damaged fibrocartilage
受损纤维软骨
fibrocartilage tissue
纤维软骨组织
knee fibrocartilage
膝关节纤维软骨
fibrocartilage repair
纤维软骨修复
fibrocartilage regeneration
纤维软骨再生
fibrocartilage cells
纤维软骨细胞
articular fibrocartilage
关节纤维软骨
fibrocartilage transplant
纤维软骨移植
fibrocartilage injury
纤维软骨损伤
fibrocartilage defect
纤维软骨缺陷
fibrocartilage tissue provides structural support in areas subject to heavy mechanical stress.
纤维软骨组织在承受剧烈机械应力区域提供结构支撑。
fibrocartilage cells synthesize both collagen and proteoglycans in the extracellular matrix.
纤维软骨细胞在细胞外基质中合成胶原蛋白和蛋白多糖。
the formation of fibrocartilage occurs during wound healing in certain connective tissues.
在某些结缔组织中,纤维软骨的形成发生在伤口愈合过程中。
damage to fibrocartilage can lead to joint pain and reduced mobility.
纤维软骨损伤可能导致关节疼痛和活动能力下降。
fibrocartilage degeneration is commonly associated with osteoarthritis progression.
纤维软骨退化通常与骨关节炎进展相关。
the unique structure of fibrocartilage combines features of both fibrous and cartilaginous tissue.
纤维软骨的独特结构结合了纤维组织和软骨组织的特征。
intervertebral discs contain fibrocartilage that absorbs shock between vertebrae.
椎间盘含有纤维软骨,在椎骨之间吸收冲击。
fibrocartilage plays a crucial role in the menisci of the knee joint.
纤维软骨在膝关节的半月板中发挥着至关重要的作用。
researchers are developing biomaterials to enhance fibrocartilage repair after injury.
研究人员正在开发生物材料以增强纤维软骨在受伤后的修复。
fibrocartilage development involves complex signaling pathways during embryogenesis.
纤维软骨的发育涉及胚胎发生过程中的复杂信号通路。
the fibrocartilage matrix provides tensile strength and resistance to compression.
纤维软骨基质提供抗拉强度和抗压缩能力。
physical therapy can promote fibrocartilage healing in minor injuries.
物理治疗可以促进纤维软骨在轻微损伤中的愈合。
fibrocartilage serves as a transition zone between tendons and articular cartilage.
纤维软骨作为肌腱和关节软骨之间的过渡区域发挥作用。
age-related changes can affect fibrocartilage composition and function.
与年龄相关变化会影响纤维软骨的组成和功能。
surgical intervention may be necessary for severe fibrocartilage damage.
对于严重的纤维软骨损伤可能需要手术干预。
damaged fibrocartilage
受损纤维软骨
fibrocartilage tissue
纤维软骨组织
knee fibrocartilage
膝关节纤维软骨
fibrocartilage repair
纤维软骨修复
fibrocartilage regeneration
纤维软骨再生
fibrocartilage cells
纤维软骨细胞
articular fibrocartilage
关节纤维软骨
fibrocartilage transplant
纤维软骨移植
fibrocartilage injury
纤维软骨损伤
fibrocartilage defect
纤维软骨缺陷
fibrocartilage tissue provides structural support in areas subject to heavy mechanical stress.
纤维软骨组织在承受剧烈机械应力区域提供结构支撑。
fibrocartilage cells synthesize both collagen and proteoglycans in the extracellular matrix.
纤维软骨细胞在细胞外基质中合成胶原蛋白和蛋白多糖。
the formation of fibrocartilage occurs during wound healing in certain connective tissues.
在某些结缔组织中,纤维软骨的形成发生在伤口愈合过程中。
damage to fibrocartilage can lead to joint pain and reduced mobility.
纤维软骨损伤可能导致关节疼痛和活动能力下降。
fibrocartilage degeneration is commonly associated with osteoarthritis progression.
纤维软骨退化通常与骨关节炎进展相关。
the unique structure of fibrocartilage combines features of both fibrous and cartilaginous tissue.
纤维软骨的独特结构结合了纤维组织和软骨组织的特征。
intervertebral discs contain fibrocartilage that absorbs shock between vertebrae.
椎间盘含有纤维软骨,在椎骨之间吸收冲击。
fibrocartilage plays a crucial role in the menisci of the knee joint.
纤维软骨在膝关节的半月板中发挥着至关重要的作用。
researchers are developing biomaterials to enhance fibrocartilage repair after injury.
研究人员正在开发生物材料以增强纤维软骨在受伤后的修复。
fibrocartilage development involves complex signaling pathways during embryogenesis.
纤维软骨的发育涉及胚胎发生过程中的复杂信号通路。
the fibrocartilage matrix provides tensile strength and resistance to compression.
纤维软骨基质提供抗拉强度和抗压缩能力。
physical therapy can promote fibrocartilage healing in minor injuries.
物理治疗可以促进纤维软骨在轻微损伤中的愈合。
fibrocartilage serves as a transition zone between tendons and articular cartilage.
纤维软骨作为肌腱和关节软骨之间的过渡区域发挥作用。
age-related changes can affect fibrocartilage composition and function.
与年龄相关变化会影响纤维软骨的组成和功能。
surgical intervention may be necessary for severe fibrocartilage damage.
对于严重的纤维软骨损伤可能需要手术干预。
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