The present invention provides compositions and methods for reducing inflammation in the lungs of a mammal that is afflicted by a condition that leads to inflammation in the lungs. The compositions and methods described herein include agents that inhibit inflammasome signaling in the mammal such as antibodies directed against inflammasome components used alone or in combination with extracellular vesicle uptake inhibitor(s).

The present invention provides compositions and methods for reducing inflammation in the lungs of a mammal that is afflicted by a condition that leads to inflammation in the lungs. The compositions and methods described herein include agents that inhibit inflammasome signaling in the mammal such as antibodies directed against inflammasome components used alone or in combination with extracellular vesicle uptake inhibitor(s).

This invention is referred to the field of medicine, namely preventative treatment, and may be used as a means of synergetic minimization of negative impact of flights on human health (brain, stomach, lungs, blood vessels, heart etc.) with application of known substances and medicines with newly discovered pharmacological properties in new conditions. The ultimate technical solution of this invention would be synergetic minimization of negative impact of flying on human health without foot swelling, belching, jet-lag, tiredness and fatigue etc. The claimed technical result is achieved by the method of synergetic minimization of negative impact of air flights on human health, including consumption of substances that improve osmotic concentration of blood plasma, in the form of oral rehydration solution, split into two intakes as a minimum, first intake in the amount of at least 0.3 liters up to 1 liter before boarding and further during the flight from half an hour to 2 hours at least 0.3 liters to 1 liter and on as-needed basis.

This invention is referred to the field of medicine, namely preventative treatment, and may be used as a means of synergetic minimization of negative impact of flights on human health (brain, stomach, lungs, blood vessels, heart etc.) with application of known substances and medicines with newly discovered pharmacological properties in new conditions. The ultimate technical solution of this invention would be synergetic minimization of negative impact of flying on human health without foot swelling, belching, jet-lag, tiredness and fatigue etc. The claimed technical result is achieved by the method of synergetic minimization of negative impact of air flights on human health, including consumption of substances that improve osmotic concentration of blood plasma, in the form of oral rehydration solution, split into two intakes as a minimum, first intake in the amount of at least 0.3 liters up to 1 liter before boarding and further during the flight from half an hour to 2 hours at least 0.3 liters to 1 liter and on as-needed basis.

This invention provides gene expression profiles useful for diagnosing atrial fibrillation in ischemic stroke and for distinguishing atrial fibrillation in ischemic stroke from arterial (large vessel) stroke or embolic stroke of undetermined source (ESUS). In another aspect, the present invention is the provision of an improved method for prognosis of an outcome or assessing the risk of a patient having suffered a stroke or a transient ischemic attack, comprising determining the level of expression of at least one biomarker in a sample of the patient.

The invention provides compositions and methods for intravenous administration of 2-bromo-1-(3,3-dinitroazetidin-1-yl)ethanone (ABDNAZ), including formulations containing, autologous whole blood and ABDNAZ that can be rapidly administered to a patient by intravenous infusion without any significant pain at the site of infusion.

The invention provides compositions and methods for intravenous administration of 2-bromo-1-(3,3-dinitroazetidin-1-yl)ethanone (ABDNAZ), including formulations containing, autologous whole blood and ABDNAZ that can be rapidly administered to a patient by intravenous infusion without any significant pain at the site of infusion.

A method of manufacturing a high molecular weight heparin (HMWH) compound is disclosed. The method comprises dissolving heparin to form a heparin solution and fractionating the heparin solution via tangential flow filtration (TFF) using a membrane with a molecular weight cut off (MWCO) between about 8 kDa and about 12 kDa. The TFF yields a retentate comprising fractionated heparin with a weight average molecular weight of about 20 kDa or greater, i.e., a high molecular weight heparin compound. A substantial proportion of heparin chains in the fractionated heparin may have a high molecular weight, e.g., 50% of the heparin chains or greater may have a molecular weight of 20 kDa or greater.

A method of manufacturing a high molecular weight heparin (HMWH) compound is disclosed. The method comprises dissolving heparin to form a heparin solution and fractionating the heparin solution via tangential flow filtration (TFF) using a membrane with a molecular weight cut off (MWCO) between about 8 kDa and about 12 kDa. The TFF yields a retentate comprising fractionated heparin with a weight average molecular weight of about 20 kDa or greater, i.e., a high molecular weight heparin compound. A substantial proportion of heparin chains in the fractionated heparin may have a high molecular weight, e.g., 50% of the heparin chains or greater may have a molecular weight of 20 kDa or greater.

A negatively charged glycosaminoglycan is provided for use as a medicament for the treatment of cancer. A combined administration of a negatively charged glycosaminoglycan is provided in which the glycosaminoglycan is characterised by the absence of the terminal pentasaccharide of Heparin, and an inhibitor of the MAPK/ERK pathway. A combined administration of a glycosaminoglycan and a MAPK/ERK pathway inhibitor is provided as a medicament for the treatment of cancer types that exhibit a resistance towards a single MAPK/ERK pathway inhibitor treatment.