Disclosed are compositions of matter, therapeutics, and protocols useful for reduction and/or reversion of pulmonary fibrosis. In one specific embodiment lithium chloride is administered together with a regenerative cell in a patient suffering from, or at risk of pulmonary fibrosis. In one embodiment said lithium chloride is administered as an adjuvant to a regenerative therapy, wherein said regenerative therapy is a gene therapy, a protein therapy, a cell therapy, or a tissue transplant. In one embodiment lithium chloride, or a salt thereof is utilized alone, or with a regenerative means, to evoke preservation and/or elongation of telomere length in pulmonary tissue.

Disclosed are compositions of matter, therapeutics, and protocols useful for reduction and/or reversion of pulmonary fibrosis. In one specific embodiment lithium chloride is administered together with a regenerative cell in a patient suffering from, or at risk of pulmonary fibrosis. In one embodiment said lithium chloride is administered as an adjuvant to a regenerative therapy, wherein said regenerative therapy is a gene therapy, a protein therapy, a cell therapy, or a tissue transplant. In one embodiment lithium chloride, or a salt thereof is utilized alone, or with a regenerative means, to evoke preservation and/or elongation of telomere length in pulmonary tissue.

Compositions for stabilizing and delivering proteins and/or other bioactive agents are disclosed. The bioactive agents are embedded or encapsulated in a crystalline matrix. Typically the bioactive agents are in the form of micro- or nanoparticles. The crystalline matrix confers enhanced stability to the agents embedded therein relative to other microparticulate or nanoparticulate bioactive agents. The carriers are especially useful for stabilizing bioactive macromolecules, such as proteins.

The present invention relates to a fusion protein comprising at least two cytokines, of which at least one is a modified cytokine with a strongly reduced binding affinity to its receptor, or to one of its receptors. Preferably, both cytokines are connected by a linker, preferably a GGS linker. The invention relates further to said fusion protein for use in treatment of diseases.

Described herein is the use of CSF, more particularly external CSF or CSF-like compositions for the treatment and prevention of different diseases. More particularly, the application provides for the administration of CSF to the intrathecal space or the cerebral ventricles of a patient to increase intracranial pressure and/or CSF flow.

The invention relates to inhalable imatinib formulations, manufacture, and uses thereof.

A therapeutic nanoparticle comprising: at least one oncologic drug; and taurolidine, whereby to provide the simultaneous delivery of the at least one oncologic drug and taurolidine, thereby harnessing the synergistic effect of taurolidine on the at least one oncologic drug.

A therapeutic nanoparticle comprising: at least one oncologic drug; and taurolidine, whereby to provide the simultaneous delivery of the at least one oncologic drug and taurolidine, thereby harnessing the synergistic effect of taurolidine on the at least one oncologic drug.

A non-cellular root canal filler comprises a tetrahydroisoquinoline compound or a pharmaceutically acceptable salt thereof, or a solvate of the compound or the salt, and a dental tissue regeneration promotion kit comprises a pretreatment agent comprising a serine protease, and the non-cellular root canal filler.

Provided herein, inter alia, are compositions for the modulation of epithelium function, the compositions comprising EphrinA3 protein or EphrinA2 protein, fusions thereof, fragments thereof, or oligonucleotides encoding the same. Also provided are methods for modulating epithelium function, the methods comprising administration of compositions provided herein, including embodiments thereof.