osteogenetic
简明释义
英[ˌɒstɪoʊdʒəˈnɛtɪk]美[ˌɑːstɪoʊdʒəˈnɛtɪk]
骨生成的
英英释义
与骨骼的形成和发展有关。 |
单词用法
骨生成组织 | |
骨生成潜力 | |
骨生成因子 | |
骨生成细胞 | |
骨生成过程 | |
骨生成活性 |
同义词
成骨的 | 成骨细胞对于骨骼的生长和修复至关重要。 |
反义词
骨溶解的 | 骨溶解性病变会削弱骨骼结构。 | ||
分解代谢的 | 体内的分解代谢过程会分解组织。 |
例句
1.OBJECTIVE To probe into skeletal muscular changes during osteogenetic process in bone defect repair with vascularized muscle flap that was taken as the carrier of bone morphogenetic protein BMP.
目的:探讨带血供肌瓣作为骨形态发生蛋白载体修复骨缺损成骨过程中骨骼肌的变化。
2.OBJECTIVE To probe into skeletal muscular changes during osteogenetic process in bone defect repair with vascularized muscle flap that was taken as the carrier of bone morphogenetic protein BMP.
目的:探讨带血供肌瓣作为骨形态发生蛋白载体修复骨缺损成骨过程中骨骼肌的变化。
3.Objective To observe the differences of the osteogenetic ability and the healing process between the natural non-organic bone (NNB) in subperiosteal implantation and in bone defect implantation.
目的观察天然型无机骨骨缺损内与骨膜下植入后在成骨能力、愈合过程上的差异。
4.Autografts, both cancellous and cortical, are usually implanted fresh and are often osteogenetic, whether by providing a source of osteoprogenitor cells or by being osteoinductive.
自体骨移植,包括松质骨和皮质骨,通常现采现植并具有成骨活性,可以提供骨生成细胞或者具有骨诱导活性。
5.AIM: To investigate the osteogenetic ability of calcium sulfate bone graft in posterolateral lumbar spinal fusion by comparing with local compression bone.
目的:在腰椎后外侧融合中,通过与自体减压骨进行比较,评价医用硫酸钙在腰椎后外侧融合中的成骨能力。
6.The periosteal flap with blood supplied muscle pedicle has good osteogenetic potency which is suit- able to meet the specificIty of tracheal repalr.
有血供的骨膜瓣具备良好的成骨能力,符合气管壁的特殊要求。
7.Objective To establish the animal models of mandibular distraction osteogenesis in rabbits and study its osteogenetic mechanism.
目的建立兔下颌骨牵拉成骨动物模型,研究了解颅面部牵拉骨生成的规律。
8.This experiment was designed to evaluate the osteogenetic effects of different forms of allogenic decalcified bone matrix(DBM).
为证实不同形式的脱钙骨基质(DBM)及未脱钙骨的成骨作用进行了本实验。
9.Objective To explore the osteogenetic condition of the cultured periosteal osteoblasts under the different conditions.
目的研究培养骨膜细胞在不同条件下移植成骨情况。
10.The research progress of osteogenetic effects of OGP is reviewed in this paper.
文章对OGP促成骨作用的研究进展进行综述。
11.The doctor explained that the osteogenetic 骨生成的 process is crucial for healing fractures.
医生解释说,骨生成的过程对愈合骨折至关重要。
12.Researchers are studying osteogenetic 骨生成的 cells to develop better treatments for osteoporosis.
研究人员正在研究骨生成的细胞,以开发更好的骨质疏松症治疗方法。
13.The patient's osteogenetic 骨生成的 response was monitored after the surgery to ensure proper healing.
在手术后,监测患者的骨生成的反应以确保愈合正常。
14.Certain medications can enhance the osteogenetic 骨生成的 activity in the body.
某些药物可以增强体内的骨生成的活动。
15.The study focused on the osteogenetic 骨生成的 properties of stem cells.
这项研究集中在干细胞的骨生成的特性上。
作文
The study of bone development and growth is a fascinating field that intersects various disciplines, including biology, medicine, and even engineering. One of the key terms in this area is osteogenetic, which refers to the processes involved in the formation and development of bone tissue. Understanding the osteogenetic mechanisms is crucial for advancing medical science, particularly in treating bone-related disorders and injuries. Bone is not just a static structure; it is a dynamic organ that undergoes continuous remodeling throughout life. The osteogenetic process begins with the differentiation of mesenchymal stem cells into osteoblasts, the cells responsible for bone formation. These osteoblasts secrete the extracellular matrix, which eventually mineralizes to form hard bone. This intricate process is regulated by various factors, including hormones, mechanical stress, and nutritional elements. In recent years, research has highlighted the importance of understanding osteogenetic pathways to develop effective treatments for conditions such as osteoporosis, fractures, and even certain cancers that affect the bone. For instance, scientists are exploring how to enhance the osteogenetic potential of stem cells to improve healing in patients with severe bone injuries. By manipulating these pathways, researchers aim to create therapies that can stimulate bone growth and repair. Moreover, the role of nutrition in supporting osteogenetic processes cannot be overlooked. Nutrients such as calcium, vitamin D, and protein are essential for optimal bone health. A deficiency in these nutrients can lead to impaired osteogenetic activity, resulting in weakened bones and increased risk of fractures. Therefore, promoting a balanced diet rich in these essential nutrients is key to maintaining healthy bone density and overall skeletal health. In addition to biological aspects, the engineering of bone substitutes has become a significant area of research. Scientists are investigating biomaterials that can mimic the natural bone environment and support osteogenetic activities. These materials can be used in surgeries to replace damaged bone or to augment existing bone structures. By creating scaffolds that encourage the growth of new bone tissue, researchers hope to improve outcomes for patients undergoing reconstructive surgeries. Furthermore, the integration of technology in studying osteogenetic processes has opened new avenues for research. Advanced imaging techniques allow scientists to observe bone development in real-time, providing insights into how different factors influence osteogenetic activity. This knowledge can lead to the development of targeted therapies that enhance bone regeneration and repair. In conclusion, the term osteogenetic encompasses a wide range of processes related to bone formation and development. Understanding these mechanisms is vital for advancing medical treatments for bone-related conditions and improving overall skeletal health. As research continues to evolve, the implications of osteogenetic studies will likely lead to innovative solutions for enhancing bone healing and regeneration. The interplay between biology, nutrition, and technology will undoubtedly shape the future of how we approach bone health and treatment.
骨骼发育和生长的研究是一个迷人的领域,涉及生物学、医学甚至工程学等多个学科。在这个领域中的一个关键术语是osteogenetic,它指的是与骨组织形成和发育相关的过程。理解osteogenetic机制对于推动医学科学的发展至关重要,特别是在治疗与骨骼相关的疾病和损伤方面。 骨骼不仅仅是一个静态结构;它是一个动态的器官,在整个生命过程中不断重塑。osteogenetic过程始于间充质干细胞分化为成骨细胞,这些细胞负责骨骼的形成。这些成骨细胞分泌细胞外基质,最终矿化形成坚硬的骨骼。这一复杂过程受到多种因素的调控,包括激素、机械压力和营养元素。 近年来,研究强调了理解osteogenetic途径的重要性,以开发有效的治疗方法来应对如骨质疏松症、骨折甚至某些影响骨骼的癌症等疾病。例如,科学家们正在探索如何增强干细胞的osteogenetic潜力,以改善严重骨损伤患者的愈合。通过操控这些途径,研究人员希望创造出能够刺激骨生长和修复的疗法。 此外,营养在支持osteogenetic过程中的作用也不容忽视。钙、维生素D和蛋白质等营养素对骨骼健康至关重要。这些营养素的缺乏会导致osteogenetic活动受损,从而导致骨骼脆弱和骨折风险增加。因此,促进均衡饮食,富含这些必需营养素,对于维持健康的骨密度和整体骨骼健康至关重要。 除了生物学方面,骨替代物的工程化也成为一个重要的研究领域。科学家们正在研究能够模仿自然骨环境并支持osteogenetic活动的生物材料。这些材料可以用于手术中替换受损骨骼或增强现有骨结构。通过创建能够促进新骨组织生长的支架,研究人员希望改善接受重建手术患者的结果。 此外,技术在研究osteogenetic过程中的整合为研究开辟了新的途径。先进的成像技术使科学家能够实时观察骨骼发育,为不同因素如何影响osteogenetic活动提供了见解。这些知识可以导致开发针对性的疗法,以增强骨再生和修复。 总之,术语osteogenetic涵盖了与骨形成和发育相关的一系列过程。理解这些机制对于推动骨骼相关疾病的医学治疗和改善整体骨骼健康至关重要。随着研究的不断发展,osteogenetic研究的影响无疑会导致创新解决方案,以增强骨愈合和再生。生物学、营养和技术之间的相互作用无疑将塑造我们未来对待骨骼健康和治疗的方法。
文章标题:osteogenetic的意思是什么
文章链接:https://www.liuxue886.cn/danci/433300.html
本站文章均为原创,未经授权请勿用于任何商业用途
发表评论