Nutrition and Skeletal Muscle

<p>Part 1. General Aspects<br>1. Physiological regulation of muscle mass<br>2. Skeletal muscle mass indices in healthy adults<br>3. Myofibrillar proteins<br>4. Reduced skeletal muscle mass and lifestyle<br>5. Postprandial effects on skeletal muscle<br>6. Molecular mechanism of post-meal regulation of muscle anabolism<br>7. Age-related changes in skeletal muscle</p> <p>Part 2. High fat and overfeeding<br>8. Skeletal muscle mitochondrial and high fat feeding<br>9. Muscle macrophages and high fat feeding<br>10. Muscle insulin action and high fat feeding<br>11. Oxidative stress in skeletal muscle and high fat feeding<br>12. Maternal overnutrition and skeletal muscle in offspring</p> <p>Part 3 Obesity<br>13. Sarcopenic obesity<br>14. Skeletal muscle and chronic overfeeding<br>15. Lipolysis in skeletal muscle of obesity<br>16. Obesity and respiratory skeletal muscles</p> <p>Part 4. Diabetes, insulin and glucose control<br>17. Correlates of skeletal muscle strength in diabetes<br>18. Lipids in skeletal muscle and insulin sensitivity<br>19. Glucose, skeletal muscle and obesity</p> <p>Part 5 Vitamins<br>20. Vitamin D signaling and skeletal muscle cells<br>21. Vitamin D deficiency and myopathy<br>22. Vitamin D and age-related loss of muscle mass and function<br>23. Vitamin D and exercise in humans<br>24. Vitamin D and skeletal muscle of amyotrophic lateral sclerosis<br>25. Vitamin E and skeletal muscle<br>26. Folate and skeletal muscle<br>27. Thiamine and skeletal muscle</p> <p>Part 6 Minerals<br>28. Copper and skeletal muscle<br>29. Iron and skeletal muscle<br>30. Selenium and skeletal muscle<br>31. Zinc and skeletal muscle<br>32. Calcium and skeletal muscle</p> <p>Part 7 Nutraceuticals and supplements<br>33. Coffee, Caffeine and skeletal muscle<br>34. Daidzein and skeletal muscle protection<br>35. Epigallocatechin-3-gallate and skeletal muscle recovery<br>36. Genistein and skeletal muscle<br>37. Grape seed proanthocyanidin and skeletal muscle protection<br>38. Soy beta-conglycinin and skeletal muscle<br>39. Quercetin and skeletal muscle fat<br>40. Resveratrol and skeletal muscle protection<br>41. Pre- and probiotics, microbiota and skeletal muscle</p> <p>Part 8 Amino acid supplements<br>42. Arginine and skeletal muscle<br>43. Citrulline and skeletal muscle<br>44. Sulfur amino acids and skeletal muscle<br>45. Branched-chain amino acids (leucine, isoleucine, and valine) and skeletal muscle<br>46. Glutamine and skeletal muscle<br>47. Tryptophan and skeletal muscle</p> <p>Part 9 Protein supplements<br>48. Mixture of whey protein and casein on skeletal muscle<br>49. Whey protein and muscle protection<br>50. Casein-enriched diets and muscle<br>51. Dietary protein and skeletal muscle in elderly<br>52. Mechanisms of muscle anabolic resistance<br>53. Dietary amino acids and protein hydrolysates compared with intact proteins and skeletal muscle<br>54. Dietary plant proteins and skeletal muscle<br>55. Protein supplement, exercise and skeletal muscle</p> <p>Part 10 Lipid supplements<br>56. Dietary fat and skeletal muscle: molecular apects<br>57. Polyunsaturated omega-3 fatty acids and skeletal muscle<br>58. Fatty acids and skeletal muscle PPAR<br>59. Saturated and monounsaturated fatty acids and skeletal muscle</p> <p>Part 11 Adverse effects due to dietary components, deficiencies, modulants or extracts<br>60. Statins and muscle damage<br>61. Protein restriction and impact on skeletal muscle<br>62. Nutritionnelles<br>63. Caloric restriction and impact on skeletal muscle<br>64. Seafood contaminants (palytoxins) on skeletal muscle<br>65. Alcoholic myopathy </p>