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Chapter 5 Plasma Modified Textiles for Biomedical Applications (2021)

Morent, Rino ; De Geyter, Nathalie ; Cools, Pieter

InTechOpen | Advances in Bioengineering

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Publication Date: 2024-04-04

Description: In the textile market industry, technical textiles are one of the fastest growing businesses. Part of that industry consists of textiles for medical and healthcare applications and are responsible for a continuous increase in its market potential [1]. Next to their need in hospital environments, there is a growing demand in other sectors such as the food and hotel industry, due to stricter hygiene regulations. In most cases biomedical textile meets a well-defined set of requirements such as minimizing non-specific protein adsorption, drug delivery coatings or the presence of active functional coatings and most importantly excellent biocompatibility (blood-, tissue-or cyto-compatibility) [2]. In general there are very few materials meeting all these characteristics, while at the same time offering the needed structural and mechanical properties. Furthermore, depending on the application, the production process has to be cost-effective and approved by local legislation.

Keywords: plasma modified textiles ; biomedicine ; plasma modified textiles ; biomedicine ; Blood plasma ; Electrospinning ; Nonwoven fabric ; Surface modification of biomaterials with proteins ; Tissue engineering ; thema EDItEUR::P Mathematics and Science::PD Science: general issues

Language: English

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Chapter 13 Targeting Tumor Perfusion and Oxygenation Modulates Hypoxia and Cancer Sensitivity to Radiotherapy and Systemic Therapies (2021)

Jordan, Bénédicte F. ; Sonveaux, Pierre

InTechOpen | Advances in Cancer Therapy

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Publication Date: 2024-04-04

Description: Hypoxia, a partial pressure of oxygen (pO2) below physiological needs, is a limiting factor affecting the efficiency of radiotherapy. Indeed, the reaction of reactive oxygen species (ROS, produced by water radiolysis) with DNA is readily reversible unless oxygen stabilizes the DNA lesion. While normal tissue oxygenation is around 40 mm Hg, both rodent and human tumors possess regions of tissue oxygenation below 10 mm Hg, at which tumor cells become increasingly resistant to radiation damage (radiobiological hypoxia) (Gray, 1953). Because of this so-called “oxygen enhancement effect”, the radiation dose required to achieve the same biologic effect is about three times higher in the absence of oxygen than in the presence of normal levels of oxygen (Gray et al., 1953; Horsman & van der Kogel, 2009). Hypoxic tumor cells, which are therefore more resistant to radiotherapy than well oxygenated ones, remain clonogenic and contribute to the therapeutic outcome of fractionated radiotherapy (Rojas et al., 1992).

Keywords: tumor ; systematic therapies ; hypoxia ; radiotherapy ; cancer sensitivity ; tumor ; systematic therapies ; hypoxia ; radiotherapy ; cancer sensitivity ; Blood ; Hemodynamics ; Magnetic resonance imaging ; Neoplasm ; Oxygen ; Perfusion ; Radiation therapy ; Vasodilation ; thema EDItEUR::P Mathematics and Science::PD Science: general issues

Language: English

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