A Combined Scientometric and Critical Approach in Reviewing TiZr Implant Alloys and Coating Performances

This review article was developed based on the scientometric analysis of the evaluated studies conducted on titanium−zirconium (TixZr) alloys from 2000 to the present. The scientometric data obtained helped us to identify the most researched topics and these topics were further analyzed and discussed. An increasing number of researchers are considering TixZr alloys as opposed to the traditional ones because these alloys present improved mechanical properties and in some cases improved corrosion resistance and biocompatibility. Due to the natural layer of oxides formed on these alloys, multiple surface modification methods can be applied to solve some of the challenges faced in the field of implantable materials. A significant number of studies are now focusing on surface modifications at the nanometer scale or various coatings for improved corrosion resistance and biological interactions. Although not yet commercially available, a TiZr alloy with a nanostructured surface and embedded biologically active substances, such as antibiotics or coated with hydroxyapatite, may become a future option

Sustainable Coatings on Metallic Alloys as a Nowadays Challenge

Starting with a description of the meaning of sustainable coating nowadays, this review presents a selection of methods for sustainable coatings manufacture using raw materials, saving energy and costs. This selection creates an introduction for the coatings performances of intensively investigated coated alloys and their multifunctionality. There are many examples and EU recommendations to be discussed, and we especially chose to introduce sustainable coatings with both industrial and medical functions, such as bioinspired films and coatings on high-entropy alloys, biodegradable metallic alloys, etc. A special focus is on nanotechnology and nanomaterials in green procedures, enhancing coatings’ multifunctionality, introducing green corrosion inhibitors, smart additives, and coatings based on superhydrophobicity. The conclusions and future perspectives of sustainable and multifunctional coatings, as expressions of sustainable advanced materials, are based on important motivations of such studies

Aspects of Applied Chemistry Related to Future Goals of Safety and Efficiency in Materials Development for Nuclear Energy

The present paper is a narrative review focused on a few important aspects and moments of trends surrounding materials and methods in sustainable nuclear energy, as an expression of applied chemistry support for more efficiency and safety. In such context, the paper is focused firstly on increasing alloy performance by modifying compositions, and elaborating and testing novel coatings on Zr alloys and stainless steel. For future generation reactor systems, the paper proposes high entropy alloys presenting their composition selection and irradiation damage. Nowadays, when great uncertainties and complex social, environmental, and political factors influence energy type selection, any challenge in this field is based on the concept of increased security and materials performance leading to more investigations into applied science

Cardioprotective Effects Induced by Preconditioning with Halogenated Anesthetics

Background: Numerous studies discuss the protective effects of halogenated anesthetics on myocyte injury induced by the ischemia-reperfusion syndrome of the heart. This mechanism is known as pharmacological preconditioning

The Effects of Homocysteine Level in the Critically Ill Patient. A Review

Increased levels of homocysteine (HCYS) represent a risk factor for a series of physiopathological conditions: mental retardation, cardiovascular and neurodegenerative diseases, Parkinson's and Alzheimer's disease, depression, osteoporosis, endothelial dysfunction and inhibition of cell proliferation. This paper aims to present the pathophysiological implications of HCYS and the correlation of hyperhomocysteinemia (H-HCYS) with critical condition in the intensive care unit (ICU). Hypovitaminosis B and folate deficiency is directly involved in the inhibition of HCYS metabolism and the accumulation of HCYS in the plasma and tissues. Critically ill patients are more prone to H-HCYS due to hypermetabolism and accelerated synthesis produced by reactive oxygen species (ROS). In conclusion it can be affirmed that the determination and monitoring of HCYS plasma levels may be of interest in optimizing the therapy for critically ill patients. Moreover, by controlling HCYS levels, and implicitly the essential cofactors that intervene in the specific biochemical pathways, such as vitamin B6, vitamin B12 and folic acid can provide a diversified and personalized treatment for each patient

A novel evaluation of microvascular damage in critically ill polytrauma patients by using circulating microRNAs

The management of the critically ill polytrauma patient is complex due to the multiple complications and biochemical and physiopathological imbalances. This happened due to the direct traumatic injury, or due to the post-traumatic events. One of the most complex physiopathology associated to the multiple traumas is represented by microvascular damage, subsequently responsible for a series of complications induced through the imbalance of the redox status, severe molecular damage, reduction of the oxygen delivery to the cell and tissues, cell and mitochondrial dead, augmentation of the inflammatory response and finally the installation of multiple organ dysfunction syndrome in this type of patients. A gold goal in the intensive care units is represented by the evaluation and intense monitoring of the molecular and physiopathological dysfunctions of the critically ill patients. Recently, it was intensely researched the use of microRNAs as biomarkers for the specific physiopathological dysfunctions. In this paper we wish to present a series of microRNAs that can serve as biomarkers for the evaluation of microvascular damage, as well as for the evaluation of other specific physiopathology for the critically ill polytrauma patient