Barbee Gustafsson (hookfrown73)

This approach has improved the preservation of liver cells' metabolic functions and could be a candidate for the bioartificial liver system.The objective of this study was to evaluate the histopathological effect of gas explosion on rats, and to explore the metabolic alterations associated with gas explosion-induced acute blast lung injury (ABLI) in real roadway environment using metabolomics analyses. All rats were exposed to the gas explosion source at different distance points (160 m and 240 m) except the control group. Respiratory function indexes were monitored and lung tissue analysis was performed to correlate histopathological effect to serum metabolomics. Their sera samples were collected to measure the metabolic alterations by ultra-performance liquid chromatography-mass spectrometry (UPLC-MS). HE staining in lung showed that the gas explosion caused obvious inflammatory pulmonary injury, which was consistent with respiratory function monitoring results and the serum metabolomics analysis results. The metabolomics identified 9 significantly metabolites different between the control- and ABLI rats. 2-aminoadipic acid, L-methionine, L-alanine, L-lysine, L-threonine, cholic acid and L-histidine were significantly increased in the exposed groups. Citric acid and aconitic acid were significantly decreased after exposure. Pathway analyses identified 8 perturbed metabolic pathways, which provided novel potential mechanisms for the gas explosion-induced ABLI. Therefore, metabolomics analysis identified both known and unknown alterations in circulating biomarkers, adding an integral mechanistic insight into the gas explosion-induced ABLI in real roadway environment. Heart failure (HF) management is suboptimal in Sweden despite available evidence-based guidelines. To improve HF treatment, a comprehensive HF management program (4D project) was implemented in the Stockholm County (>2.1 million inhabitants). A standardized care program centralized at five hospital-based HF clinics was implemented in 2014-2017. We registered from 2012 to 2017 (1) numbers of referrals and visits to HF clinics, (2) numbers of hospital admitted patients per million inhabitants, (3) dispensed HF medications after admission, and (4) covariate-adjusted 1-year all-cause mortality or HF readmission. Yearly visits to the five HF outpatient clinics increased 3.4 times from 3,372 to 11,527. Dispensed HF drug prescriptions increased, in particular, for readmitted patients, compared to 2012 ( <.0001 . Total number of hospital admitted HF patients as well as new-onset or readmitted HF patients decreased by 16, 13, and 20%, respectively ( < .0001). The combined 1-year mortality or HF rember of hospital admitted HF patients as well as new-onset or readmitted HF patients decreased by 16, 13, and 20%, respectively (p less then .0001). The combined 1-year mortality or HF readmission over the period was 48% (n = 17,124/35,880) and improved per year (HR 0.98 [0.97-0.99], p less then .001) from 2012. Conclusion. A comprehensive standardized care HF management program including expanded HF clinics was associated with improved evidence-based medication, reduced HF hospitalization, and improvement of the combined outcome of 1-year mortality or HF readmission in Stockholm. Assessment and monitoring of changes in microcirculatory perfusion, perfusion dynamic, vessel structure and oxygenation is crucial in management of arterial hypertension. Constant search for non-invasive methods has led the clinical focus towards the vasculature of the retina, which offers a large opportunity to detect the early phase of the functional and structural changes in the arterial hypertension and can reflect changes in brain vasculature. We review all the available methods of retinal microcirculation measurements including angiography, oximetry, retinal vasculature assessment software, Optical Coherence Tomography Angiography, Adaptiv