Mottaghitalab / Farokhi / Gnatowski | Burn Wound Infections | Buch | 978-0-443-33520-4 | sack.de

Buch, Englisch, 700 Seiten, Format (B × H): 152 mm x 229 mm

Mottaghitalab / Farokhi / Gnatowski

Burn Wound Infections

Biomaterials, Healing Mechanisms, Dressing Techniques and Clinical Practice
Erscheinungsjahr 2025
ISBN: 978-0-443-33520-4
Verlag: Elsevier Science

Biomaterials, Healing Mechanisms, Dressing Techniques and Clinical Practice

Buch, Englisch, 700 Seiten, Format (B × H): 152 mm x 229 mm

ISBN: 978-0-443-33520-4
Verlag: Elsevier Science

Burn Wound Infections: Biomaterials, Healing Mechanisms, Dressing Techniques and Clinical Practice is a comprehensive resource that includes information about the use of different biomaterials and hydrogels for repairing infected wounds and their clinical outcomes. The book includes three parts - Part I: Burn wound infections: mechanisms, pathophysiology, and healing; Part II: Types of dressings used for infected burn wounds; and Part III: Regulatory Considerations and Commercialization of biomaterial/hydrogel based dressings for infected burn wound.

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Autoren/Hrsg.

Mottaghitalab, Fatemeh
Farokhi, Mehdi
Gnatowski, Przemyslaw
Kuci&
Kucinska-Lipka, Justyna
B&
Baczek, Tomasz
Saeb, Mohammad Reza

Fachgebiete

Weitere Infos & Material

Part I: Burn wound infections: mechanisms, microbiology, pathophysiology, and healing
1. Overview of burn wound infections
2. Overview of the factors and mechanisms influencing the burn wound infections
3. Microbiological mechanisms undertaking burn wound infections.
4. Overview of the healing mechanisms of infected burn wounds

Part II: Types of dressings used for infected burn wounds

5. Biomaterials based dressings: properties: Physicochemical, mechanical, rheological, and biocompatibility characteristics
6. Types of biomaterials useful for infected burn wound repair
7. Interaction of biomaterials with wound environment and healing mechanisms
8. Hybrid/composite biomaterials as powerful burn wound dressings
9. Evaluating the in vitro and in vivo performances of biomaterials for healing infected burn wounds
10. Evaluating the antimicrobial properties of biomaterials
11. Challenges of using biomaterials for infected wound care
12. Hydrogel based dressings: properties: Physicochemical, mechanical, rheological, and biocompatibility characteristic
13. Types of hydrogels useful for infected burn wound repair
14. Interaction of hydrogels with wound environment and healing mechanisms
15. Hybrid hydrogels for progressive healing of infected wounds
16. Evaluating the in vitro and in vivo performances of hydrogels
17. Evaluating the antimicrobial properties of hydrogels
18. Challenges of using hydrogels for infected wound care
19. Overview of methods for fabricating biomaterials based dressings for infected wounds
20. Overview of methods for fabricating hydrogel based dressings for infected wounds
21. Overview of methods for fabricating biomaterials/hydrogel based dressings for infected wounds
22. Surface modification strategies for improving the performance of biomaterial/hydrogel based wound dressings
23. Cellular therapies in burn wound treatment

Part III: Regulatory considerations and commercialization of biomaterial/hydrogel based dressings for infected burn wound
24. Regulatory Pathways for biomaterial/hydrogel based Dressings
25. Quality Control and Standardization of biomaterial/hydrogel based Dressings
26.Translation of Research Findings on the efficacy of biomaterial/hydrogel based Dressings into Clinical Practice
27. Wound dressings targeted at infected burns: Challenges and Future Perspectives

Gnatowski, Przemyslaw
Przemyslaw Gnatowski works as Assistant Professor in the Division of Environmental Toxicology, Faculty of Health Sciences with the Institute of Maritime and Tropical Medicine, Medical University of Gdansk. His research focuses on the development of 3D printed polyurethane-based drug delivery systems for usage in otolaryngology. His research also covers the utilization of natural antimicrobial agents for the creation of hydrogel wound dressings which could be applied for hard to heal wounds treatment

Saeb, Mohammad Reza
Mohammad Reza Saeb is University Professor at the Department of Polymer Technology, Faculty of Chemistry, Gdansk University of Technology. He conceptualizes processing-microstructure-properties-performance interrelationships in polymer blends and nanocomposites. He also visualizes network formation-network degradation correlation in polymer systems by analyzing cure kinetics, thermal degradation kinetics, and flame retardancy.

Baczek, Tomasz
Professor Tomasz Baczek is the Head of the Department of Pharmaceutical Chemistry of the Medical University of Gdansk since 2009. His main research areas are biomedical and pharmaceutical analytics, drug chemistry, bioanalytics and proteomics. He is author or co-author of over 220 original publications in scientific journals

Mottaghitalab, Fatemeh
Dr Fatemeh Mottaghitalab is Associate Professor of nanobiotechnology at the Nanotechnology Research Centre, Faculty of Pharmacy, Tehran University of Medical Sciences. She has MSc in biochemistry from Tehran University and a PhD in Nanobiotechnology from Tarbiat Modares University. She joined the Tehran University of Medical Sciences in 2014. She is a vice-chancellor of the Nanotechnology Research Centre. Her research interests include artificial tissue constructs and novel nanoparticulate drug delivery systems for cancer theranostics

Kucinska-Lipka, Justyna
Dr Justyna Kucinska-Lipka is Professor at the Department of Polymer Technology, Faculty of Chemistry, Gdansk University of Technology. Her current research focuses on additive technologies applicable in the production of both hybrid systems for releasing low-molecular substances as components of dressing layers and degradable systems, applicable, among others, in otolaryngology

Farokhi, Mehdi
Dr Mehdi Farokhi is a researcher and associate professor of Tissue Engineering at the Pasteur Institute of Iran. He completed his education at the Medical University of Tehran. Dr. Farokhi's research focuses on the development and application of multifunctional hydrogels made from both natural and synthetic polymers, as well as nanoparticles for drug delivery applications

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