肌肉萎缩症
MSC therapy has shown potential in improving muscle strength, 增加流动性, 并减少各种形式的肌营养不良症患者的肌肉萎缩. 间充质干细胞通过促进肌纤维再生发挥作用, 刺激肌肉前体细胞的产生, 并减少纤维化. They secrete growth factors that enhance muscle regeneration and reduce the inflammatory response that contributes to muscle degeneration. By supporting tissue repair and reducing muscle wasting, MSCs may slow disease progression and improve muscle function in patients with muscular dystrophy.
82. 慢性阻塞性肺疾病 (慢性阻塞性肺病)
MSC therapy for COPD has demonstrated potential in improving lung function, 减少炎症, and enhancing the repair of damaged lung tissues. MSCs work by reducing inflammation in the lungs and stimulating the regeneration of epithelial cells and other lung tissues. They also promote the repair of damaged alveolar structures and improve airway function. By modulating the immune system and enhancing lung tissue regeneration, MSCs may help improve breathing, 减轻症状, and slow the progression of COPD.
83. 哮喘
MSC therapy has shown promise in reducing airway inflammation, 改善肺功能, and reducing asthma attacks. 间充质干细胞通过调节免疫反应来提供帮助, reducing the levels of pro-inflammatory cytokines, and promoting the regeneration of damaged lung tissue. They also help restore normal airway function and reduce bronchial hyperresponsiveness. By reducing inflammation and enhancing tissue repair, MSC therapy may lead to improved asthma control and reduced frequency of asthma exacerbations.
84. 肺纤维化
In pulmonary fibrosis, MSC therapy has been shown to improve lung function, 减少纤维化, 并促进组织再生. MSCs work by secreting growth factors that stimulate the repair of damaged lung tissue and reduce the formation of scar tissue. 它们还可以减少炎症并调节免疫反应, which are key contributors to the progression of pulmonary fibrosis. By promoting the regeneration of alveolar cells and reducing fibrosis, MSCs may slow disease progression and improve breathing capacity.
85. 气肿
MSC therapy for emphysema has demonstrated potential in reducing lung tissue damage, improving airflow, and enhancing lung regeneration. MSCs help by reducing inflammation and promoting the regeneration of damaged alveolar cells. They also stimulate the repair of lung tissues affected by emphysema and support the repair of damaged pulmonary vasculature. 通过促进组织再生和减少炎症, MSCs may help improve lung function, 减少呼吸短促, and slow the progression of emphysema.
86. 囊性纤维化
MSC therapy for cystic fibrosis has shown promise in improving lung function, reducing airway inflammation, and enhancing tissue repair in the lungs. MSCs work by secreting growth factors that promote the regeneration of epithelial cells in the lung tissues and reduce the inflammatory response that contributes to mucus buildup. They also support the repair of damaged lung structures and improve mucociliary clearance. 通过减少炎症和促进组织修复, MSCs may help slow disease progression and improve lung function in cystic fibrosis patients.
87. 高血压 (高血压)
MSC therapy for hypertension has shown potential in reducing blood pressure, improving vascular function, and enhancing cardiovascular health. MSCs work by promoting the repair of damaged blood vessels, reducing vascular stiffness, and improving endothelial function. 它们还有助于减少炎症和氧化应激, which are contributors to hypertension. By promoting tissue repair and improving vascular health, MSCs may help regulate blood pressure and reduce the risk of cardiovascular complications associated with hypertension.
88. 动脉粥样硬化
MSC therapy for atherosclerosis has demonstrated potential in reducing plaque buildup in the arteries, 改善血液流动, and reducing the risk of heart disease. MSCs work by promoting the repair of damaged blood vessels, 减少炎症, and improving endothelial function. They also help reduce the accumulation of lipids in the arteries and inhibit the progression of atherosclerotic plaques. By improving vascular health and reducing arterial stiffness, MSCs may slow the progression of atherosclerosis and improve cardiovascular function.
89. 周围动脉疾病 (软垫)
In peripheral artery disease, MSC therapy has shown promise in improving blood flow, 减轻疼痛, and enhancing tissue regeneration in the affected limbs. MSCs work by promoting angiogenesis (新血管的形成) and improving endothelial function in the peripheral arteries. 它们还有助于减少炎症和氧化应激, which contribute to arterial damage. By improving circulation and promoting tissue repair, MSCs may help reduce pain and improve mobility in patients with PAD.
90. 中风康复
MSC therapy for stroke rehabilitation has been shown to enhance recovery by improving motor function, reducing brain damage, 并刺激神经发生. MSCs help by secreting neuroprotective factors that stimulate the growth of new neurons and promote the repair of damaged brain tissue. 它们还可以减少大脑中的炎症和氧化应激, which are key contributors to stroke damage. By promoting tissue regeneration and enhancing neuroplasticity, MSCs help improve motor skills and cognitive function during stroke recovery.
91. 脊髓损伤
MSC therapy for spinal cord injury has shown potential in improving motor function, 减少炎症, and promoting tissue regeneration in the spinal cord. MSCs help by secreting neurotrophic factors that stimulate the regeneration of nerve cells and promote axon growth. They also reduce inflammation and scar tissue formation in the injured spinal cord, creating an environment conducive to neural repair. By enhancing tissue regeneration and reducing inflammation, MSCs can improve motor function and support recovery in spinal cord injury patients.
92. 骨质疏松症
MSC therapy for osteoporosis has shown promise in improving bone density, reducing fractures, and enhancing bone regeneration. MSCs work by promoting the differentiation of osteoblasts (骨形成细胞) and stimulating the production of bone matrix. They also reduce inflammation and oxidative stress, which contribute to bone loss. By enhancing bone formation and reducing bone resorption, MSCs may help slow the progression of osteoporosis and reduce the risk of fractures.
93. Osteomalacia
MSC therapy for osteomalacia has demonstrated potential in improving bone mineralization, 减轻疼痛, and enhancing overall bone health. MSCs help by promoting the differentiation of osteoblasts and enhancing bone mineralization. They also support the repair of damaged bone tissue and reduce inflammation that contributes to the weakening of the bones. By stimulating bone regeneration and improving bone mineral density, MSC therapy may help restore bone strength and reduce symptoms of osteomalacia.
94. Paget’s Disease of Bone
MSC therapy for Paget’s disease of bone has shown potential in reducing bone pain, improving bone strength, and promoting bone regeneration. MSCs work by stimulating osteoblast activity and promoting the healing of abnormal bone tissue. They also help reduce inflammation and modulate the immune response, which can contribute to the abnormal bone remodeling seen in Paget’s disease. By promoting bone repair and reducing inflammation, MSCs may help slow disease progression and improve bone health.
95. 骨折
MSC therapy for bone fractures has demonstrated potential in accelerating healing, 减轻疼痛, and improving bone regeneration. MSCs help by promoting osteogenesis (骨形成) and enhancing the healing of bone fractures. They also secrete growth factors that stimulate bone repair and reduce inflammation. By enhancing the regeneration of bone tissue and supporting the formation of new bone, MSCs can accelerate fracture healing and improve bone strength.
96. 肌腱损伤
MSC therapy has shown promise in improving tendon healing, 减轻疼痛, and enhancing overall recovery from tendon injuries. MSCs help by promoting the regeneration of tendon cells and supporting collagen synthesis, which is crucial for tendon repair. They also reduce inflammation and support tissue remodeling, which is essential for proper tendon function. By promoting tissue repair and reducing fibrosis, MSCs can help improve tendon strength and reduce recovery time following tendon injuries.
97. 韧带损伤
In ligament injuries, MSC therapy has demonstrated potential in improving ligament healing, 减轻疼痛, and enhancing joint stability. MSCs work by promoting the regeneration of ligament tissue, stimulating collagen production, 并减少炎症. They also support tissue remodeling and help restore the biomechanical properties of the ligament. By enhancing ligament regeneration and reducing scar tissue formation, MSC therapy can improve joint stability and reduce pain associated with ligament injuries.
98. Cartilage Injuries
MSC therapy for cartilage injuries has shown potential in promoting cartilage regeneration, 减轻疼痛, 并改善关节功能. MSCs help by differentiating into chondrocytes (软骨细胞) and promoting the production of extracellular matrix components. They also help reduce inflammation and stimulate tissue repair in damaged cartilage. By promoting cartilage regeneration and reducing inflammation, MSC therapy can enhance joint mobility and reduce pain associated with cartilage injuries.
99. 股骨头坏死
MSC therapy for avascular necrosis has shown promise in improving bone healing, 减轻疼痛, and promoting tissue regeneration in the affected bones. MSCs work by promoting osteogenesis and enhancing the repair of damaged bone tissue. They also help improve blood flow to the affected area and reduce inflammation, which contributes to bone cell death. By stimulating bone regeneration and improving vascularization, MSC therapy can help restore bone integrity and reduce symptoms of avascular necrosis.
100. 关节炎 (一般的)
MSC therapy for arthritis has demonstrated potential in reducing joint pain, 改善流动性, and promoting tissue regeneration in the affected joints. MSCs help by reducing inflammation, 调节免疫反应, and promoting the regeneration of cartilage and synovial tissue. They also secrete growth factors that stimulate tissue repair and reduce fibrosis. By enhancing tissue regeneration and reducing inflammation, MSC therapy can help reduce pain, 改善关节功能, and slow the progression of arthritis.
