Fatigue is a prevalent problem and adequate treatment is challenging because many conditions, disorders, medications, and lifestyle factors can cause fatigue. The Scientific Basis of Fatigue combines evidence-based research and clinical treatment protocols to provide a comprehensive reference to fatigue. This book is divided into seven distinct sections, starting with an introduction section defining the distinctions between physical and mental fatigue. The second and third sections detail the various conditions in both physical and mental fatigue including COVID, Parkinson disease, and…mehr
Fatigue is a prevalent problem and adequate treatment is challenging because many conditions, disorders, medications, and lifestyle factors can cause fatigue. The Scientific Basis of Fatigue combines evidence-based research and clinical treatment protocols to provide a comprehensive reference to fatigue. This book is divided into seven distinct sections, starting with an introduction section defining the distinctions between physical and mental fatigue. The second and third sections detail the various conditions in both physical and mental fatigue including COVID, Parkinson disease, and depression. The next section reviews the current research on molecular and cellular aspects and models of fatigue. The final two sections review options for diagnosis and treatments for fatigue and provides a detailed resource section for further review.
Preface Section 1: Fatigue In Different Conditions and Scenarios 1. Fatigue in clinical conditions: Inflammatory bowel disease. A new narrative 2. Fatigue related to cancer treatments 3. Fatigue in systemic lupus erythematosus 4. Fatigue in patients with inflammatory rheumatic diseases 5. Fatigue in diverse groups: taxi drivers and beyond 6. Fatigue in clinical conditions: Sjogren's syndrome 7. Fatigue in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS): linking in brain fog 8. Fatigue in fibromyalgia: a mental and physical context 9. Fatigue in chronic obstructive pulmonary disease (COPD) 10. Vocal fatigue 11. Work and fatigue in population cohorts: pilots 12. Fatigue and quality of life in Parkinson's disease 13. Fatigue in diabetes 14. Fatigue in stroke: a new narrative 15. Fatigue in COVID-19 Section 2: Mental Fatigue 16. Mental fatigue in the postpartum scenario 17. Features of mental fatigue in defined populations: subjects with psychiatric disease 18. Workplace measures of mental fatigue 19. Psychological perspective about mental fatigue: a focus on cognitive and motivational-affective abilities 20. Mental fatigue in infertility treatment 21. Psychosocial dimensions of mental fatigue 22. Fatigue and the reciprocal relationship with motor imagery Section 3: Molecular And Cellular Aspects and Models 23. The role of glutathione in skeletal muscle fatigue 24. Muscular fatigue and molecular mechanisms: Tropomyosin receptor kinase B (TrkB) signaling 25. Fatigue in inflammatory bowel disease and the role of micronutrients 26. The mitochondria in fatigue syndromes 27. Fatigue and catalytic autoantibodies 28. Short chain fatty acids and fatigue 29. Investigating fatigue in rats on high-fat regimens 30. Computational modelling of fatigue Section 4: Physiological Aspects 31. Temperature in the working environment and effects on fatigue 32. Mental imagery of fatigue-related multisensory sensations and fMRI 33. Fatigue of the respiratory muscles 34. Overview of cardiorespiratory system involvement in fatigue 35. Fatigue and physiology of exercise performance as a result of COVID-19 Section 5: Diagnosis and Assessments 36. Diagnosis and treatment of fatigue in Long COVID 37. Biomarkers, fatigue and long COVID 38. Questionnaires for screening fatigue: Parkinson's disease Section 6: Treating and Managing Fatigue 39. Treating fatigue with dopaminergic regulators; a focus on s (-)-OSU6162 40. Potential of using carnosine in ameliorating fatigue 41. Fatigue associated variables in multiple sclerosis and affective drug treatment 42. Modulating mental fatigue: use of Creatine, Caffeine or ketones 43. The Role of Bupropion in Managing Fatigue: Clinical Insights and Usage 44. The Mediterranean diet and effects on fatigue 45. Managing Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS): a new narrative 46. Resistance training: features and use in treating fatigue in cancer survivors 47. Online treatment regimens in chronic fatigue syndrome 48. Omega-3 Polyunsaturated Fatty Acids in Fatigue Management: Clinical Applications and Mechanisms Section 7: Resources 49. Resources for Fatigue
Preface Section 1: Fatigue In Different Conditions and Scenarios 1. Fatigue in clinical conditions: Inflammatory bowel disease. A new narrative 2. Fatigue related to cancer treatments 3. Fatigue in systemic lupus erythematosus 4. Fatigue in patients with inflammatory rheumatic diseases 5. Fatigue in diverse groups: taxi drivers and beyond 6. Fatigue in clinical conditions: Sjogren's syndrome 7. Fatigue in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS): linking in brain fog 8. Fatigue in fibromyalgia: a mental and physical context 9. Fatigue in chronic obstructive pulmonary disease (COPD) 10. Vocal fatigue 11. Work and fatigue in population cohorts: pilots 12. Fatigue and quality of life in Parkinson's disease 13. Fatigue in diabetes 14. Fatigue in stroke: a new narrative 15. Fatigue in COVID-19 Section 2: Mental Fatigue 16. Mental fatigue in the postpartum scenario 17. Features of mental fatigue in defined populations: subjects with psychiatric disease 18. Workplace measures of mental fatigue 19. Psychological perspective about mental fatigue: a focus on cognitive and motivational-affective abilities 20. Mental fatigue in infertility treatment 21. Psychosocial dimensions of mental fatigue 22. Fatigue and the reciprocal relationship with motor imagery Section 3: Molecular And Cellular Aspects and Models 23. The role of glutathione in skeletal muscle fatigue 24. Muscular fatigue and molecular mechanisms: Tropomyosin receptor kinase B (TrkB) signaling 25. Fatigue in inflammatory bowel disease and the role of micronutrients 26. The mitochondria in fatigue syndromes 27. Fatigue and catalytic autoantibodies 28. Short chain fatty acids and fatigue 29. Investigating fatigue in rats on high-fat regimens 30. Computational modelling of fatigue Section 4: Physiological Aspects 31. Temperature in the working environment and effects on fatigue 32. Mental imagery of fatigue-related multisensory sensations and fMRI 33. Fatigue of the respiratory muscles 34. Overview of cardiorespiratory system involvement in fatigue 35. Fatigue and physiology of exercise performance as a result of COVID-19 Section 5: Diagnosis and Assessments 36. Diagnosis and treatment of fatigue in Long COVID 37. Biomarkers, fatigue and long COVID 38. Questionnaires for screening fatigue: Parkinson's disease Section 6: Treating and Managing Fatigue 39. Treating fatigue with dopaminergic regulators; a focus on s (-)-OSU6162 40. Potential of using carnosine in ameliorating fatigue 41. Fatigue associated variables in multiple sclerosis and affective drug treatment 42. Modulating mental fatigue: use of Creatine, Caffeine or ketones 43. The Role of Bupropion in Managing Fatigue: Clinical Insights and Usage 44. The Mediterranean diet and effects on fatigue 45. Managing Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS): a new narrative 46. Resistance training: features and use in treating fatigue in cancer survivors 47. Online treatment regimens in chronic fatigue syndrome 48. Omega-3 Polyunsaturated Fatty Acids in Fatigue Management: Clinical Applications and Mechanisms Section 7: Resources 49. Resources for Fatigue
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