A nutritional supplement composition that extends the utility of the prior art methods to include enhanced utility for bone health via modulation of the RANK, RANKL, NFKB signaling system and incorporates unrelated, unforeseen benefits on brain health based on the beneficial impact of the same signaling system on brain health thus preventing loss of neurological function and/or normalizing impaired or deteriorating neurological function in humans based on: (1) mitigation of the adverse impact of dysregulated acid-base balance, (2) dysregulation of prostaglandin physiology, (3) abnormalities in RANK, RANKL, NFKB physiology. reversing elevated NFKB, RANK, RANKL signaling. The nutrients that are ideal for the desired result are Honokiol, Magnolol, Beta-caryophyllene, Palmitoylethanolamide, Hesperidin, Schisandrin, Ferulic Acid, Beta-carotene, Lutein, Lycopene, Sulforaphane, and Ellagic Acid.

The invention relates to pharmaceutical compositions comprising PPAR agonists and Nrf2 activators and methods of using combinations of PPAR agonists and Nrf2 activators for treating diseases such as psoriasis, asthma, multiple sclerosis, inflammatory bowel disease, and arthritis.

The invention relates to pharmaceutical compositions comprising PPAR agonists and Nrf2 activators and methods of using combinations of PPAR agonists and Nrf2 activators for treating diseases such as psoriasis, asthma, multiple sclerosis, inflammatory bowel disease, and arthritis.

The invention relates to pharmaceutical compositions comprising PPAR agonists and Nrf2 activators and methods of using combinations of PPAR agonists and Nrf2 activators for treating diseases such as psoriasis, asthma, multiple sclerosis, inflammatory bowel disease, and arthritis.

The invention features methods for the treatment of cystinosis and other cysteamine sensitive disorders in a subject including administration of a disulfide convertible to cysteamine in vivo. The methods can include the separate administration of a reducing agent to the subject to increase the bioavailablity and extend the plasma pharmacokinetic profile of the cysteamine produced following administration of the disulfide. The methods permit sustained cysteamine plasma concentrations in a subject.

The invention features methods for the treatment of cystinosis and other cysteamine sensitive disorders in a subject including administration of a disulfide convertible to cysteamine in vivo. The methods can include the separate administration of a reducing agent to the subject to increase the bioavailablity and extend the plasma pharmacokinetic profile of the cysteamine produced following administration of the disulfide. The methods permit sustained cysteamine plasma concentrations in a subject.

The present disclosure generally relates to methods and formulations for treating central nervous system (CNS) disorders. The present disclosure involves intranasal delivery of at least one antioxidant compound, allowing for effective treatment of a central nervous system disorder such as traumatic brain injury or stroke.

The present disclosure generally relates to methods and formulations for treating central nervous system (CNS) disorders. The present disclosure involves intranasal delivery of at least one antioxidant compound, allowing for effective treatment of a central nervous system disorder such as traumatic brain injury or stroke.

The present invention is related to use of marimastat or a pharmaceutically acceptable salt, solvate or polymorph thereof in preventing or treating epileptogenesis in a subject that suffered a brain insult. Said brain insult is a stroke, traumatic brain injury, or a result of status epilepticus, evoked by structural or metabolic reasons. Marimastat or a pharmaceutically acceptable salt thereof is administered preferably within the first 24 hours after induction of epileptogenesis.

The present invention is related to use of marimastat or a pharmaceutically acceptable salt, solvate or polymorph thereof in preventing or treating epileptogenesis in a subject that suffered a brain insult. Said brain insult is a stroke, traumatic brain injury, or a result of status epilepticus, evoked by structural or metabolic reasons. Marimastat or a pharmaceutically acceptable salt thereof is administered preferably within the first 24 hours after induction of epileptogenesis.