chondroblast

简明释义

英[/ˈkɒndrəʊblæst/]美[/ˈkɒndrəʊblæst/]

n. [基医] 成软骨细胞

英英释义

单词用法

同义词

反义词

例句

1.Objective To explore whether mesenchymal stem cells could be isolated from human umbilical cord blood and would be able to differentiate into chondroblast in vitro.

目的：探讨人脐带血间充质干细胞存在及体外向成软骨细胞分化的可能性。

2.Objective To explore whether mesenchymal stem cells could be isolated from human umbilical cord blood and would be able to differentiate into chondroblast in vitro.

目的：探讨人脐带血间充质干细胞存在及体外向成软骨细胞分化的可能性。

3.An increase in chondroblast activity can be beneficial for patients with osteoarthritis.

增加软骨母细胞的活性对患有骨关节炎的患者是有益的。

4.The study focused on the role of chondroblast in cartilage formation during embryonic development.

这项研究集中在软骨母细胞在胚胎发育过程中形成软骨的作用。

5.In adults, chondroblast activity decreases, which can lead to joint problems.

在成年人中，软骨母细胞的活性减少，这可能导致关节问题。

6.The differentiation of mesenchymal stem cells into chondroblast is crucial for cartilage tissue engineering.

间充质干细胞向软骨母细胞的分化对软骨组织工程至关重要。

7.Researchers are exploring how to stimulate chondroblast proliferation to heal damaged cartilage.

研究人员正在探索如何刺激软骨母细胞增殖以修复受损的软骨。

作文

The human body is a complex structure made up of various types of cells, each serving a unique function. One such crucial type of cell is the chondroblast, which plays a vital role in the formation of cartilage. Cartilage is a flexible connective tissue found in many areas of the body, including the joints, rib cage, ear, nose, and between vertebrae. Understanding the function of chondroblasts can provide insight into how our bodies develop and maintain healthy joints and tissues.Chondroblasts are specialized cells responsible for producing and maintaining the cartilaginous matrix, which consists of collagen fibers and proteoglycans. These components are essential for giving cartilage its strength and elasticity. When we think about the importance of cartilage, it is easy to overlook the foundational work done by chondroblasts. Without these cells, our bodies would lack the necessary support structures that allow for smooth movement and flexibility.During the early stages of development, chondroblasts are crucial for the formation of the skeletal system. They proliferate and synthesize the extracellular matrix, which eventually leads to the creation of cartilage models that serve as precursors to bone. This process, known as endochondral ossification, is fundamental for the proper growth of long bones and overall skeletal integrity.In adults, chondroblasts continue to play an important role in maintaining cartilage health. They respond to mechanical stress and signaling molecules, helping to repair damaged cartilage and ensure that it remains functional. However, with age or injury, the activity of chondroblasts can decrease, leading to conditions such as osteoarthritis, where the cartilage deteriorates, causing pain and reduced mobility.Research has shown that enhancing the activity of chondroblasts may offer potential therapeutic avenues for treating cartilage-related disorders. Scientists are exploring various methods, such as stem cell therapy and tissue engineering, to stimulate chondroblast activity and promote cartilage regeneration. By understanding how these cells work, researchers hope to develop effective treatments that can restore cartilage function and improve the quality of life for those suffering from joint pain.In conclusion, chondroblasts are essential cells that contribute significantly to the development and maintenance of cartilage in the human body. Their ability to produce and sustain the cartilaginous matrix is critical for ensuring the structural integrity and functionality of our joints. As research continues to advance, the potential for harnessing the power of chondroblasts in regenerative medicine offers hope for better treatment options for cartilage-related diseases. Understanding the role of these remarkable cells not only highlights their importance in our anatomy but also opens new doors for medical advancements in the future.

人类身体是一个复杂的结构，由各种类型的细胞组成，每种细胞都有其独特的功能。其中一种重要的细胞类型是软骨母细胞，它在软骨形成中发挥着至关重要的作用。软骨是一种柔韧的结缔组织，存在于身体的许多部位，包括关节、肋骨、耳朵、鼻子和椎骨之间。理解软骨母细胞的功能可以让我们深入了解我们的身体是如何发育和维持健康的关节和组织的。软骨母细胞是负责产生和维持软骨基质的特殊细胞，这种基质由胶原纤维和蛋白聚糖组成。这些成分对赋予软骨强度和弹性至关重要。当我们想到软骨的重要性时，很容易忽视软骨母细胞所做的基础工作。如果没有这些细胞，我们的身体将缺乏必要的支撑结构，从而无法实现平滑的运动和灵活性。在发育的早期阶段，软骨母细胞对骨骼系统的形成至关重要。它们增殖并合成细胞外基质，最终导致软骨模型的创建，这些模型作为骨骼的前体。这一过程称为内源性骨化，对长骨的适当生长和整体骨骼完整性至关重要。在成年人中，软骨母细胞继续在维护软骨健康中发挥重要作用。它们对机械压力和信号分子作出反应，帮助修复受损的软骨，确保其保持功能。然而，随着年龄或损伤的增加，软骨母细胞的活动可能会减少，导致如骨关节炎等疾病的发生，软骨退化，造成疼痛和活动能力下降。研究表明，增强软骨母细胞的活性可能为治疗与软骨相关的疾病提供潜在的治疗途径。科学家们正在探索各种方法，如干细胞疗法和组织工程，以刺激软骨母细胞的活性并促进软骨再生。通过了解这些细胞的工作原理，研究人员希望开发出有效的治疗方案，以恢复软骨功能，提高那些遭受关节疼痛者的生活质量。总之，软骨母细胞是对人类身体软骨的发育和维护至关重要的细胞。它们产生和维持软骨基质的能力对于确保我们关节的结构完整性和功能至关重要。随着研究的不断推进，利用软骨母细胞的潜力在再生医学中提供了希望，为软骨相关疾病提供更好的治疗选择。理解这些非凡细胞的角色不仅突显了它们在我们解剖学中的重要性，还为未来的医学进步打开了新大门。