Diagnosis and Treatment of Spinal Cord Injury:I. Setting The Scene: Introductory Chapters1. Outcomes of traumatic spinal cord injury in low-resource setting2. Spine injuries associated with spinal cord injury3. Body, action and space representations in people affected by spinal cord injuries4. Methods for treating pain and painful syndromes in spinal cord injury: medications, therapies, interventions, and neuromodulation

II. Clinical Features Of Spinal Injury 5. Factors Contributing To Pressure Injuries In Traumatic Spinal Cord Injury6. Venous thromboembolismin spinal cord injury 7. Osteoporosis-related fractures: what they are and how they occur following spinal cord injury8. Brain atrophy and white matter in compression injury to the spinal cord9. Spasticity in spinal cord injury10. Falls among individuals living with spinal cord injury11. Infections and spinal cord injury: Covid 19 and beyond12. Treating sleep problems in spinal cord injury

III. Diagnosis and Evaluation13. Biomarkers in spinal cord injury14. Quality of life tools for spinal cord injured people15. S100 in spinal cord injury16. Balance measures and assessments in spinal cord injury: a narrative

IV. Treatments: Experimental and Clinical17. Surgical management of acute spinal cord injury in emergency departments18. Spinal cord epidural stimulation for autonomic nervous system control 19. Treating spinal cord injury with implanted spinal cord stimulators20. Bowel dysfunction in spinal cord injury 21. Management of lower urinary tract dysfunction 22. Bed and mattress for preventing pressure injuries after spinal cord injury23. Nerve and tendon transfers in tetraplegia: a new narrative 24. Gemini-supported spinal cord transplantation for the treatment of chronic spinal paralysis25. Chondroitinase ABC I as a novel candidate for reducing damage in spinal cord injury26. Phenol neurolysis for the management of spasticity in people with spinal cord injury27. Anti-repulsive guidance molecule-a antibody (RGMa) treatment in spinal cord injury28. Mitochondrial biogenesis for the treatment of spinal cord injury29. Exploring the exogenous and endogenous effects of melatonin on spinal cord injury30. High-intensity interval training in spinal cord injury31. Stem cells and chronic spinal cord injury: overview32. Gene therapy in spinal cord injury 33. Curcumin usage inflammation and spinal cord injury34. Use of (-)-epigallocatechin-3-gallate on spinal cord injury 35. Vitamin D supplementation for active individuals with spinal cord injury 36. Corticospinal tract regeneration after spinal cord injury: implications for treatment and recovery37. Trophic factors in patients with spinal cord injury

V. Rehabilitation in Spinal Injury38. Spinal cord injury: Multiple Family Group (MFG) education and support39. Spinal cord injury rehabilitation: linking service delivery and community integration40. Rehabilitation in spinal cord injury: Exercise and testing for cardiorespiratory endurance and musculoskeletal fitness41. Community based activity-based therapy for spinal cord injuries rehabilitation42. Rehabilitation and the Self-Management App: spinal cord injury43. Biomaterials and spinal cord injury and rehabilitation: a new narrative 44. Support in spinal cord injury: a focus on robotics

VI. Resources45. Research and Resources

Cellular, Molecular, Physiological, and Behavioral Aspects of Spinal Cord Injury:I. Setting The Scene and Introductory Chapters1. Causes of spinal injury: motor vehicle accidents and beyond 2. MRI findings in spinal cord injury during acute and chronic phases3. Exercise programs in spinal cord injury4. Use of anodal transcranial direct current stimulation: features, facets and applications to incomplete spinal cord injury5. Neuromodulation and restoration of motor responses after severe spinal cord injury 6. Rehabilitation and wheelchair users after spinal cord injury: an overview

II. Cellular and Molecular Aspects of Spinal Injury7. Gene expression, bone loss and spinal cord injury8. Sperm DNA fragmentation and its relevance to men with spinal cord injury9. Cytokines and spinal cord injury10. Interleukin-10, vascular pathology in traumatic cervical Spinal cord injury11. Protein Degradome in Spinal Cord Injury12. Proteomics of Pressure Ulcers in Spinal cord injury13. Innate immune responses of glia and inflammatory cells in spinal cord injury14. The role of oxidative stress in spinal cord injury animal models: a focus on nuclear factor erythroid-2 related factor 215. Novel agent ONO-2506 suppresses astrocytic activation and attenuates post-spinal cord injury pain16. Histology, neural tissue loss and compression-induced spinal cord injury17. Remodeling mitochondrial transport and cellular energetics in axonal regeneration and spinal cord injury18. Neurotrophins and their Role in Axonal Outgrowth Following Spinal Cord Injury19. The neuroscience of transient receptor potential vanilloid type 4 (TRPV4) and spinal cord injury20. Autoantibodies in spinal cord injury21. Calpain role in the pathophysiology of spasticity after spinal cord injury22. Targeting mTOR Signaling to Promote Autophagy for Functional Recovery after Spinal Cord Injury23. Tertiary damage: Hippocampal and brain changes after spinal cord injury

III. Physiological and Metabolic Effects24. Hormonal events and spinal cord injury: a focus on vasopressin and natriuretic peptide25. Linking sensorimotor plasticity, the motor cortex and spinal cord injury26. Bone mass and spinal cord injury: risk of fracture27. Functional and morphological re-organization of the brain following spinal cord injury : Insights from MRI28. Cardiometabolic changes and upper extremity exercise as an augmentative strategy in spinal cord injury29. Electrophysiological outcome measures in spinal cord injury: a new narrative 30. Features and Physiology of Spinal Stretch Reflex Pathways in People with Chronic Spinal Cord Injury31. Metabolic syndrome iin spinal cord injury: impact on health32. Body composition and spinal cord injury33. Energy requirements and spinal cord injury34. Virtual walking and spinal cord injury neuropathic pain35. Cervical spinal cord injury and thermoregulatory processes: a new narrative36. Spinal cord injury and the gut microbiota

IV. Behavioural and Psychological Effects37. Risk factors and predictors of depression after spinal cord injury: emphasis on the inflammatory process38. Spirituality, hope, and resilience in the recovery and adaptation process following spinal cord injury39. Wellness intervention for spinal cord injuries40. Sexual satisfaction and spinal cord injury41. Depressive symptoms in rehabilitation, spinal cord injury42. Self-Harm behaviors in Patients with Spinal Cord Injuries: From Nonadherence to Suicide