Abstract: Described here are devices, systems, and methods for treating meibomian gland disease and/or blepharitis by providing intranasal stimulation. Generally, the devices may deliver electrical stimulation to the nasal mucosa. Intranasal stimulation may unblock obstructed meibomian glands and increase the lipid content of tears, both acutely during stimulation and subsequent to intranasal stimulation. The methods may include an initial round of stimulation to unblock obstructed meibomian glands, and subsequent shorter rounds of stimulation to cause meibum secretion and maintain the open glands.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: A stimulation system for treating a condition (e.g., dry eye, Meibomian gland disease) of a subject includes a stimulator configured to deliver a stimulus to external facial tissue of the subject, at least one sensor configured to detect a characteristic of the subject, and a control system in communication with the sensor and configured to adjust the stimulus at least partially based on the detected subject characteristic. In some variations, the control system may be configured to adjust the stimulus at least partially based on a detected environmental condition. The stimulator may be configured to activate a nerve of the subject, thereby increasing tear production. The stimulation system may, for example, include a device configured to be worn by a subject such as eyeglasses or a mask, or held by a subject such as handheld stimulator device.

Abstract: Described here are devices, systems, and methods for treating meibomian gland disease and/or blepharitis by providing intranasal stimulation. Generally, the devices may deliver electrical stimulation to the nasal mucosa. Intranasal stimulation may unblock obstructed meibomian glands and increase the lipid content of tears, both acutely during stimulation and subsequent to intranasal stimulation. The methods may include an initial round of stimulation to unblock obstructed meibomian glands, and subsequent shorter rounds of stimulation to cause meibum secretion and maintain the open glands.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: RNA interference is provided for inhibition of tumor necrosis factor ? (TNF?) by silencing TNF? cell surface receptor TNF receptor-1 (TNFR1) mRNA expression, or by silencing TNF? converting enzyme (TACE/ADAM17) mRNA expression. Silencing such TNF? targets, in particular, is useful for treating patients having a TNF?-related condition or at risk of developing a TNF?-related condition such as the ocular conditions dry eye, allergic conjunctivitis, or ocular inflammation, or such as dermatitis, rhinitis, or asthma, for example.

Abstract: The present invention provides methods for preventing retinal ganglion cell death in the glaucomatous eye and methods for suppressing apoptosis-specific eIF5A1 expression through the use of antisense oligonucleotides targeted to human apoptosis-specific eIF5A1.

Abstract: The present invention provides methods for preventing retinal ganglion cell death in the glaucomatous eye and methods for suppressing apoptosis-specific eIF5A1 expression through the use of antisense oligonucleotides targeted to human apoptosis-specific eIfF5A1.