Junctional Tourniquet Coaching Experience
This study investigates how Syrian refugees explain and prefer to seek help for symptoms of post-traumatic stress disorder (PTSD) and depression.
We conducted five semi-structured focus group interviews based on a vignette-technique with Syrian refugees (n=21 men, n=10 women). buy Bavdegalutamide The vignettes describe a fictional person suffering from symptoms of PTSD or depression in line with DSM-5 and ICD-10 criteria.
Despite never mentioning PTSD, participants in the PTSD-interviews recognized the symptoms. They perceived them as a common reaction to extreme situations, mainly the war, the flight, and post-migratory stressors. Depression was labeled as either depression or feelings caused by social problems, and the participants were more hesitant to identify with these symptoms. Despite some differences, both the PTSD and depression vignettes were explained in terms of situational explanatory models and externally caused stress. The main finding is how participants described changing stressors resulting from migration and resettlement leading to a difference in how they would seek help in Syria and in Norway. Specifically, we found that preferred help-seeking and coping strategies are contextual.
These findings point to the need to consider transformations following forced migration when studying aspects of explanatory models, preferred help-seeking, and coping strategies in refugee groups.
These findings point to the need to consider transformations following forced migration when studying aspects of explanatory models, preferred help-seeking, and coping strategies in refugee groups.The contemporary healthcare field operates according to an autonomy model of medical decision-making. This model stipulates that patients have the right to make informed choices about their care. Shared decision making (SDM) has arisen as the dominant approach for clinicians and patients to collaborate in care planning and implementation. This approach relies heavily on normative (rational) decision-making processes, and often leaves out descriptive influences that stem from personal, social, and environmental factors and explain how decisions are typically made in the real world. The lack of attention to descriptive decision-making limits SDM in many ways. A multi-level approach to expanding the practice of SDM is proposed, including tailoring the decision encounter based on patients' social, cultural, and environmental context; using relational elements strategically as part of the SDM process; and modifying incentive models to promote greater attention to descriptive impacts on decision-making. These modifications are expected to make SDM, and thus patient care, more inclusive, effective, and acceptable to diverse patients.Myeloid-derived suppressor cells (MDSC) are important immune-regulatory cells but their identification remains difficult. Here, we provide a critical view on selected surface markers, transcriptional and translational pathways commonly used to identify MDSC by specific, their developmental origin and new possibilities by transcriptional or proteomic profiling. Discrimination of MDSC from their non-suppressive counterparts is a prerequisite for the development of successful therapies. Understanding the switch mechanisms that direct granulocytic and monocytic development into a pro-inflammatory or anti-inflammatory direction will be crucial for therapeutic strategies. Manipulation of these myeloid checkpoints are exploited by tumors and pathogens, such as M. tuberculosis (Mtb), HIV or SARS-CoV-2, that induce MDSC for immune evasion. Thus, specific markers for MDSC identification may reveal also novel molecular candidates for therapeutic intervention at the level of MDSC.Impact based surface treatments with adequate kinetic energy have favorable effects on promoting cell-substrate interactions, reducing bacterial adhesion, and enhancing fatigue performance of metallic biomaterials. Here, we used both numerical and experimental approaches to evaluate the potential of these treatments for addressing the major issue associated with the application of pure iron in biomedical implants, i.e. its low corrosion rate. Despite the efficiency of impact based surface treatments in modulating the degradation rate of pure iron, the maximum reported depth of the affected surface layer is still limited, even when extreme process parameters are used. To address this issue, herein, two impact based treatments were adjusted to trigger the dislocation activities that facilitate grain refinement in pure iron using multi-directional inclined impacts. An alternative approach of severe shot peening (SSP) was developed and compared with ultrasonic shot peening (USP). The effect of both treatments and variations of their key parameters were analyzed considering the significant role of shear bands and dislocation cells in the grain refinement mechanism of pure α-iron. Microstructural, mechanical and electrochemical properties of the treated material were analyzed. The observations showed extension of the grain refined layers for the specimens subjected to multidirectional oblique impacts compared to the ones treated in the classic manner using normal impacts. The results imply that by adapting peening parameters, it would be possible to effectively create a thick surface layer with properties that can accelerate the biodegradation of pure iron boosting its potential to meet clinical requirements for temporary hard tissue implants.Magnetic Resonance Elastography (MRE) is a non-invasive imaging method to quantitatively map the shear viscoelastic properties of soft tissues. In this study, Embedded Direct Ink Writing is used to fabricate a muscle mimicking anisotropic phantom that may serve as a standard for imaging studies of anisotropic materials. The technique allowed us to obtain a long shelf life silicone-based phantom expressing transverse isotropic mechanical properties. Another goal of the present investigation is to introduce a torsionally-polarized, radially-converging shear wave actuation method for MRE. The implemented design for this novel setup was first validated via its application to isotropic and homogeneous gelatin phantoms. Then, a comparison of the resulting complex wave images from axially- and torsionally-polarized MRE on the developed anisotropic phantom and on a skeletal muscle murine sample is presented, highlighting the value of using multiple actuation and motion encoding polarization directions when studying anisotropic materials.