Abstract: The present invention discloses in vitro and in vivo diagnostic methods with enhanced specificity and sensitivity for the detection of tuberculosis. The diagnostic reagents of the present invention can replace former mixtures/cocktails/pools of antigens comprising ESAT-6 but including ESAT6 improves the diagnosis even further.

Abstract: The present invention discloses in vitro and in vivo diagnostic methods with enhanced specificity and sensitivity for the detection of tuberculosis. The diagnostic re agents of the present invention can replace former mixtures/cocktails/pools of antigens comprising ESAT-6 but including ESAT6 improves the diagnosis even further.

Abstract: The present invention relates to the use of vaccines with adjuvants comprising cationic liposomes where neutral lipids has been incorporated into the liposomes to change the gel-liquid phase transition and thereby modifying the IgG sub-type response and enhancing the CD8 response of the liposomal adjuvant. This technology can be used to increase the production of IgG2 antibodies. This sub-type of antibodies (IgG2 in mice corresponding to IgG3 in humans) have been shown to selectively engage Fc activatory receptors on the surface of innate immune cells leading to enhanced proinflammatory responses and thereby a more efficient immune response with higher levels of protection in animal models of e.g. malaria and Chlamydia. The use of adjuvants which selectively give rise to higher levels of IgG2 antibodies will improve the effect of vaccines e.g. against intracellular infections. Furthermore the technology can be used to induce a CD8 response which has been reported to improve the effect of vaccines against e.g.

Abstract: Here we identify MMG and its alpha- and ketomycolic acid derivatives as highly bioactive lipids derived from M. bovis BCG (Copenhagen) capable of stimulating and activating human DC's at exceedingly low doses. In addition to their direct role as immunostimulators of human DC's we demonstrate their use in the development of a new generation of adjuvants suitable for human administration. We furthermore identify a number of highly active synthetic MMG analogues with great potential in cancer treatment, and for vaccine adjuvants against both infectious disease and disorders like Alzheimers disease.

Abstract: The present invention provides a vaccine adjuvant consisting of a combination of a surfactant i.e. dimethyldeoctadecylammonium-bromide/chloride (DDA) and a lipid extract from Mycobacterium bovis BCG. The total lipid extract contains both apolar lipids, polar lipids, and lipids of intermediate polarity of which the apolar lipids were found to induce the most powerful immune responses. The total lipids may be extracted with chloroform/methanol and re-dissolved in water before the addition of surfactant. This preparation may be used to induce prominent cell-mediated immune responses in a mammal in order to combat pathogens, or as a treatment for cancer.

Abstract: The present invention relates to the use of vaccines with adjuvants comprising cationic liposomes where neutral lipids has been incorporated into the liposomes to change the gel-liquid phase transition and thereby modifying the IgG sub-type response and enhancing the CD8 response of the liposomal adjuvant. This technology can be used to increase the production of IgG2 antibodies. This sub-type of anti-bodies (IgG2 in mice corresponding to IgG3 in humans) have been shown to selectively engage Fc activatory receptors on the surface of innate immune cells leading to enhanced proinflammatory responses and thereby a more efficient immune response with higher levels of protection in animal models of e.g. malaria and Chlamydia. The use of adjuvants which selectively give rise to higher levels of IgG2 antibodies will improve the effect of vaccines e.g. against intracellular infections. Furthermore the technology can be used to induce a CD8 response which has been reported to improve the effect of vaccines against e.

Abstract: The present invention provides a vaccine adjuvant consisting of a combination of a surfactant i.e. dimethyldeoctadecylammonium-bromide/chloride (DDA) and a lipid extract from Mycobacterium bovis BCG. The total lipid extract contains both apolar lipids, polar lipids, and lipids of intermediate polarity of which the apolar lipids were found to induce the most powerful immune responses. The total lipids may be extracted with chloroform/methanol and re-dissolved in water before the addition of surfactant. This preparation may be used to induce prominent cell-mediated immune responses in a mammal in order to combat pathogens, or as a treatment for cancer.

Abstract: Here we identify MMG and its alpha- and ketomycolic acid derivatives as highly bioactive lipids derived from M. bovis BCG (Copenhagen) capable of stimulating and activating human DC's at exceedingly low doses. In addition to their direct role as immunostimulators of human DC's we demonstrate their use in the development of a new generation of adjuvants suitable for human administration. We furthermore identify a number of highly active synthetic MMG analogues with great potential in cancer treatment, and for vaccine adjuvants against both infectious disease and disorders like Alzheimers disease.