Innovations and Advances in Wound Healing
Autor: | Han, Seung-Kyu |
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EAN: | 9789811998072 |
Auflage: | 003 |
Sachgruppe: | Medizin |
Sprache: | Englisch |
Seitenzahl: | 420 |
Produktart: | Kartoniert / Broschiert |
Veröffentlichungsdatum: | 22.11.2024 |
123,04 €*
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This book presents state of the art knowledge on new techniques and materials that can improve functional and aesthetic results in wound healing while reducing invasiveness, based on the author's extensive personal experience. The aim is to equip the practitioner with all the information required in order to select a strategy that will accelerate wound healing and minimize both the risk of complications and scar formation after the wound has fully healed. The opening chapters set the stage by providing an overview of wound healing, including brief descriptions of the anatomy of the skin, the wound healing process, and advanced wound dressings. A full description follows of the various methodologies employed in repairing acute wounds with the goal of achieving optimal functional and cosmetic outcomes while utilizing the safest and least invasive method. Treatment protocols that have proven successful in closing nonhealing and/or delayed healing chronic wounds are then presented. In addition, a chapter addresses aesthetic procedures using advanced technology in wound healing. The closing chapter presents author¿s experience with the establishment a hospital wound dressing team. The text is complemented by a comprehensive collection of full-color photos. Since the publication of the second edition, there have been many notable advances in wound healing research. The third edition is expanded and updated to reflect the advancements and new information. Key revisions include new chapters and/or sections on recently developed dressings such as a bioelectric dressing, a fluorescence imaging device of bacteria, usefulness of fibrin glue to support wound healing, graft of 3D-printed micronized adipose tissue, significance of skin hydration level for wound healing, novel staged excision technique to reduce scar length, newly developed risk scoring system to predict wound healing outcomes in diabetic patients, expanded coverage of cell therapy, new devices such as extracorporeal shock wave therapy, and automated SVF cell isolation system.