Editorial: Metabolic Supplementation with Orotic Acid and Magnesium Orotate Franklin L. Rosenfeldt OriginalPaper Pages: 147 - 152
Effects of Magnesium Orotate on Exercise Tolerance in Patients with Coronary Heart Disease K.-R. GeissN. StergiouH.-G. Jester OriginalPaper Pages: 153 - 156
Orotic Acid Improves Recovery of Left Ventricular Function Days After Heterotopic Transplantation T Yeh Jr.IM RebeykaAS Wechsler OriginalPaper Pages: 157 - 157
Mechanism of Cardioprotective Effect of Orotic Acid Franklin L. RosenfeldtStephen M. RichardsRobert A.J. Conyers OriginalPaper Pages: 159 - 170
Basis of Pyrimidine Nucleotide Metabolism in the Myocardium André RossiJosé Olivares OriginalPaper Pages: 171 - 177
Significance of the 5-Phosphoribosyl-1-Pyrophosphate Pool for Cardiac Purine and Pyrimidine Nucleotide Synthesis: Studies with Ribose, Adenine, Inosine, and Orotic Acid in Rats Heinz-Gerd Zimmer OriginalPaper Pages: 179 - 187
Effect of Orotic Acid and Magnesium Orotate on the Development and Progression of the UM-X7.1 Hamster Hereditary Cardiomyopathy Gaëtan JasminLibuse Proschek OriginalPaper Pages: 189 - 195
On the Significance of Magnesium in Extreme Physical Stress S.W. GolfS. BenderJ. Grüttner OriginalPaper Pages: 197 - 202