The invention relates to a pharmaceutical composition containing cineole for topical, in particular nasal, preferably intranasal application, to the use thereof and to an application device containing said pharmaceutical composition.

The present invention relates to the combination of spirulina and palmitoylethanolamide (PEA) and/or pharmaceutically acceptable derivates or salts thereof, pharmaceutical formulations comprising the combination of spirulina and PEA and/or pharmaceutically acceptable derivates or salts thereof, optionally together with at least one physiologically acceptable excipient, and the use of the combination of spirulina and PEA and/or pharmaceutically acceptable derivates or salts thereof and formulations which include the said combination, for use in the prevention and/or treatment of tissue hyperactivation states, in the prevention and/or treatment of inflammatory pathologies, in the prevention and/or treatment of alterations in cardiac and/or coronary tissue, in the prevention and/or treatment of alterations in the vascular tissue, in the prevention and/or treatment of ophthalmic pathologies, preferably in the prevention and/or treatment of macular degeneration pathologies and glaucoma, in the prevention and/or treatment of dyslipidemia, in the prevention and/or treatment of alterations in pulmonary tissue, in the prevention and/or treatment of alterations in pelvic tissues, in the prevention and/or treatment of cellular alterations due to carcinogenesis, and/or in the prevention and/or treatment of dermatological alterations.

The present invention relates to the combination of spirulina and palmitoylethanolamide (PEA) and/or pharmaceutically acceptable derivates or salts thereof, pharmaceutical formulations comprising the combination of spirulina and PEA and/or pharmaceutically acceptable derivates or salts thereof, optionally together with at least one physiologically acceptable excipient, and the use of the combination of spirulina and PEA and/or pharmaceutically acceptable derivates or salts thereof and formulations which include the said combination, for use in the prevention and/or treatment of tissue hyperactivation states, in the prevention and/or treatment of inflammatory pathologies, in the prevention and/or treatment of alterations in cardiac and/or coronary tissue, in the prevention and/or treatment of alterations in the vascular tissue, in the prevention and/or treatment of ophthalmic pathologies, preferably in the prevention and/or treatment of macular degeneration pathologies and glaucoma, in the prevention and/or treatment of dyslipidemia, in the prevention and/or treatment of alterations in pulmonary tissue, in the prevention and/or treatment of alterations in pelvic tissues, in the prevention and/or treatment of cellular alterations due to carcinogenesis, and/or in the prevention and/or treatment of dermatological alterations.

Tumor cells exhibit consistent abnormalities in calcium regulation. The present disclosure teaches methods by which such differences are exploited to induce Apoptosis selectively in tumor/cancer cells while sparing normal cells. These methods are based upon employing drugs that, acting in synergistic combinations, trigger selective killing of malignant cells. Since the invention is based upon fundamental cell cycle requirements, to the extent that calcium handling abnormalities are a general characteristic of the malignant state, the methods presented here are widely applicable regardless of tissue of origin and degree of cellular de-differentiation.

Tumor cells exhibit consistent abnormalities in calcium regulation. The present disclosure teaches methods by which such differences are exploited to induce Apoptosis selectively in tumor/cancer cells while sparing normal cells. These methods are based upon employing drugs that, acting in synergistic combinations, trigger selective killing of malignant cells. Since the invention is based upon fundamental cell cycle requirements, to the extent that calcium handling abnormalities are a general characteristic of the malignant state, the methods presented here are widely applicable regardless of tissue of origin and degree of cellular de-differentiation.

Tumor cells exhibit consistent abnormalities in calcium regulation. The present disclosure teaches methods by which such differences are exploited to induce Apoptosis selectively in tumor/cancer cells while sparing normal cells. These methods are based upon employing drugs that, acting in synergistic combinations, trigger selective killing of malignant cells. Since the invention is based upon fundamental cell cycle requirements, to the extent that calcium handling abnormalities are a general characteristic of the malignant state, the methods presented here are widely applicable regardless of tissue of origin and degree of cellular de-differentiation.

Disclosed are compounds useful for alteration of NR2F6 activity. In some embodiments of the invention compounds disclosed are utilized for stimulation of NR2F6 activity, alone, or in combination with PKC activation. In other embodiments, the invention teaches use of compounds for inhibition of NR2F6 activation. Stimulation of NR2F6 within the context of the invention is useful, intra alia, for induction of immune inhibition, or stimulation of cellular proliferation without significant induction of differentiation. Inhibition of NR2F6 is desired in situations where the practitioner of the invention seeks to augment immune response, or induce cellular differentiation. In another embodiment, inhibition of NR2F6 expression is desired in situations where inhibition of cancer or cancer stem cells is needed.

Disclosed are compounds useful for alteration of NR2F6 activity. In some embodiments of the invention compounds disclosed are utilized for stimulation of NR2F6 activity, alone, or in combination with PKC activation. In other embodiments, the invention teaches use of compounds for inhibition of NR2F6 activation. Stimulation of NR2F6 within the context of the invention is useful, intra alia, for induction of immune inhibition, or stimulation of cellular proliferation without significant induction of differentiation. Inhibition of NR2F6 is desired in situations where the practitioner of the invention seeks to augment immune response, or induce cellular differentiation. In another embodiment, inhibition of NR2F6 expression is desired in situations where inhibition of cancer or cancer stem cells is needed.

The present disclosure is directed to dermatological formulations and their use for treating a variety of dermatological diseases and disorders, and for repairing and restoring a disrupted epidermal barrier, inhibiting inflammation, restoring a proper environment for maintaining a balanced symbiotic microbiome, and inhibiting the growth of pathogenic microorganisms in the epidermis—the outer layer of mammalian skin.

The present disclosure is directed to dermatological formulations and their use for treating a variety of dermatological diseases and disorders, and for repairing and restoring a disrupted epidermal barrier, inhibiting inflammation, restoring a proper environment for maintaining a balanced symbiotic microbiome, and inhibiting the growth of pathogenic microorganisms in the epidermis—the outer layer of mammalian skin.