| ISBN13: | 9780443189791 |
| ISBN10: | 044318979X |
| Kötéstípus: | Puhakötés |
| Terjedelem: | 450 oldal |
| Méret: | 234x190 mm |
| Súly: | 450 g |
| Nyelv: | angol |
| 700 |
Nutrition in the Control of Inflammation
EUR 175.00
Kattintson ide a feliratkozáshoz
Nutrition in the Control of Inflammation: Emerging Roles for the Microbiome and Epigenome offers a comprehensive overview on how our diet promotes or attenuates inflammation to regulate inflammatory diseases. Broken into five sections, this book presents an introduction to the microbiome and epigenome in nutrition, subsequently covering diet, lifestyle, and the microbiome in the development of inflammatory diseases, nutrition and the epigenome in metabolic and cardiovascular diseases, diet, epigenetics, and microbiome. This book also addresses health-disparities in diet, epigenetics, and gut microbes. It will be of interest to nutrition researchers, nutritionists, and postgraduate students, as well as others working in, studying, and researching related fields.
Section I. Introduction 1. Introduction: Nutrition, the microbiome, and the epigenome in human health and disease Section II. Diet, lifestyle and the microbiome in development and inflammatory diseases 2. The microbiome across the lifecycle 3. The microbiome in infant gut health and development 4. The microbiome in early life as a risk factor for autoimmune diseases 5. The microbiome in gut inflammation and carcinogenesis 6. Obesity and the microbiome: A role for microbes in insulin resistance 7. Fiber and the gut microbiome and its impact on inflammation 8. Diet-specific impacts on the gut microbiome and their relation to health and inflammation 9. Hypertension, Obesity, and the microbiome in cardiovascular disease 10. Bariatric surgery, gut microbes, and metabolic health 11. Caloric restriction in the microbial regulation of inflammaging 12. Exercise, the gut microbiome and inflammatory disease Section III. Nutrition and the epigenome in metabolic and cardiovascular diseases 13. Obesity, histone acetylation and insulin resistance 14. Obesity, DNA methylation and metabolic disease 15. Diet, histone modifications and cardiovascular diseases 16. Diet, DNA methylation and cardiovascular diseases 17. Obesity and non-coding RNAs in epigenetic inheritance of metabolic disease 18. Caloric restriction in the epigenetic regulation of aging and longevity 19. Exercise in epigenetic programing throughout life Section IV. Diet, epigenetics, and the microbiome in inflammatory disease 20. Gut microbiome, epigenetics and neuro-inflammatory disease 21. Caloric restriction, gut microbes, epigenetics and inflammaging 22. Obesity, gut bacteria and the epigenetic control of metabolic disease 23. The microbiome-epigenome axis in infant gut health and development 24. The microbiome and epigenome intersect to regulate gut inflammation Section V. Conclusions: Health-disparities in diet, epigenetics and gut microbes 25. Race, gender and ethnicity in the control of our gut microbes 26. The role for social-environmental influences in epigenetic determination 27. Practical applications for diet and lifestyle to improve microbial and epigenetic health
