osteogenic
简明释义
英[ˌɒstiːəˈdʒenɪk]美[ˌɑstiəˈdʒenɪk]
adj. 成骨的
英英释义
与骨骼形成有关的。 | |
Referring to cells or tissues that contribute to the development of bone. | 指那些有助于骨骼发育的细胞或组织。 |
单词用法
成骨细胞 | |
成骨潜力 | |
成骨分化 | |
成骨肉瘤 | |
成骨组织 | |
成骨因子 |
同义词
反义词
溶骨的 | 溶骨活动会导致骨骼流失。 | ||
分解代谢的 | 分解代谢过程将组织分解以获取能量。 |
例句
1.Objectives:To study the inhibitory effect of hexamethylene bisacetamide (HMBA)combined with taxol on human osteogenic sarcoma cell line OS 9901.
目的:研究六亚甲基双乙酰胺(HMBA)与紫杉醇合用对人骨肉瘤OS 990 1细胞的抑制作用。
2.On cellular level, the fraction of ethyl acetate could promote osteogenic differentiation and showed no inhibition on adipogenic differentiation of MSCs.
细胞水平上淫羊藿乙酸乙酯萃取部位可以促进小鼠骨髓基质细胞向成骨细胞分化而不抑制其向脂肪细胞分化。
3.Conclusion: The free bone periosteum-bone marrow mononuclear cells cement ha has a significant osteogenic competence. It can efficiently repair bone defects.
结论:骨膜、骨髓单个核细胞、纳米羟基磷灰石复合的成骨作用优秀,可有效促进骨缺损愈合。
4.Li: My diagnosis is that you have a malignant tumor osteogenic sarcoma.
李:我的诊断是您患了恶性骨原性肉瘤。
5.Objective: To determine the efficacy of osteogenic protein-1 (OP-1) used in posterior lumbar spinal fusion.
目的:探讨成骨蛋白- 1 (OP - 1)在脊柱融合术中的作用。
6.The healing of fracture mainly is the acceleration of osteogenic activities and endochondral ossification.
骨折愈合主要是成骨活动及软骨内化骨加速。
7.CONCLUSION: Transfection with VEGF 165 gene can promote the osteogenic differentiation of cultured MSCs.
结论:血管内皮生长因子基因转染可促进骨髓基质细胞的成骨分化。
8.The research focused on the role of osteogenic 成骨的 cells in bone regeneration.
这项研究关注于
9.In patients with osteoporosis, osteogenic 成骨的 activity is often diminished.
在患有骨质疏松症的患者中,成骨的活动通常会减弱。
10.The osteogenic 成骨的 process is crucial during the healing of fractures.
在骨折愈合过程中,成骨的过程至关重要。
11.Stem cells have the potential to differentiate into osteogenic 成骨的 cells for tissue engineering.
干细胞有潜力分化为
12.Certain growth factors can enhance osteogenic 成骨的 differentiation in vitro.
某些生长因子可以增强体外的
作文
The human body is a marvel of biological engineering, composed of various tissues that work in harmony to support life. One crucial aspect of this intricate design is the skeletal system, which provides structure, protection, and support for our organs. A fascinating area of study within the field of biology and medicine is the process of bone formation, known as ossification. This process is particularly interesting when we consider the role of cells that are responsible for generating new bone tissue. These cells are referred to as osteogenic cells, which means they are involved in the formation of bone. Understanding the function of osteogenic cells is essential for both basic science and clinical applications, especially in treating conditions like osteoporosis or fractures. Osteogenic cells originate from mesenchymal stem cells and have the unique ability to differentiate into various types of cells necessary for bone formation. Among these are osteoblasts, which are responsible for producing the bone matrix and facilitating mineralization. The importance of osteogenic cells cannot be overstated; without them, our bones would not be able to grow, repair, or maintain themselves. This regenerative ability is vital not only during childhood and adolescence when our skeletons are developing but also throughout adulthood as we face injuries or age-related bone loss. Research into osteogenic cells has revealed fascinating insights into how these cells communicate with one another and their environment. For example, they respond to mechanical stress, which is why weight-bearing exercises are often recommended to promote bone health. When we engage in physical activity, osteogenic cells are stimulated, leading to increased bone density and strength. This dynamic relationship between exercise and bone health highlights the importance of maintaining an active lifestyle, particularly as we age. Moreover, advancements in regenerative medicine are exploring ways to harness the power of osteogenic cells for therapeutic purposes. Scientists are investigating methods to stimulate these cells to enhance bone healing in patients with severe fractures or those undergoing orthopedic surgeries. Additionally, there is ongoing research into the potential of using osteogenic cells in tissue engineering, where they could be used to create artificial bone grafts that can integrate with the patient’s existing bone. In conclusion, the study of osteogenic cells is a vital area of research that holds promise for improving bone health and healing. By understanding how these cells function and how they can be manipulated, we may be able to develop innovative treatments for various bone-related conditions. As we continue to learn more about the complexities of our skeletal system, the role of osteogenic cells will undoubtedly remain a key focus in the quest for better health and longevity.
人体是生物工程的奇迹,由各种组织组成,这些组织和谐地工作以支持生命。这个复杂设计的一个关键方面是骨骼系统,它为我们的器官提供结构、保护和支持。在生物学和医学领域中,骨形成过程(称为成骨)是一个特别有趣的研究领域。当我们考虑负责生成新骨组织的细胞时,这一过程显得尤为重要。这些细胞被称为osteogenic细胞,这意味着它们参与骨的形成。理解osteogenic细胞的功能对基础科学和临床应用至关重要,尤其是在治疗骨质疏松症或骨折等疾病时。 Osteogenic细胞源自间充质干细胞,具有分化为骨形成所需的各种细胞的独特能力。其中包括成骨细胞,它们负责产生骨基质并促进矿化。Osteogenic细胞的重要性不容小觑;没有它们,我们的骨头就无法生长、修复或维持自身。这种再生能力在儿童和青少年时期尤为重要,因为我们的骨骼正在发育,而在成年后,我们面临着受伤或与年龄相关的骨丢失时也同样重要。 对osteogenic细胞的研究揭示了这些细胞如何彼此以及与环境进行沟通的迷人见解。例如,它们会对机械压力做出反应,这就是为什么经常建议进行负重锻炼以促进骨骼健康的原因。当我们参与体育活动时,osteogenic细胞会受到刺激,从而导致骨密度和强度增加。这种锻炼与骨骼健康之间的动态关系强调了保持积极生活方式的重要性,尤其是随着年龄的增长。 此外,再生医学的进展正在探索如何利用osteogenic细胞的力量用于治疗目的。科学家们正在研究刺激这些细胞以增强严重骨折患者或接受骨科手术患者骨愈合的方法。此外,关于使用osteogenic细胞进行组织工程的研究仍在进行中,其中它们可以用于创建能够与患者现有骨骼整合的人工骨移植物。 总之,osteogenic细胞的研究是一个重要的研究领域,为改善骨骼健康和愈合带来了希望。通过了解这些细胞的功能以及如何操控它们,我们可能能够开发出创新的治疗方法来应对各种与骨骼相关的疾病。随着我们继续深入了解骨骼系统的复杂性,osteogenic细胞的角色无疑将继续成为追求更好健康和长寿的关键焦点。
文章标题:osteogenic的意思是什么
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