Hydroxycitric acid-metal heterocyclic compounds with covalent characteristics are provided. The subject hydroxycitric acid compounds include monomeric hydroxycitric acid (HCA) compounds having a divalent metal, lactone forms thereof, and dimeric compound forms thereof. The monomeric HCA compound includes a divalent metal (X) bonded via a 5-membered ring to both the carboxylic acid and the hydroxy group of the central C2 carbon of the HCA. In addition, a monovalent metal (Y) can also be bonded to the carboxylic acid of C3 or C1, or to both C1 and C3. The subject dimeric compounds include monomeric HCA compounds linked via a second divalent metal (X) to a carboxylic acid group of each HCA unit at C3 or C1. Also provided are compositions including a monomeric HCA compound and one or more other additional compounds. Methods of alleviating at least one symptom associated with a target disease or condition in a subject are provided.

Hydroxycitric acid-metal heterocyclic compounds with covalent characteristics are provided. The subject hydroxycitric acid compounds include monomeric hydroxycitric acid (HCA) compounds having a divalent metal, lactone forms thereof, and dimeric compound forms thereof. The monomeric HCA compound includes a divalent metal (X) bonded via a 5-membered ring to both the carboxylic acid and the hydroxy group of the central C2 carbon of the HCA. In addition, a monovalent metal (Y) can also be bonded to the carboxylic acid of C3 or C1, or to both C1 and C3. The subject dimeric compounds include monomeric HCA compounds linked via a second divalent metal (X) to a carboxylic acid group of each HCA unit at C3 or C1. Also provided are compositions including a monomeric HCA compound and one or more other additional compounds. Methods of alleviating at least one symptom associated with a target disease or condition in a subject are provided.

Hydroxycitric acid-metal heterocyclic compounds with covalent characteristics are provided. The subject hydroxycitric acid compounds include monomeric hydroxycitric acid (HCA) compounds having a divalent metal, lactone forms thereof, and dimeric compound forms thereof. The monomeric HCA compound includes a divalent metal (X) bonded via a 5-membered ring to both the carboxylic acid and the hydroxy group of the central C2 carbon of the HCA. In addition, a monovalent metal (Y) can also be bonded to the carboxylic acid of C3 or C1, or to both C1 and C3. The subject dimeric compounds include monomeric HCA compounds linked via a second divalent metal (X) to a carboxylic acid group of each HCA unit at C3 or C1. Also provided are compositions including a monomeric HCA compound and one or more other additional compounds. Methods of alleviating at least one symptom associated with a target disease or condition in a subject are provided.

Hydroxycitric acid-metal heterocyclic compounds with covalent characteristics are provided. The subject hydroxycitric acid compounds include monomeric hydroxycitric acid (HCA) compounds having a divalent metal, lactone forms thereof, and dimeric compound forms thereof. The monomeric HCA compound includes a divalent metal (X) bonded via a 5-membered ring to both the carboxylic acid and the hydroxy group of the central C2 carbon of the HCA. In addition, a monovalent metal (Y) can also be bonded to the carboxylic acid of C3 or C1, or to both C1 and C3. The subject dimeric compounds include monomeric HCA compounds linked via a second divalent metal (X) to a carboxylic acid group of each HCA unit at C3 or C1. Also provided are compositions including a monomeric HCA compound and one or more other additional compounds. Methods of alleviating at least one symptom associated with a target disease or condition in a subject are provided.

The present invention includes a co-crystal of creatine and citric acid obtained by milling, methods of making the same that include a process for the preparation of co-amorphous formulation of creatine and citric acid, the process comprising: mixing creatine and citric acid; milling the creatine and citric acid for a time sufficient to form a co-amorphous solid, which co-amorphous solid can be converted into a co-crystal, and nutritional supplements that include the same.

In one embodiment, the present application discloses compounds that are selective neuroactive agents for the treatment of diseases of the central nervous system (CNS). In one aspect, the neuroactive agents are NCDs of metal chelates, including complexes of iron, copper or zinc.

In one embodiment, the present application discloses compounds that are selective neuroactive agents for the treatment of diseases of the central nervous system (CNS). In one aspect, the neuroactive agents are NCDs of metal chelates, including complexes of iron, copper or zinc.

The present invention relates to co-crystals of the compound of formula (I), wherein the co-former molecule is succinic acid or citric acid, processes for the preparation of the co-crystal, pharmaceutical compositions thereof, and methods of using the co-crystals for treating or preventing thromboembolic disorders.

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The present invention relates to co-crystals of the compound of formula (I), wherein the co-former molecule is succinic acid or citric acid, processes for the preparation of the co-crystal, pharmaceutical compositions thereof, and methods of using the co-crystals for treating or preventing thromboembolic disorders.

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In one aspect, the invention provides compounds of Formula I, and salts, hydrates and isomers thereof. In another aspect, the invention provides a method of promoting bone formation in a subject in need thereof by administering to the subject a therapeutically effective amount of a compound of Formula I, Formula II, or Formula III. The present invention also provides orthopedic and periodontal devices, as well as methods for the treatment of renal disease and cancer, using a compound of Formula I, Formula II, or Formula III. ##STR00001##