The present invention relates to formulae for infants born via Caesarean section for improving the postnatal growth trajectory or body development.

The present invention is a formulation of organic and non-organic components for rapid wound healing and control of infection. The components of the present invention i.e. the formulation are an antimicrobial agent, an antioxidant, a cell proliferation inducing factor and an organic component responsible for matrix formation. Adding these four components in pre-determined proportions, formulations can be made for gels, liquid solution and biodegradable scaffolds which are safe and gives a synergistic effect.

The present invention is a formulation of organic and non-organic components for rapid wound healing and control of infection. The components of the present invention i.e. the formulation are an antimicrobial agent, an antioxidant, a cell proliferation inducing factor and an organic component responsible for matrix formation. Adding these four components in pre-determined proportions, formulations can be made for gels, liquid solution and biodegradable scaffolds which are safe and gives a synergistic effect.

A method of treating Parkinson's disease in a subject in need thereof. The method comprises administering a liposomal composition, comprising sphingomyelin in a lipid bilayer and a therapeutically effective amount of GM1, to the subject.

A method of treating Parkinson's disease in a subject in need thereof. The method comprises administering a liposomal composition, comprising sphingomyelin in a lipid bilayer and a therapeutically effective amount of GM1, to the subject.

The present invention relates to formulae for infants born via Caesarean section for improving the postnatal growth trajectory or body development.

The present invention relates to formulae for infants born via Caesarean section for improving the postnatal growth trajectory or body development.

The present invention features agents for treating autoimmune diseases and other conditions characterized by pathological immune responses, and for preventing or reversing immune recognition of neoantigens associated with therapeutic proteins or gene therapy vectors.

The present invention features agents for treating autoimmune diseases and other conditions characterized by pathological immune responses, and for preventing or reversing immune recognition of neoantigens associated with therapeutic proteins or gene therapy vectors.

The present disclosure relates to nanoparticles containing cellular membrane and uses thereof. The nanoparticle comprises an interior compartment (or an inner core) and an outer surface (or shell) comprising a cellular membrane derived from a cell, said interior compartment (or an inner core) not providing a solid support to said cellular membrane in said outer surface (or shell). The present disclosure also relates to processes of making the nanoparticles. The present disclosure further relates to compositions comprising the nanoparticles and methods of using the nanoparticles.