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The Hypertrophied Heart Nobuakira Takeda

The Hypertrophied Heart By Nobuakira Takeda

The Hypertrophied Heart by Nobuakira Takeda


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Summary

Whenever the heart is challenged with an increased work load for a prolonged period, it responds by increasing its muscle mass--a phenomenon known as cardiac hypertrophy.

The Hypertrophied Heart Summary

The Hypertrophied Heart by Nobuakira Takeda

Whenever the heart is challenged with an increased work load for a prolonged period, it responds by increasing its muscle mass--a phenomenon known as cardiac hypertrophy. Although cardiac hypertrophy is commonly seen under physiological conditions such as development and exercise, a wide variety of pathological situa tions such as hypertension (pressure overload), valvular defects (volume overload), myocardial infarction (muscle loss), and cardiomyopathy (muscle disease) are also known to result in cardiac hypertrophy. Various hormones such as catecholamines, thyroid hormones, angiotensin II, endothelin, and growth factors have also been shown to induce cardiac hypertrophy. Although the exact mechanisms underlying or pathological forrns of cardiac hypertrophy are poorly under the physiological stood, an increase in the intraventricular pressure is believed to represent the major stimulus for the development of cardiac hypertrophy. In this regard, stretching of the cardiac muscle has been shown to induce the hypertrophic response, but the role of metabolic influences in this process cannot be ruled out. Furthermore, different hormones and other interventions in the absence of stretch have been observed to stimulate protein synthesis in both isolated cardiomyocyte and vascular myocyte preparations. Nonetheless, it is becoming dear that receptor as well as phospholipid linked signal transduction pathways are activated in some specific manner depend ing upon the initial hypertrophic stimulus, and these then result in an increase in the size and mass of cardiomyocytes.

Table of Contents

Dedication. Preface. Acknowledgements. A: Mechanisms of Cardiac Hypertrophy. 1. Signal Transduction in Adapted Heart: Implication of Protein Kinase C-Dependent and -Independent Pathways; J. Debarros, D.K. Das. 2. Glucose-6-Phosphate Dehydrogenase: A Marker of Cardiac Hypertrophy; H.-G. Zimmer. 3. Regulation of Ribosomal DNA Transcription During Cardiomyocyte Hypertrophy; T. Arino, et al. 4. Mitochondrial Gene Expression in Hypertrophic Cardiac Muscles in Rats; T. Murakami, et al. 5. Serca2 and ANF Promoter-Activity Studies in Hypertrophic Cardiomyocytes using Liposome-, Gene Gun- and Adenovirus-Mediated Gene Transfer; K. Eizema, et al. 6. Ca2+ Transients, Contractility and Inotropic Responses in Rabbit Volume-Overload Cardiomyocytes; K. Sakurai, et al. 7. Responsiveness of Contractile Elements to Muscle Length Change in Hyperthyroid Ferret Myocardium; T. Ishikawa, et al. 8. Contraction-Dependent Hypertrophy of Neonatal Rat Ventricular Myocytes: Potential Role for Focal Adhesion Kinase; D.M. Eble, et al. 9. Molecular Mechanism of Mechanical Stress-Induced Cardiac Hypertrophy; I. Komuro. 10. Possible Roles of the Tenascin Family During Heart Development and Myocardial Tissue Remodeling; K. Imanaka-Yoshida, et al. 11. Cardiac Cell-ECM Interactions: A Possible Site for Mechanical Signaling; S. Kanekar, et al. 12. Integrin-Dependent and -Independent Signaling During Pressure Overload Cardiac Hypertrophy; M. Laser, et al. 13. Role of G-Proteins in Hypertension and Hypertrophy; M. Anand-Srivastava, F. di Fusco. 14. Three-Dimensional Nuclear Size and DNA Content in Hypertensive Heart Disease; A. Takeda, et al. 15. Age-Related Anisotropic Changes in Cardiocyte Connections in Spontaneously Hypertensive Rats; M. Okabe, et al. 16. Stimulation of Mitogen-Activated Protein Kinases ERK 1 and ERK 2 by H2O2 in Vascular Smooth Muscle Cells; A.K. Srivastava, S.K. Pandey. 17. Effects of Renin-Angiotensin System Inhibition on Cardiac Hypertrophy and Fibrosis in Spontaneously Hypertensive Rats; N. Makino, et al. 18. Adaptation of the Poikilothermic Heart to Catecholamine-Induced Overload; B. Ostadal, et al. 19. Angiogenesis and Fibrosis During Right Ventricular Hypertrophy in Human Tetralogy of Fallot; H.S. Sharma, et al. 20. Molecular Mechanisms of Phenotypic Modulation of Vascular Smooth Muscle Cells; M. Kurabayashi, R. Nagai. B: Cardiac Failure in Hypertrophied Heart. 21. Protein Kinase C Activation in Cardiac Hypertrophy and Failure; Y. Takeishi, et al. 22. Angiotensin II and Connective Tissue Homeostasis; K.T. Weber. 23. Beneficial Effects of Angiotensin Blockade in Heart Failure due to Myocardial Infarction; N.S. Dhalla, X. Guo. 24. Activated TGF-&bgr; Signaling in Heart After Myocardial Infarction; J. Hao, et al. 25. gp 130 Dependent Signaling Pathways: Recent Advances and Implications for Cardiovascular Disease; K. Yamauchi-Takihara, et al. 26. Molecular Genetic Aspects of Hypertrophic Cardiomyopathy in the Oriental; A. Kimura. 27. Hepatitis C Virus Infection in Hypertrophic or Dilated Cardiomyopathy; A. Matsumori. 28. Enhancement of Early D

Additional information

NLS9781461369912
9781461369912
1461369916
The Hypertrophied Heart by Nobuakira Takeda
New
Paperback
Springer-Verlag New York Inc.
2012-10-13
469
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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