Echocardiographic evaluation of right ventricular systolic function: The traditional and innovative approach

Estimation of right ventricular (RV) performance still remains technically challenging due to its anatomical and functional distinctiveness. The current guidelines for the echocardiographic quantification of RV function recommend using multiple indices to describe the RV in a thorough and comprehensive manner, such as RV index of myocardial performance, tricuspid annular plane systolic excursion, fractional area change, Doppler tissue imaging-derived tricuspid lateral annular systolic velocity (S’-wave), three-dimensional RV ejection fraction (3D RVEF), RV longitudinal strain (RVLS)/strain rate by speckle- tracking echocardiography (STE). Among these, the last one mentioned here is an innovative and a particularly promising tool that yields more precise information about complex regional and global RV mechanics. STE was initially designed to evaluate left ventricular function, but recently it has been introduced to assess RV performance, which is difficult due to its unique structure and physiology. Many studies have shown that both free wall and 6-segment RVLS present a stronger correlation with the RVEF assessed by cardiac magnetic resonance than conventional parameters and seem to be more sensitive in detecting myocardial dysfunction at an earlier, subclinical stage

Speckle-tracking echocardiographic evaluation of the right ventricle in patients with ischemic left ventricular dysfunction

Background: The comprehensive assessment of right ventricular (RV) performance is of paramount importance because it is has been recognized as a strong prognostic factor in a variety of clinical settings. The aim herein was to evaluate the usefulness of RV longitudinal strain imaging by speckle-tracking echocardiography (STE) in daily clinical practice, especially in the context of RV systolic function and its changes after acute coronary syndrome (ACS). Methods: This prospective study enrolled 63 patients with ischemic injury (left ventricular ejection fraction [LVEF] ≤ 45%). Additionally, a subgroup was created: patients with ACS treated with successful percutaneous coronary intervention. The clinical and echocardiographic parameters, including STE, were analyzed. Results: Significant correlations for both RV free-wall (RVFWSL) and four-chamber (RV4CSL) longitudinal strain evaluated by STE with New York Heart Association class, LVEF, E/E’ ratio, as well as conventional parameters of RV function were found. RVFWSL was able to detect subtle RV functional abnormalities, unreachable for traditional indices. RV recovery after ACS was not related to higher LVEF but better contractility of the interventricular septum (IVS) assessed by STE. Conclusions: Right ventricular strain proved to be a useful two-dimensional echocardiographic method to detect impaired RV performance, which showed a significant relationship with clinical and other echocardiographic indices. The IVS played a vital role in RV recovery among ACS survivors

Metody analizy i oceny bezpieczeństwa oraz jakości informacji

Praca recenzowana / Peer-reviewed paperTematyka monografii koncentruje się na metodach zapewnienia bezpieczeństwa informacji, procedurach wspomagających podnoszenie jakości danych oraz narzędziach zwiększających możliwości pozyskiwania z dostępnych informacji wartościowych i rzetelnych wniosków analitycznych. Publikacja podzielona jest na trzy części. Pierwsza część zawiera 3 rozdziały, w których podjęto kwestie zapewnienia bezpieczeństwa informacji. Druga część monografii, ujęta w kolejnych trzech rozdziałach, prezentuje wybrane narzędzia i modele organizacji zasobów cyfrowych mających na celu zapewnienie wysokiej jakości, użyteczności oraz wiarygodności zbiorów danych zawartych w repozytoriach. Ostatnia część pracy przedstawia problematykę związaną z prawem Benforda, pozwalającym ocenić stopień rzetelności danych na podstawie analizy rozkładów cyfr w liczbach weryfikowanego zbioru danych

The 42nd Symposium Chromatographic Methods of Investigating Organic Compounds : Book of abstracts

The 42nd Symposium Chromatographic Methods of Investigating Organic Compounds : Book of abstracts. June 4-7, 2019, Szczyrk, Polan

Cytotopic (Cyto-) IL-15 as a New Immunotherapy for Prostate Cancer:Recombinant Production in Escherichia coli and Purification

Interleukin-15 (IL-15) is a cytokine previously suggested as a potential immunotherapy for cancer treatment. IL-15 can effectively reduce tumor growth in many preclinical tumor models including prostate cancer. This is due to its ability to expand and activate immune cells, such as CD8(+) T cells and natural killer cells. To increase the potency of IL-15, we have engineered a protein variant that can be modified to localize and be retained in tissues where it is administered. However, the production of recombinant IL-15, the purity, and correct refolding of the final protein is not always ideal. In the current study, we aimed to optimize the methodology for production and purification of a modified recombinant human IL-15 and investigate the efficacy of the produced protein in the treatment of prostate tumors. Human IL-15 with its polypeptide sequence modified at the C-terminus to enable thiol conjugation with membrane localizing peptides, was produced in E. coli and purified using mild denaturing conditions (2M urea) from a washing step or from solubilization of inclusion bodies. The purified protein from the wash fraction was conjugated to a myristoylated peptide to form a membrane-localizing IL-15 (cyto-IL-15). The efficacy of cyto-IL-15 was investigated in subcutaneous TRAMP-C2 prostate tumors in mice and compared with cyto-IL-15 derived from protein purified from inclusion bodies (cyto-IL-15 Gen). When mild denaturing conditions were used for purification, the largest amount of IL-15 was collected from the wash fraction and a smaller amount from inclusion bodies. The protein from the wash fraction was mainly present as a monomer, whereas the one from inclusion bodies formed homodimers and higher complexes. After cytotopic modification, the purified IL-showed great efficacy in delaying prostate tumor growth (∼50%) and increased mice survival by ∼1.8-fold compared with vehicle. This study demonstrates an alternative, inexpensive and efficient method to produce and purify a modified version of IL-15 using mild denaturing conditions. This IL-15, when cytotopically modified, showed great efficacy as a monotherapy in prostate tumors in mice further highlighting the potential of IL-15 as a cancer immunotherapy

Circulating microRNAs in Cardiovascular Diseases

Cardiovascular Diseases (CD) are currently one of the most common causes of death. Because heart related deaths occur on such an enormous scale this phenomenon is referred to as an epidemic. Chronic and acute injury of the heart could be an effect of cardiac remodeling, which is a result of molecular, cellular and interstitial changes, influenced by hemodynamic load or neurohormonal activation (Cohn et al., 2000). These small deviations in cardiac activity and morphology may lead to an enormous negative effect. Despite a significant progress, knowledge of standard risk factors for cardiovascular diseases has become less and less effective, which is why predicting and seeking an appropriate treatment is very challenging. As a result, there is a growing interest in finding new markers of the CD. MicroRNAs (miRNAs), are short, non-coding RNAs responsible for regulation of gene expression at the post-transcriptional level. Among them that have the greatest potential are microRNA molecules that circulate in the blood plasma or serum, that are related to direct activation of signaling pathways, implicated in the aging process and thus for the development of cardiovascular disease. This paper is a summary of the current state of knowledge on miRNAs, their biogenesis and potential role as biomarkers to diagnose heart disease

Multiple interests in structural models of DARC transmembrane protein.

International audienceDuffy Antigen Receptor for Chemokines (DARC) is an unusual transmembrane chemokine receptor which (i) binds the two main chemokine families and (ii) does not transduct any signal as it lacks the DRY consensus sequence. It is considered as silent chemokine receptor, a tank useful for chemiotactism. DARC had been particularly studied as a major actor of malaria infection by Plasmodium vivax. It is also implicated in multiple chemokine inflammation, inflammatory diseases, in cancer and might play a role in HIV infection and AIDS. In this review, we focus on the interest to build structural model of DARC to understand more precisely its abilities to bind its physiological ligand CXCL8 and its malaria ligand. We also present innovative development on VHHs able to bind DARC protein. We underline difficulties and limitations of such bioinformatics approaches and highlight the crucial importance of biological data to conduct these kinds of researches