Angello, D.A., et al., “Recovery of Myocardial Function and Thallium 201 Redistribution Using Ribose”, American Journal of Cardiac Imaging, 3 (4), pp. 256-265, (Dec. 1989). |
Batista, R., “Partial left ventriculectomy—the Batista procedure”, European Journal of Cardio-Thoracic Surgery, 15 (Suppl. 1), pp. S12-S19, (Jan. 1999). |
Bax, J.J., et al., “Accuracy of Currently Available Techniques for Prediction of Functional Recovery After Revascularization in Patients With Left Ventricular Dysfunction Due to Chronic Coronary Artery Disease: Comparison of Pooled Data”, Journal of the American College of Cardiology, 30 (6), pp. 1451-1460, (Nov. 15, 1997). |
Furnary, A.P., et al., “Multicenter Trial of Dynamic Cardiomyoplasty for Chronic Heart Failure”, Journal of the American College of Cardiology, 28 (5), pp. 1175-1180, (Nov. 1, 1996). |
Gross, M., et al., “Metabolism of D-Ribose Administered Continuously to Healthy Persons and to Patients with Myoadenylate Deaminase Deficiency”, Klin Wochenschr, 67, pp. 1205-1213, (1989). |
Gross, M., et al., “Ribose administration during exercise: effects on substrates and products of energy metabolism in healthy subjects and a patient with myoadenylate deaminase deficiency”, Klin. Wochenshr., 69, pp. 151-155, (1991). |
Jessup, M., “Optimizing Medical Management of the Patient with Severe Heart Failure Awaiting Cardiac Transplantation”, Cardiology—In Review, 4 (5), pp. 286-291, (Sep. 1996). |
Mahoney, Jr., et al., “A comparison of different carbohydrates as substrates for the isolated working heart”, Journal of Surgical Research, 47, pp. 530-534, (1989). |
Pliml, W., et al., “Effects of ribose on exercise-induced ischaemia in stable coronary artery disease”, The Lancet, 340, pp. 507-510, (Aug. 29, 1992). |
Sawada, S.G., et al., “Echocardiographic Detection of Coronary Artery Disease During Dobutamine Infusion”, Circulation, 83 (5), pp. 1605-1614, (May 1991). |
Schultis, K., et al., “Xylitol in metabolism during stress conditions”, Medizin und Ernahrung, 11 (3), Jahrgang, pp. 59-63, (1970). |
St. Cyr, J.A., et al., “Enhanced high energy phosphate recovery with ribose infusion after global myocardial ischemia in a canine model”, Journal of Surgical Research, 46 (2), pp. 157-162, (Feb. 1989). |
Tan, Z.T., et al., “Verapamil ribose adenine enhance resynthesis of postischemic myocardial ATP”, Life Sciences, 55 (18), pp. PL 345-PL 349, (1994). |
Tullson, P.C., et al., “Adenine Nucleotide Syntheses in Exercising and Endurance-trained Skeletal Muscle”, The American Journal of Physiology, 261 (2), pp. C342-C347, (1991). |
Tullson, P.C., et al., “IMP Metabolism in Human Skeletal Muscle After Exhaustive Exercise”, The American Journal of Physiology, pp. 146-152, (1995). |
Wagner, D.R., et al., “Effects of oral ribose on muscle metabolism during bicycle ergometer in AMPD-deficient patients”, Annals of Nutrition and Metabolism, 35 (5), pp. 297-302, (1991). |
Zimmer, H.G., et al., “Ribose accelerates the repletion of the ATP pool during recovery from reversible ischemia of the rat myocardium”, Journal of Molecular and Cellular Cardiology, 16 (9), pp. 863-866, (Sep. 1984). |
Zollner, N., et al., “Myoadenylate Deaminase Deficiency: Successful Symptomatic Therapy by High Dose Oral Adminstration of Ribose”, Klin Wochenschr, 64, pp. 1281-1290, (1986). |