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- Bookedited by Ping-Chung Leung, Debashis Panda.Summary: "This unique book presents the differences and similarities of the oldest system of health care. All ancient medicine has strong philosophical background and management varieties related to treatment activities. Ayurveda is one such branch of medicine that is strongly linked to Yoga and traditional Chinese medicine including activities related to Martial Arts and Acupuncture. This book successfully merges Ayurveda with Chinese medicine thereby enhancing the understanding of the two systems"-- Provided by publisher.
Contents:
Ayurveda
Chinese medicine : from philosophy to basic principles / Deboshis Panda
Ayurveda : body structures and functional considerations / Deboshis Panda
Health and disease in Ayurveda / Deboshis Panda
Chinese medicine : principles on health and diseases / P.C. Leung
Research and development of Chinese medicinal plants / Clara Bik-San Lau, P.C. Leung ... et al.
Evidence based validation of Indian traditional medicine
way forward / P.K. Mukherjee ... et al.
Natural healing : qi gong, tai chi, and yoga / P.C. Leung
Ayurveda in India / Deboshis Panda, P.C. Leung
Traditional medicine in China / P.C. Leung
Medicinal herbs used in Ayurveda and Chinese medicine / P.C. Leung, Edmond Au Wai-chun
Ayurveda and Chinese medicine today : joint mission of the two Asian systems / P.C. Leung, Deboshis Panda.Digital Access World Scientific 2017 - ArticleSaitoh Y, Ichihara K, Abiko Y.Nihon Yakurigaku Zasshi. 1977 Jul;73(5):597-603.Effects of coronary artery ligation on myocardial glycogenolysis were studied in the endo- and epicardial layers of the left ventricular wall in dogs pretreated with 10 or 100 microgram/kg (i.v.) of carteolol, a potent beta-adrenergic blocking agent. Coronary artery ligation was performed by ligating one of the small branches of the left anterior descending coronary artery. In control (saline-pretreated) dogs, an increase in phosphorylase alpha activity and an increase in breakdown of glycogen were observed in both endo- and epicardial layers after coronary artery ligation. In the presence of 10 or 100 microgram/kg of carteolol, however, increases in phosphorylase alpha activity and increase in breakdown of glycogen were not observed in either the endo or epicardial layers. These results indicate that pretreatment of the dog with carteolol inhibits the increase in glycogenolysis caused by coronary artery ligation. Nevertheless, carteolol did not completely inhibit the coronary artery ligation-induced increase in glucose-6-phosphate and lactate levels, and the coronary artery ligation-induced decrease in phosphocreatine level, particularly in the endocardial layers.