Publications by authors named "Anna Drozd"

Progesterone treatment is commonly employed to promote and support pregnancy. While maternal tissues are the main progesterone targets in humans and mice, its receptor (PGR) is expressed in the murine embryo, questioning its function during embryonic development. Progesterone has been previously associated with murine blastocyst development.

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Background: The chromatin-remodeling enzyme BRG1 (brahma-related gene 1) regulates gene expression in a variety of rapidly differentiating cells during embryonic development. However, the critical genes that BRG1 regulates during lymphatic vascular development are unknown.

Methods: We used genetic and imaging techniques to define the role of BRG1 in murine embryonic lymphatic development, although this approach inadvertently expanded our study to multiple interacting cell types.

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One fundamental yet unresolved question in biology remains how cells interpret the same signalling cues in a context-dependent manner resulting in lineage specification. A key step for decoding signalling cues is the establishment of a permissive chromatin environment at lineage-specific genes triggering transcriptional responses to inductive signals. For instance, bipotent neuromesodermal progenitors (NMPs) are equipped with a WNT-decoding module, which relies on TCFs/LEF activity to sustain both NMP expansion and paraxial mesoderm differentiation.

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Obtaining successful vascular access is an essential component of the emergency and trauma setting. The modern practice of medicine advocates IO access for patients in a critical condition, especially when IV access is problematic or unobtainable. Various medical devices allowing for IO access have been coined and used in the management of critical patients.

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Background: Prehospital emergency care of children is challenging. In the era of the COVID-19 pandemic, when medical personnel should use personal protective equipment against aerosol-generating procedures, the efficiency of medical procedures may decrease. The study objective was to evaluate the effectiveness of different intravascular access methods applied by nurses wearing biosafety Level-2 suits in simulated paediatric COVID-19 resuscitation.

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Background: Obtaining vascular access is one of the key procedures performed in patients in emergency settings.

Aims: The study was conducted as a meta‑analysis and a systematic review and aimed to address the following question: which intravascular access method should be used in patients with COVID‑19 when wearing full personal protective equipment (PPE)?

Methods: We performed a systematic search of PubMed, EMBASE, and CENTRAL databases for randomized controlled trials that compared intravascular access methods used by operators wearing full level C PPE. We evaluated procedure duration and the success rate of intraosseous and peripheral intravenous accesses.

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Performing medical procedures with the use of personal protective equipment may reduce the efficiency of medical procedures performed, for example, as with the current use of respiratory protection devices, including N95 or surgical masks. Healthcare workers (HCWs) using N95 respirators or medical masks may experience discomfort associated with wearing a mask when performing medical procedures, in particular those associated with increased physical activity, causing increased respiratory effort.

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Takotsubo cardiomyopathy (TTS), known as stress cardiomyopathy, is a rare disorder characterized by acute and transient left ventricular systolic and diastolic dysfunction, often associated with a stressful, emotional or physical event. TTS may be closely related to SARS-CoV-2 infection and the ongoing pandemic. The enormous emotional stress caused by the pandemic and respiratory infections caused by SARS-CoV-2 could be potential triggers for TTS.

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Background: Induced pluripotent stem cells (iPSC) possess an enormous potential as both, scientific and therapeutic tools. Their application in the regenerative medicine provides new treatment opportunities for numerous diseases, including type 1 diabetes. In this work we aimed to derive insulin producing cells (IPC) from iPS cells established in defined conditions.

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Introduction: The prospect of therapeutic applications of the induced pluripotent stem cells (iPSCs) is based on their ability to generate virtually any cell type present in human body. Generation of iPSCs from somatic cells has opened up new possibilities to investigate stem cell biology, to better understand pathophysiology of human diseases, and to design new therapy approaches in the field of regenerative medicine. In this study, we focus on the ability of the episomal system, a non-viral and integration-free reprogramming method to derive iPSCs from somatic cells of various origin.

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Increasing infections with Monkeypox and Cowpox viruses pose a continuous and growing threat to human health. The standard method for detecting poxvirus neutralizing antibodies is the plaque-reduction neutralization test that is specific but also time-consuming and laborious. Therefore, a rapid and reliable method was developed to determine neutralizing antibody titers within twelve hours.

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An allosteric mechanism for the generation of long-distance structural alterations in Fab fragments of antibodies in immune complexes has been postulated and tested in theoretical and experimental analysis. The flexing and/or torsion-derived forces exerted on the elbow region in Fab arms of bivalent antibodies upon binding to antigen were assumed to drive the disruption of hydrogen bonds which stabilize N- and C-terminal chain fragments in V-domains. This allows an extra movement in the elbow followed by a relaxation in the Fab arm and may generate long-distance effects if, in particular, the structural changes are generated asymmetrically involving one chain of the Fab arm only.

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Self-assembling dyes with a structure related to Congo red (e.g. Evans blue) form polymolecular complexes with albumin.

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Introduction: The aim of this study was to differentiate heavy and light chain-derived instability of monoclonal myeloma immunoglobulins by complexation of matched supramolecular dyes. These are composed of several micellar pieces of self-assembled dye molecules which may penetrate the protein interior of the binding locus with polypeptide chains. These dyes were used to elicit, by precipitation, the postulated higher aggregation tendency of the heavy chain derived from its higher hydrophobicity.

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