A fusogenic liposome comprising a detectable agent and optionally a cytotoxic drug in its internal aqueous compartment or bound to the liposome membrane is provided, wherein said fusogenic liposome comprises a lipid bilayer comprising a plurality of lipid molecules having 14 to 24 carbon atoms, and at least one of said lipid molecules further comprises a cationic group, a cationic natural or synthetic polymer, a cationic amino sugar, a cationic polyamino acid or an amphiphilic cancer-cell binding peptide; and at least one of said lipid molecules further comprises a stabilizing moiety selected from the group consisting of polyethylene glycol (PEG), polypropylene glycol, polyvinyl alcohol, polyvinylpyrrolidone (PVP), dextran, a polyamino acid, methyl-polyoxazoline, polyglycerol, poly(acryloyl morpholine), and polyacrylamide. Methods utilizing these liposomes in treatment of cancer are further provided.

Disclosed are methods and reagents for the enzymatic measurement of short-chain fatty acids, having 3 to 6 carbon atoms, in a sample. Methods include the use of recombinant butyrate kinases from multiple species, combined various reagents that includes ATP, to detect butyric acid in different types of samples via measurement of ATP consumption. Disclosed also are the reagents themselves.

The present invention relates to vaccine compositions comprising lipid antigens, antibodies targeting lipid antigens, pharmaceutical compositions comprising such and their use in diagnosing, monitoring, treating, and preventing infectious disease, such as Lyme disease. In one aspect, administered is a therapeutically effective amount of a vaccine composition comprising a lipid antigen, an antibody or fragment thereof binding a lipid antigen, and/or a pharmaceutical composition comprising an antibody or fragment thereof binding a lipid antigen. Other aspects are described.

This invention discloses diagnosis of risk of chemotherapy-induced cardiotoxicity by measurement of increased expression of soluble epoxide hydrolase in vitro and in vivo in cells, tissues or animals including measurement of increased levels of soluble epoxide hydrolase metabolites, e.g., 14,15-DHET and 11,12-DHET, in biological fluids. This invention also includes diagnosis of risk of chemotherapy-induced cardiotoxicity by measuring increased levels of oxidative stress in cells, tissues or animals including measurement of increased levels of oxidative stress biomarkers, e.g., 8-isoprostane, in biological fluids. Fatty acid and protein biomarkers to diagnose the risk of chemotherapy-induced cardiotoxicity are detected using various detection methods including mass spectrometry and immunoassay such as ELISA, Western blot analysis or label-free microwell and nanowell technologies. This invention discloses targeted medical intervention for a subject who is at risk or with chemotherapy-induced cardiotoxicity by treating with soluble epoxide hydrolase inhibitor(s) with or without antioxidants to prevent or ameliorate the chemotherapy-induced cardiotoxicity.

This invention discloses diagnosis of risk of chemotherapy-induced cardiotoxicity by measurement of increased expression of soluble epoxide hydrolase in vitro and in vivo in cells, tissues or animals including measurement of increased levels of soluble epoxide hydrolase metabolites, e.g., 14,15-DHET and 11,12-DHET, in biological fluids. This invention also includes diagnosis of risk of chemotherapy-induced cardiotoxicity by measuring increased levels of oxidative stress in cells, tissues or animals including measurement of increased levels of oxidative stress biomarkers, e.g., 8-isoprostane, in biological fluids. Fatty acid and protein biomarkers to diagnose the risk of chemotherapy-induced cardiotoxicity are detected using various detection methods including mass spectrometry and immunoassay such as ELISA, Western blot analysis or label-free microwell and nanowell technologies. This invention discloses targeted medical intervention for a subject who is at risk or with chemotherapy-induced cardiotoxicity by treating with soluble epoxide hydrolase inhibitor(s) with or without antioxidants to prevent or ameliorate the chemotherapy-induced cardiotoxicity.

The present invention relates to a strip for measuring blood lipids. The strip for measuring blood lipids, of the present invention, presses, with an optimal pressure or to an optimal height, a contact surface of a protruding part of a measurement layer disposed between an upper cover and a lower substrate, so as to improve the uniform diffusion of a biological sample, thereby having an effect of increasing measurement result accuracy of the biological sample.

A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed comprising: (a) using a first device to generate smoke, aerosol or vapour from a target in vitro or ex vivo cell population; (b) mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and (c) analysing said spectrometric data in order to identify and/or characterise said target cell population or one or more cells and/or compounds present in said target cell population.

A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed. The method comprises: using a first device to generate smoke, aerosol or vapour from a target comprising or consisting of a microbial population; mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and analysing said spectrometric data in order to analyse said microbial population.

A method of analysis using mass and/or ion mobility spectrometry or ion mobility spectrometry is disclosed comprising: using a first device to generate aerosol, smoke or vapour from one or more regions of a first target of biological material; and mass and/or ion mobility analysing and/or ion mobility analysing said aerosol, smoke, or vapour, or ions derived therefrom so as to obtain first spectrometric data. The method may use an ambient ionisation method.

A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed. The method comprises: using a first device to generate smoke, aerosol or vapour from a target comprising or consisting of a microbial population; mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and analysing said spectrometric data in order to analyse said microbial population.