Cell-Derived Matrices Part B

David Caballero (Redaktør) ; Subhas C. Kundu (Redaktør) ; Rui L Reis (Redaktør)

Cell-Derived Matrices Part B, Volume 157 provides a detailed description and step-by-step methods surrounding the use of three-dimensional cell-derived matrices for tissue engineering applications. Chapters in this new release include Glaucomatous cell-derived matrices, Cardiac tissue explants decellularization, Decellularization of skin matrices for wound healing applications, Guiding axonal growth by aligned cell-derived matrices for spinal cord injury regeneration, Human Mesenchymal Stem Cell–Derived Matrices for Enhanced Osteoregeneration, Amniotic decellularized matrices, Three-Dimensional (3-D) Tissue Reconstruction without Scaffold, Tubular cell-derived matrices for TERM applications, and more. Les mer
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Leveringstid: Sendes innen 21 dager

Om boka

Cell-Derived Matrices Part B, Volume 157 provides a detailed description and step-by-step methods surrounding the use of three-dimensional cell-derived matrices for tissue engineering applications. Chapters in this new release include Glaucomatous cell-derived matrices, Cardiac tissue explants decellularization, Decellularization of skin matrices for wound healing applications, Guiding axonal growth by aligned cell-derived matrices for spinal cord injury regeneration, Human Mesenchymal Stem Cell–Derived Matrices for Enhanced Osteoregeneration, Amniotic decellularized matrices, Three-Dimensional (3-D) Tissue Reconstruction without Scaffold, Tubular cell-derived matrices for TERM applications, and more.

Fakta

Innholdsfortegnelse

Preface David Caballero, Subhas C. Kundu and Rui L. Reis

Section 1: Tissue decellularization and characterization methods 1. Decellularization of porcine heart tissue to obtain extracellular matrix based hydrogels Rabeil Sakina, Aida Llucià-Valldeperas, Ana Henriques Lourenço, Abhishek Harichandan, Sandro Gelsomino, Paul Wieringa, Carlos Mota and Lorenzo Moroni 2. Method to decellularize the human chorion membrane Laura P. Frazão, Joana Vieira-de-Castro, Cristina Nogueira-Silva and Nuno M. Neves 3. Protocols for decellularization of human amniotic membrane Sadjad Khosravimelal, Maryam Momeni, Mahdieh Gholipur, Subhas C. Kundu and Mazaher Gholipourmalekabadi 4. Use of supercritical CO2 in soft tissue decellularization Bengisu Topuz, Gülçin Günal, Selcan Guler and Halil Murat Aydin 5. Corneal extracellular matrix decellularization Mark Ahearne

Section 2: Decellularized tissues for tissue engineering and disease modelling 6. Implementation of a basement membrane invasion assay using mesenteric tissue Ritobrata Ghose, Alistair J. Rice, Ernesto Cortes, Upamanyu Ghose, Dariusz Lachowski and Armando del Rio Hernandez 7. Decellularized human bone as a 3D model to study skeletal progenitor cells in a natural environment Ana Rita Pereira, Maximilian Rudert and Marietta Herrmann 8. Cell sheet tissue engineering for scaffold-free three-dimensional (3D) tissue reconstruction Kyungsook Kim, Sophia Bou-Ghannam and Teruo Okano 9. Decellularized matrices for tumor cell modeling Virginia Brancato, Maurizio Ventre, Rui L. Reis and Paolo Antonio Netti 10. Tissue-derived decellularized extracellular matrices toward cartilage repair and regeneration Piyali Das, Yogendra Pratap Singh, Biman B. Mandal and Samit Kumar Nandi

Section 3: Hybrid systems 11.The effect of aligned electrospun fibers and macromolecular crowding in tenocyte culture Dimitrios Tsiapalis, Shubhasmin Rana, Meletios Doulgkeroglou, Stephen Kearns, Jack Kelly, Yves Bayon and Dimitrios I. Zeugolis

Om forfatteren

Dr. David Caballero is a senior Research Associate at the 3B’s Research Group, I3Bs – Institute for Biomaterials, Biodegradables and Biomimetics at University of Minho (Portugal). Dr. Caballero has broad experience in the fields of biophysics, bioengineering, microfluidics, and nanotechnology. His main research interests include the development of novel bioengineered in vitro models to study the mechanistic determinants of cancer cell invasion. Currently, Dr. Caballero work focuses in the development of innovative multi-organ-on-chip tumor models using engineered native-like 3D biomaterials for drug screening applications. Prof. Subhas C. Kundu is a European Research Area Chair and Professor at the 3B´s Research Group, I3Bs – Institute on Biomaterials, Biodegradables and Biomimetics of University of Minho (Portugal). Earlier Prof. Kundu was a Professor in the Department of Biotechnology at the Indian Institute of Technology Kharagpur (India). He obtained his post-graduation and PhD in Genetics from Banaras Hindu University (India) and received his post-doctoral trainings at the Institute of Molecular Biology in Moscow, the York University in Canada, the Medical University in Lubeck (Germany), and the Brunel University in UK. His research interests include silk biomaterial matrices for biomedical applications including 3D cancer modelling for investigating tumor growth and progression. His present area of interest is the use of natural-based biomaterials for 3D cancer modelling and drug screening. Professor Rui L. Reis, PhD, DSc, Hon. Causa MD, Hon Causa PhD, FBSE, FTERM. He’s Vice-President for Research and Innovation of University of Minho, Portugal, Director of 3B’s Research Group and Director of ICVS/3B´s Associate Laboratory, both of UMinho. He’s the CEO of the European Institute of Excellence on Tissue Engineering and Regenerative Medicine, the Coordinator of the Discoveries Centre for Regenerative and Precision Medicine, the Global Past-President of the Tissue Engineering and Regenerative Medicine International Society and the Editor-in-chief of the Journal of Tissue Engineering and Regenerative Medicine. He’s edited several books and has more 1225 published works listed on ISI Web of Knowledge, being an inventor of around 70 patents. He’s been awarded many important international prizes, including the TERMIS-EU contributions to the literature Award and the TERMIS-EU Career Achievement Award, and recently the UNESCO- International Life Sciences Award and the IET A. F. Harvey Engineering Research Prize.