Cellular, molecular, and environmental contribution in cardiac remodeling : from lab bench work to its clinical perspective /

Cellular, Molecular and Environmental Contribution in Cardiac Remodeling: From Lab Bench to Clinical Perspective consolidates the most recent research advances on cellular, molecular, biochemical, and heterogeneous factors contributing to the physiological and pathological cardiac remodeling, elucid...

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Bibliographic Details
Main Author:	Duttaroy, Asim K.
Corporate Author:	ScienceDirect (Online service)
Other Authors:	Mallick, Rahul
Format:	eBook
Language:	English
Published:	London : Academic Press, 2024.
Subjects:	Cardiology. Heart > Diseases. Heart > Molecular aspects. Cardiology Heart Diseases Cardiologie. Cœur > Maladies. Cœur > Aspect moléculaire. Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Front Cover
Cellular, Molecular, and Environmental Contribution in Cardiac Remodeling
Cellular, Molecular, and Environmental Contribution in Cardiac Remodeling: From Lab Bench Work to Its Clinical Perspective
Copyright
Contents
Preface
1
Cardiac remodeling: Impacts on cardiac health and disease
1. Introduction
2. Physiological cardiac remodeling
3. Exercise-induced cardiac remodeling
4. Pregnancy-induced cardiac remodeling
5. Pathological cardiac remodeling
6. Hypertensive left ventricular remodeling
7. Atrophic cardiac remodeling
8. Ventricular remodeling in myocardial infarction
9. Metabolic remodeling of the heart
10. Diagnosis
11. Consequences
12. Congestive heart failure
13. Therapeutic targets
14. Fibrosis
15. Cardiomyocyte hypertrophy
16. Cardiomyocyte death
17. Vascular remodeling
18. Metabolic remodeling
19. Conclusion
References
2
Physiological cardiac modeling: Effects of exercise and other physical activities
1. Introduction
2. Effects of exercise and cardiovascular system
3. Effects of exercise on the cardiac remodeling
4. Effects of exercise on the left and right ventricles
5. Determinants of exercise-induced cardiac remodeling magnitude
6. Cellular and molecular mechanism of mechanisms of EICR
7. Energy metabolism, exercise, and cardiac remodeling
8. Cellular signaling system, exercise, and cardiac remodeling
9. Conclusions
References
3
Prognostic elements of unfavorable cardiac remodeling
1. Introduction
2. Left ventricular ejection fraction
3. Myocardial infarction
4. Ventricular dilatation
5. Wall thickness
6. Biomarkers
7. Hypertrophy
8. Fibrosis
9. Hemodynamic changes
10. Functional impairment
11. Symptom severity
12. Comorbidities
13. Response to treatment.
14. Summary
References
4
Neurohormones in cardiac remodeling and function
1. Introduction
2. Neurohormonal activation
3. The adrenergic nervous system in the heart
3.1 Adrenergic nervous system regulates cardiac inflammation
3.2 Adrenergic nervous system regulation in heart failure
3.3 Beta-adrenergic dysfunction on aging heart
3.4 Comparison between heart failure and aging heart
3.5 How safe to target the adrenergic nervous system to treat heart failure
4. RAAS perturbation
5. RAAS in cardiac remodeling
6. Conclusion
References
5
Cardiokines and cardiac remodeling
1. Introduction
2. The heart as an endocrine organ
3. Cardiokines in cardiac stress
4. Autocrine/paracrine signaling of cardiokines
5. Endocrine activities of cardiokines
6. Cardiokines as cardiac disorders biomarkers
7. Conclusion
References
6
Comparative effects of fatty acid and glucose in cardiac remodeling
1. Introduction
2. Cardiac hypertrophy impacting fatty acids and glucose metabolism
3. Glucose and cardiac remodeling
4. Fats and cardiac remodeling
5. Conclusions
References
7
Vitamins, minerals, and nutraceuticals: Their cardioprotective functions
1. Introduction
2. Cardiac protection by vitamins
3. Minerals and cardiac remodeling
4. Phenolic compounds and cardiac remodeling
5. Conclusions
References
8
Junctional adhesion molecules: Their roles in integrity and functionality of the heart
1. Introduction
2. Interactions and signaling pathways
3. Major functions
4. Role of junctional adhesion molecules in cardiovascular diseases
5. Conclusion and perspective
References
9
Composition and function of ion channels and their effects on cardiac remodeling
1. Introduction.
4. Regulation of myosin
5. Actin-myosin structural transition in heart diseases
6. Cardiac troponin: Biomarker of cardiac damage
7. Conclusion
References
15
Growth and proliferation of cardiomyocytes: Roles of energy metabolism, cell death, oxidative stress, and meta ...
1. Introduction
2. Microanatomy
3. Development of the heart
4. Cardiomyocyte cell cycle and regeneration potential
5. Cardiomyocyte senescence in adult heart
6. Cross-talk between cardiomyocytes and cardiac resident other cells during cardiac remodeling
7. Clinical perspective
8. Conclusion
References
16
Cardiac endothelial cells and their cross-talks with neighboring cells in cardiac remodeling
1. Introduction
2. Cardiac endothelial cell transcriptome
3. Functional significance of endothelial cells during cardiac remodeling
3.1 Mechanosensing and mechanoregulation
4. Maintenance of vascular tone
5. Hemostasis
6. Role in neovascularization
7. Act as conditional immune cells
8. Interaction with cardiomyocytes
9. Cross-talk with leukocytes
10. Differentiation into mesenchymal cells
11. Contribute to cardiac fibrosis
12. Recruitment of endothelial progenitor cells
13. Conclusion
References
17
Pathophysiology of cardiac fibroblasts and impacts on the severity of the cardiac disease
1. Cardiac fibroblasts
2. Cardiac-resident fibroblast activation
3. Origins and characterization of cardiac fibroblasts
4. Fibroblast responses to microenvironmental stimuli
5. Prime regulator of extracellular matrix turnover
6. Electrophysiology of cardiac fibroblasts
7. Contribution to cardiac fibrosis
8. Conclusion
References
18
Involvement of cardiac stem cells in cardiac remodeling or myocardial regeneration
1. Introduction
2. Self-renewal cells in the heart.
3. Embryological origin of cardiac stem cells
4. Endogenous cardiac stem and progenitor cells
5. The regenerative capacity of cardiac stem and progenitor cells
6. Metabolism of cardiac stem cells
7. Paracrine role of cardiac stem cells following cardiac injury
8. Cross-talk between cardiac stem cells and other cells
9. Clinical prospect
References
19
Cardiac pericytes and cardiac remodeling
1. Introduction
2. Properties of cardiac pericytes
3. Pericyte secretome
4. Contribution to cardiac homeostasis
5. Contribution to the cardiac remodeling process
6. Are cardiac pericytes and cardiac stem cells similar
7. Therapeutic potential of cardiac pericytes
8. Conclusion
References
20
Macrophages in the remodeling of diseased heart
1. Introduction
2. Identification of cardiac macrophages
3. Origin of cardiac macrophages
4. Role of macrophages during cardiac remodeling
5. Mechanism of macrophage polarization
6. Role of macrophages in ventricular arrhythmia
7. Conclusion
References
21
Inflammatory role of neutrophils in cardiac remodeling: Damage versus resolution
1. Introduction
2. Phenotypic heterogeneity of neutrophils
3. Contribution in adaptive immunity
4. Does circadian oscillation affect the neutrophil counts: Prognostic factor of disease outcome?
5. Dual role of neutrophil infiltration kinetics in cardiac remodeling: Damage versus resolution?
6. NETosis
7. Secreted extracellular vesicle-mediated effects in the heart
8. Provoking granulopoiesis during myocardial infarction
9. Production of specialized proresolving mediators
10. Angiogenic properties
11. Sexual dimorphism in postmyocardial infarction inflammatory responses
12. Conclusion
References
22
Extracellular vesicle in cardiac remodeling
1. Introduction.