Abstract: The present invention provides compositions and methods for using cardioprotective or hemodynamic drugs in combination with dichloroacetate enabling usage of cardioprotective or hemodynamic drugs at concentrations higher than used in normal clinical practice without increasing deleterious side effects normally associated with the cardioprotective or hemodynamic drug, thereby conferring added clinical benefit. The present invention teaches administration of DCA with cardioprotective or hemodynamic drugs as an adjunct therapy thereby conferring added clinical benefit to clinically recommended protocols.

Abstract: The invention provides novel compounds of the Formula (I) that stimulate rates of glucose oxidation in myocardial cells: wherein W, Cyc, p, Y, X, Z, R, R1, R2, R3, R4, I, m and n are as defined for Formula (I) herein. The invention also relates to pharmaceutical compositions comprising compounds capable of stimulation of glucose oxidation, methods for increasing glucose oxidation rates in myocardial cells, and methods of treatment of myocardial ischemia.

Abstract: The present invention provides compositions and methods for using cardioprotective or hemodynamic drugs in combination with dichloroacetate enabling usage of cardioprotective or hemodynamic drugs at concentrations higher than used in normal clinical practice without increasing deleterious side effects normally associated with the cardioprotective or hemodynamic drug, thereby conferring added clinical benefit. The present invention teaches administration of DCA with cardioprotective or hemodynamic drugs as an adjunct therapy thereby conferring added clinical benefit to clinically recommended protocols.

Abstract: Human myelin basic protein (h-MBP) has a molecular weight of 18.5 KD and contains 170 amino acid residues. Synthetic peptides ranging in length from about 8 to 25 residues and covering the entire length of the protein have been produced. Antibodies to h-MBP (anti-MBP) were found to be neutralized by the synthetic peptides, in vitro, which span the h-MBP from about amino acid residue 61 to about amino acid residue 106. The peptides, which cover both the amino (about residues 1 to 63) and carboxy (about residues 117 to 162) terminals of h-MBP did not neutralize purified anti-MBP. Intrathecal administratin of peptide MBP(75-95), MBP(86-95), or MBP(82-98) produced complete binding-neutralization of free (F) anti-MBP with no change in bound (B) levels. A control peptide MBP35-58 had no effect on F or B anti-MBP levels. Intravenous administration of MBP(75-95), MBP(86-95), or MBP(82-98) resulted in significant decline of F and B CSF anti-MBP levels.