The present disclosure relates to methods for treating a variety of diseases and/or ameliorating pain by administering to the ear canal of a subject a composition.

Heart failure with preserved ejection fraction (HFpEF) which results from diastolic dysfunction is a growing epidemiologic problem. However, the pathophysiology of this disease is poorly understood. Our goal is to investigate whether microvessel disease may promote HFpEF. To do so we have used Leptin receptor deficient (Lepr.sup.db/db) female mice as a model of HFpEF and performed a transcriptomic analysis via RNA sequencing of the cardiac vascular fraction of both these mice and their control Lepr.sup.db/+littermates. In Lepr.sup.db/db female mice, end diastolic pressure (EDP) signing diastolic dysfunction is significantly increased from 3 month of age. It is correlated with a cardiac and cardiomayocyte hypertrophy, vascular leakage, endothelial cell activation and leucocyte infiltration. As expected, the RNA sequencing analysis confirmed endothelial dysfunction. Besides, it also revealed a strong increase in several mast cell markers. We confirmed, via histology, an accumulation of mast cells in the heart of Lepr.sup.db/db mice. Importantly, it was associated with increased levels of circulating IgE. Lepr.sup.db/db mice were then treated or not with Cromolyn sodium, an inhibitor of mast cell degranulation. After a month treatment, EDP was significantly reduced in Lepr.sup.db/db mice demonstrating the critical role of mast cell in the development of diastolic dysfunction in diabetic obese mice.

Heart failure with preserved ejection fraction (HFpEF) which results from diastolic dysfunction is a growing epidemiologic problem. However, the pathophysiology of this disease is poorly understood. Our goal is to investigate whether microvessel disease may promote HFpEF. To do so we have used Leptin receptor deficient (Lepr.sup.db/db) female mice as a model of HFpEF and performed a transcriptomic analysis via RNA sequencing of the cardiac vascular fraction of both these mice and their control Lepr.sup.db/+littermates. In Lepr.sup.db/db female mice, end diastolic pressure (EDP) signing diastolic dysfunction is significantly increased from 3 month of age. It is correlated with a cardiac and cardiomayocyte hypertrophy, vascular leakage, endothelial cell activation and leucocyte infiltration. As expected, the RNA sequencing analysis confirmed endothelial dysfunction. Besides, it also revealed a strong increase in several mast cell markers. We confirmed, via histology, an accumulation of mast cells in the heart of Lepr.sup.db/db mice. Importantly, it was associated with increased levels of circulating IgE. Lepr.sup.db/db mice were then treated or not with Cromolyn sodium, an inhibitor of mast cell degranulation. After a month treatment, EDP was significantly reduced in Lepr.sup.db/db mice demonstrating the critical role of mast cell in the development of diastolic dysfunction in diabetic obese mice.

A method for preparing a microsphere include steps of dissolving an active ingredient and a biodegradable polymer in an organic solvent to prepare a dispersed phase, dissolving a salt in water to prepare a continuous phase, mixing and stirring the dispersed phase and the continuous phase to form an emulsion, removing the organic solvent; and drying.

A method for preparing a microsphere include steps of dissolving an active ingredient and a biodegradable polymer in an organic solvent to prepare a dispersed phase, dissolving a salt in water to prepare a continuous phase, mixing and stirring the dispersed phase and the continuous phase to form an emulsion, removing the organic solvent; and drying.

Provided herein are methods and compounds for targeted autophagy.

A nitrogen-containing derivative of substituted phenol hydroxyl acid ester is represented by formula (I). A salt of the compound of formula (I) has good water solubility, and in vivo, can rapidly and completely release substituted phenols having a pharmacological effect, which can improve the water solubility of substituted phenols, rapidly exert the pharmacological effects of substituted phenols in vivo, and has good safety. The method for preparing the above-mentioned compound is provided. This compound can also be used in the preparation of drugs that produce anaesthesia and/or sedative and hypnotic effects on humans and animals.

##STR00001##

Gastric residence systems for administration of agents, such as drugs, are disclosed. Features which enhance gastric retention during the desired residence time and which allow for more precise control over residence time are disclosed, including circumferential filaments connecting the arms of a stellate gastric residence system; flexible arms for a gastric residence system; improved time-dependent and enteric disintegrating matrices (linkers); and release rate-modulating polymer coatings which are resistant to change in release rate properties during heat-assisted assembly or thermal cycling. Combinations of these features are also disclosed.

Gastric residence systems for administration of agents, such as drugs, are disclosed. Features which enhance gastric retention during the desired residence time and which allow for more precise control over residence time are disclosed, including circumferential filaments connecting the arms of a stellate gastric residence system; flexible arms for a gastric residence system; improved time-dependent and enteric disintegrating matrices (linkers); and release rate-modulating polymer coatings which are resistant to change in release rate properties during heat-assisted assembly or thermal cycling. Combinations of these features are also disclosed.

Gastric residence systems for administration of agents, such as drugs, are disclosed. Features which enhance gastric retention during the desired residence time and which allow for more precise control over residence time are disclosed, including circumferential filaments connecting the arms of a stellate gastric residence system; flexible arms for a gastric residence system; improved time-dependent and enteric disintegrating matrices (linkers); and release rate-modulating polymer coatings which are resistant to change in release rate properties during heat-assisted assembly or thermal cycling. Combinations of these features are also disclosed.