick 18. Requirements of skin tissue models for high throughput screening   Stephanie H. Mathes, Christian N. Parker

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Marques, Alexandra P.
Alexandra Pinto Marques graduated in Biochemistry (1997) in the Faculty of Sciences of the University of Porto, Portugal, attended a one year specialisation course as part of the Biomedical Engineering Master/Doctoral Programme at the Faculty of Engineering of the University of Porto (1998) and obtained a PhD in Materials Science and Technology - Biomaterials in the University of Minho, Portugal and in cooperation with the University of Liverpool, UK (2004). She is Principal Investigator, a founder member and Vice-Director of the 3B's Research Group, a Research Unit of the University of Minho, Portugal, where she has been build her career in the field of skin tissue engineering. She has been integrating stem cells and biomaterials knowledge into tissue engineering as a way to define innovative strategies to improve the functionality of skin tissue engineered constructs. The establishment of in vitro 3D culture platforms to understand cellular crosstalk as well to be able to modulate the engineered constructs outcome has been the focus of her work. She has been awarded successive career grants among which a Consolidator Grant from the European Research Council (2016).
Reis, Rui L.
Prof. Rui L Reis is the Vice-President for Research and Innovation of University of Minho (Portugal), Director of the 3B's Research Group, I3Bs - Institute for Biomaterials, Biodegradables and Biomimetics, and Director of ICVS/3B´s Associate Laboratory, both at University of Minho (Portugal). He is also the CEO of the European Institute of TERM, the Coordinator of Discoveries Centre for Regenerative and Precision Medicine, and the Global Past-President of Tissue Engineering and Regenerative Medicine International Society (TERMIS). He is a recognized world expert in the TERM and biomaterials fields, has edited several books and has more 1200 publications and around 70 patents. He co-founded several companies that raised private investments. He has been awarded several important international prizes, including among others the Jean Leray and George Winter Awards (ESB), the Clemson Award (SFB) and TERMIS-EU Awards (i) for contributions to the literature and (ii) the lifetime achievement, and recently the UNESCO- International Life Sciences Award and the IET A. F. Harvey Engineering Research Prize.
Pirraco, Rogério P.
Rogério P. Pirraco (born 1982 Porto, Portugal) concluded his four year-graduation in Applied Biology in 2005, at the University of Minho and his PhD at the same university in 2011. During his PhD, he spent a total of one year at Professor Teruo Okano's Institute of Advanced Biomedical Engineering and Science of the Tokyo's Women Medical University in Tokyo, Japan, where he acquired knowledge in cell sheet engineering and its application in animal models. In 2016, Rogério got a 5 year FCT IF contract (career development grant from the Portuguese Science and Technology Agency) that will allow him to pursue his research interests in an independent way. Currently, his research interests are focused on the use of cell sheet engineering, stem cells and hypoxia for Tissue Engineering strategies.
Cerqueira, Mariana
Mariana T. Cerqueira (born in 1983 in Porto, Portugal) concluded four years graduation in Biology (2006), in the Faculty of Sciences of the University of Porto, performing a final work thesis at Stem Cell Laboratory, King's College London, UK, where she got the opportunity of the first contact with the latest cutting edge research. She carried out her academic career by joining 3B's Research Group, University of Minho, where she concluded a PhD in Tissue Engineering, Regenerative Medicine and Stem Cells (2013), as the first graduated student in the field of Skin Regeneration in the group and where she has been working since then. After concluding a Post-Doctoral fellowship awarded by Portuguese Foundation of Science and Technology, Mariana currently works as an Invited Assistant Researcher. By taking advantage of the knowledge acquainted during graduate studies and novel collaborations established, she has been focused on the development of different skin tissue engineering strategies by exploring mainly stem cell-based approaches to fine tune their role in different types of wounds. She has been publishing several works in refereed journals, awarded two front covers in international journals, and in international conference proceedings.
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