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What is a wound, how does it heal, and how can we prevent scarring? The concept of wound healing has puzzled humans even before the advent of modern medicine.In recent years, bioengineering has tackled the problems of cancer, tissue engineering and molecular manufacturing. The broad spectrum of technologies developed in these fields could potentially transform the wound care practice. However, entering the world of wound healing research is challenging — a broad spectrum of knowledge is required to understand wounds and improve healing.This book provides an essential introduction of the field of wound healing to bioengineers and scientists outside the field of medicine. Written by leading researchers from various fields, this book is a comprehensive primer that gives readers a holistic understanding of the field of wound biology, diagnostics and treatment technologies.
Innovations and Emerging Technologies in Wound Care is a pivotal book on the prevention and management of chronic and non-healing wounds. The book clearly presents the research and evidence that should be considered when planning care interventions to improve health related outcomes for patients. New and emerging technologies are discussed and identified, along with tactics on how they can be integrated into clinical practice. This book offers readers a bridge between biomedical engineering and medicine, with an emphasis on technological innovations. It includes contributions from engineers, scientists, clinicians and industry professionals. Users will find this resource to be a complete picture of the latest knowledge on the tolerance of human tissues to sustained mechanical and thermal loads that also provides a deeper understanding of the risk for onset and development of chronic wounds.
Beginning with an exploration of the origins and evolution of sustainable development and finance, this book continues with sections on public and private sector finance and investment for sustainable development, climate finance, and the emerging ‘blue’ economy. A concluding chapter incorporates the recommendations for sustainable finance going forward in the wake of the COVID-19 pandemic and escalating global environmental crisis.
Skin is the largest organ of the body and is necessary for survival, since it performs many functions such as providing a physical barrier to the external environment, sensation, retention of normal hydration and thermal regulation. Significant skin loss is associated with high mortality and morbidity in the acute phase, and with physically and cosmetically drastic scarring in the long term. Although there are a number of tissue-engineered products in the clinic that are used as skin substitutes to promote healing of traumatic burn and diabetic wounds, yet they lack several important functions including those provided by the appendages such as the hair follicles, sebaceous and sweat glands. ...
The current era of incredible innovations has made science and technology one of the most powerful tools to meet the goals of incremental prosperity for humans and sustainable development. The development of the biotech industry in any given country is shaped by the characteristics of the technology—particularly its close relation to scientific knowledge—and by country-specific factors—the level and nature of the scientific knowledge base, the institutional set-up, and the role assumed by the government—which influence the country's ability to exploit new opportunities and appropriate the respective results. This book presents an integrated approach for sustained innovation in variou...
Non-thermal irreversible electroporation is a new minimally invasive surgical p- cedure with unique molecular selectivity attributes – in fact it may be considered the first clinical molecular surgery procedure. Non-thermal irreversible electro- ration is a molecular selective mode of cell ablation that employs brief electrical fields to produce nanoscale defects in the cell membrane, which can lead to cell death, without an effect on any of the other tissue molecules. The electrical fields can be produced through contact by insertion of electrode needles around the undesirable tissue and non-invasively by electromagnetic induction. This new - dition to the medical armamentarium requires t...
This unique compendium provides an insight into the role of emerging marine biorefineries based on macroalgae (seaweeds) in the development of a sustainable use of ocean resources for economic growth-blue economy.The useful reference text shows a complete picture on the motivation to develop seaweed technologies, and how the combination of biology, cultivation technologies and downstream processing with economics can address the social challenges through the blue growth.
The bioactivity potential of marine polysaccharides has long been considered an underexploited aspect. These molecules found in seaweed, microalgae, bacteria, and animal fish (shellfish, mollusks, etc.) and the derived oligosaccharides need to be explored thoroughly with an interdisciplinary approach. They are an extraordinary source of chemical diversity, and the literature highlights many applicative fields, including the food industry, cosmetics, biomedicine, agriculture, environmental protection, wastewater management, etc. More recently, a new challenge has emerged: the exploitation of marine biomass as the source of sustainable energy to participate in the future replacement of fossil ...
Transport in Biological Media is a solid resource of mathematical models for researchers across a broad range of scientific and engineering problems such as the effects of drug delivery, chemotherapy, or insulin intake to interpret transport experiments in areas of cutting edge biological research. A wide range of emerging theoretical and experimental mathematical methodologies are offered by biological topic to appeal to individual researchers to assist them in solving problems in their specific area of research. Researchers in biology, biophysics, biomathematics, chemistry, engineers and clinical fields specific to transport modeling will find this resource indispensible. - Provides detailed mathematical model development to interpret experiments and provides current modeling practices - Provides a wide range of biological and clinical applications - Includes physiological descriptions of models