The disclosure provides a method for systemic delivery of a therapeutically effective amount of epinephrine to a subject comprising orally administering dipivefrin or a dipivefrin salt to the subject. The disclosure also includes a method of treatment of a disease amenable to treatment by in vivo delivery of systemic epinephrine comprising administering dipivefrin or a dipivefrin salt to a subject in need of in vivo delivery of systemic epinephrine. The disease can be a respiratory disorder, anaphylaxis, cancer, or a microbial infection. The disclosure also includes dipivefrin or dipivefrin HCl orally dissolving tablets.

The disclosure provides a method for systemic delivery of a therapeutically effective amount of epinephrine to a subject comprising orally administering dipivefrin or a dipivefrin salt to the subject. The disclosure also includes a method of treatment of a disease amenable to treatment by in vivo delivery of systemic epinephrine comprising administering dipivefrin or a dipivefrin salt to a subject in need of in vivo delivery of systemic epinephrine. The disease can be a respiratory disorder, anaphylaxis, cancer, or a microbial infection. The disclosure also includes dipivefrin or dipivefrin HCl orally dissolving tablets.

Methods of treating or preventing allergic or pulmonary diseases characterized by endothelial dysfunction with Alda-1 are presented. Treatment of pulmonary endothelial cells subjected to hyperoxia with Alda-1 showed an increase in ALDH2 activity and expression. Treatment with Alda-1 also illustrated a decrease in oxidative stress, a decrease in reactive oxygen species (ROS), a decrease in apoptosis, a decrease in inflammation and an enhancement of mitochondrial membrane potential.

Methods of treating or preventing allergic or pulmonary diseases characterized by endothelial dysfunction with Alda-1 are presented. Treatment of pulmonary endothelial cells subjected to hyperoxia with Alda-1 showed an increase in ALDH2 activity and expression. Treatment with Alda-1 also illustrated a decrease in oxidative stress, a decrease in reactive oxygen species (ROS), a decrease in apoptosis, a decrease in inflammation and an enhancement of mitochondrial membrane potential.

Inhalable pharmaceutical compositions can include an aqueous dispersion of particles including a hydrophobic bioactive agent (e.g., CoQ10) suitable for continuous aerosolization. Due to their chemical composition and methods of manufacture, the pharmaceutical compositions exhibit distinctive physicochemical properties that provide advantageous aerosol transmission and output.

The present invention provides a pharmaceutical composition for improving respiratory damage. The pharmaceutical composition includes an adsorbent medicament and a water-containing carrier, wherein said adsorbent medicament comprises a carbon material, a molecular sieve or a positively and negatively charged compound. The present invention also provides use for manufacturing pharmaceutical composition for improving respiratory damage.

The present invention provides a pharmaceutical composition for improving respiratory damage. The pharmaceutical composition includes an adsorbent medicament and a water-containing carrier, wherein said adsorbent medicament comprises a carbon material, a molecular sieve or a positively and negatively charged compound. The present invention also provides use for manufacturing pharmaceutical composition for improving respiratory damage.

The disclosure provides a method for systemic delivery of a therapeutically effective amount of epinephrine to a subject comprising orally administering dipivefrin or a dipivefrin salt to the subject. The disclosure also includes a method of treatment of a disease amenable to treatment by in vivo delivery of systemic epinephrine comprising administering dipivefrin or a dipivefrin salt to a subject in need of in vivo delivery of systemic epinephrine. The disease can be a respiratory disorder, anaphylaxis, cancer, or a microbial infection. The disclosure also includes dipivefrin or dipivefrin HCl orally dissolving tablets.

The disclosure provides a method for systemic delivery of a therapeutically effective amount of epinephrine to a subject comprising orally administering dipivefrin or a dipivefrin salt to the subject. The disclosure also includes a method of treatment of a disease amenable to treatment by in vivo delivery of systemic epinephrine comprising administering dipivefrin or a dipivefrin salt to a subject in need of in vivo delivery of systemic epinephrine. The disease can be a respiratory disorder, anaphylaxis, cancer, or a microbial infection. The disclosure also includes dipivefrin or dipivefrin HCl orally dissolving tablets.

Disclosed herein are methods of treating a disease in a subject which is the consequence of previous exposure of the subject to a virus, particularly SARS-CoV-2, the method comprising administration of an effective amount of one or more agents to the subject.