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相关概念视频

Development of the Limb Synovial Joints01:07

Development of the Limb Synovial Joints

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Joints form during embryonic development in conjunction with the formation and growth of the associated bones. The embryonic tissue that gives rise to all bones, cartilage, and connective tissues of the body is called mesenchyme.
The mesenchymal stem cells differentiate into chondrocytes that form the hyaline cartilage, and later the cartilaginous model of the bone. This model further transforms into a bone. This process is known as endochondral ossification.
During development, the limbs...
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Changes in the Appendicular Skeleton with Age01:09

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The upper and lower limb initially develops as a small bulge called a limb bud, which appears on the lateral side of the early embryo. The upper limb bud appears near the end of the fourth week of development, with the lower limb bud appearing shortly after.
Initially, the limb buds consist of a core of mesenchyme covered by a layer of ectoderm. The ectoderm at the end of the limb bud thickens to form a narrow crest called the apical ectodermal ridge. This ridge stimulates the underlying...
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Bones of the Lower Limb: Femur and Patella01:16

Bones of the Lower Limb: Femur and Patella

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The femur is the body's longest and strongest bone spanning the thigh region. Its head articulates with the acetabulum of the hip bone to form the hip joint. A minor indentation on the medial side of the femoral head, called the fovea capitis, serves as the site of attachment for the ligament of the head of the femur. This weak ligament spans the femur and acetabulum and supports the hip joint. The narrowed region below the head is the neck of the femur. The inclination angle between the...
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Bone Formation by Intramembranous Ossification01:29

Bone Formation by Intramembranous Ossification

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Intramembranous ossification is one of the two processes involved in the development of bones within an embryo. The flat bones of the face, most of the cranial bones, and the clavicles are formed via this process. During intramembranous ossification, the bones develop directly from sheets of undifferentiated mesenchymal connective tissue.
The process begins when mesenchymal cells in the embryonic skeleton gather together and differentiate into osteogenic cells, which then develop into ...
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Bones of the Lower Limb: Tibia and Fibula01:10

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The tibia is the main weight-bearing bone of the lower leg. It is larger than the fibula with which it is paired. The tibia is also the second longest bone in the body and is located right below the skin. The proximal end of the tibia forms the medial and the lateral condyle, which articulates with the condyles of the femur to form the knee joint. Between the articulating surfaces is the irregular elevated area known as the intercondylar eminence that serves as the inferior attachment point for...
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Embryonic Connective Tissues01:20

Embryonic Connective Tissues

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During early development, the embryo forms two types of connective tissues— the mesenchyme and mucoid connective tissue.
The mesenchyme is the first connective tissue that emerges in the developing embryo. It consists of loosely arranged multipotent mesenchymal cells and reticular fibers in the extracellular matrix. This loose arrangement allows easy migration of cells, which is essential for germ layer positioning, patterning, and organ morphogenesis during embryonic development.
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在胎儿的下肢骨膜.

Katarzyna Siwek1,2, Arthur Saniotis3,4, Małgorzata Suchanecka5

  • 1Department of Human Morphology and Embryology, Division of Anatomy, Wroclaw Medical University, Wrocław, Poland. katarzyna.siwek@umw.edu.pl.

Folia morphologica
|November 22, 2024
PubMed
概括

腿骨间膜 (LIM) 有纤维沿纵,斜和横贯运行. 这项研究分析了胎儿的LIM结构,并发现了基于性别的差异,这表明上肢重建的可能性.

关键词:
人类胎儿人类胎儿腿 骨间膜 骨间膜性二重形性质性质二重形性质.

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科学领域:

  • 人体解剖学 解剖学 解剖学
  • 生物医学工程 生物医学工程
  • 整形外科 整形外科 整形外科

背景情况:

  • 腿骨间膜 (LIM) 为骨和骨提供了稳定性.
  • 它作为几个关键的下肢肌肉的附着部位.
  • LIM的原纤维网络对其耐用性至关重要.

研究的目的:

  • 为了研究胎儿腿骨内膜 (LIM) 的变性.
  • 分析胎儿LIM中的原纤维的方向排列和大小.
  • 探索LIM在重建性手术中的潜在应用.

主要方法:

  • 研究了222个人类胎儿 (怀孕117-197天).
  • 利用一种新的染色技术可视化LIM的综合体结构.
  • 评估了纤维的方向 (纵向,斜向,横向) 和LIM大小.

主要成果:

  • LIM纤维主要以纵向,斜向和横向方向运行 (60-70%的频率).
  • 在男性和女性胎儿之间观察到纤维方向频率和LIM大小的显著差异.
  • 确定了LIM的性二态特征.

结论:

  • LIM的方向和尺寸特征表明其在重建上肢骨膜中的潜在用途.
  • 在LIM中观察到的基于性别的差异支持性别之间的下肢生长动态.