vascularization

简明释义

英[ˌvæskjələraɪˈzeɪʃən]美[væskjələrəˈzeɪʃn]

n. 血管化；形成血管

英英释义

单词用法

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例句

1.Conclusion High expression of VEGF by gene modification can promote the vascularization process of skin substitute, hence improve the grafting result.

结论基因修饰所致VEGF高表达明显促进了移植皮肤替代物的血管化过程，提高了移植物成活率。

2.Conclusion (1) the source of the bleeding in most cases was the corneal vascularization.

结论(1)角膜内出血一般源于角膜新生血管。

3.The results show that the effect of subconjuctival injection of heparin combined with cortisone into experimental rabbits to prevent vascularization of cornea is better than that of bleomycin.

结果表明，肝素加可的松混合液结膜下注射防治兔角膜新生血管的作用优于平阳霉素。

4.The influence of human umbilical vein endothelial cells on vascularization for acellular porcine dermis.

人脐静脉血管内皮细胞移植对脱细胞猪真皮早期血管化的影响。

5.Objective To assess the diagnostic value of perfusion weighted MR imaging technique in monitoring vascularization of tissue engineered bone.

目的探讨磁共振灌注成像在组织工程骨血管化监测中的应用价值。

6.The invention belongs to the field of nuclear medicine and relates to radioactive nuclide labeling tumor vascularization specific polypeptide.

本发明属于核医学领域，涉及放射核素标记肿瘤血管化特异性多肽。

7.In tissue engineering, promoting vascularization can enhance the integration of implants.

在组织工程中，促进血管化可以增强植入物的整合。

8.Exercise promotes vascularization in muscles, improving oxygen delivery.

锻炼促进肌肉中的血管化，改善氧气输送。

9.The process of vascularization is crucial for healing wounds effectively.

愈合伤口的过程中的血管化对于有效愈合至关重要。

10.Researchers are studying how vascularization occurs in tumors to improve cancer treatments.

研究人员正在研究肿瘤中如何发生血管化以改善癌症治疗。

11.The lack of vascularization in certain areas can lead to tissue necrosis.

某些区域缺乏血管化可能导致组织坏死。

作文

Vascularization is a critical process in the human body that refers to the formation and development of blood vessels. This biological phenomenon is essential for supplying nutrients and oxygen to tissues, as well as removing waste products. The importance of vascularization (血管化) cannot be overstated, especially in the context of healing and regeneration. For instance, when an injury occurs, the body initiates a complex series of events aimed at repairing the damaged tissue. This includes the formation of new blood vessels, which is crucial for delivering the necessary substances that promote healing.In recent years, researchers have made significant strides in understanding the mechanisms behind vascularization (血管化). They have discovered that various growth factors and signaling pathways play a pivotal role in this process. One of the key players is vascular endothelial growth factor (VEGF), which stimulates the proliferation and migration of endothelial cells, the cells that line blood vessels. By promoting vascularization (血管化), VEGF helps to ensure that tissues receive adequate blood supply, which is vital for their survival and function.Moreover, vascularization (血管化) is not only important in normal physiological processes but also has significant implications in various medical conditions. For example, in tumors, uncontrolled vascularization (血管化) can lead to the formation of new blood vessels that supply the tumor with nutrients and oxygen, facilitating its growth and metastasis. This has led to the development of anti-angiogenic therapies, which aim to inhibit vascularization (血管化) in tumors, thereby restricting their growth.Additionally, vascularization (血管化) plays a vital role in tissue engineering and regenerative medicine. Scientists are exploring ways to enhance vascularization (血管化) in engineered tissues to improve their viability and functionality when implanted in the body. For instance, by incorporating certain biomaterials or growth factors into scaffolds used for tissue engineering, researchers can promote the growth of blood vessels within the engineered tissue, ensuring that it receives the necessary nutrients and oxygen.Furthermore, understanding vascularization (血管化) can also help in the treatment of chronic diseases, such as diabetes and cardiovascular diseases. In these conditions, impaired vascularization (血管化) can lead to complications, including poor wound healing and ischemia. By targeting the pathways involved in vascularization (血管化), new therapeutic strategies can be developed to improve blood flow and tissue health in affected individuals.In conclusion, vascularization (血管化) is a fundamental process that underlies many aspects of human health and disease. Its significance extends from normal physiological functions, such as wound healing, to pathological conditions like cancer. As research continues to unravel the complexities of vascularization (血管化), it holds promise for advancing medical treatments and improving patient outcomes. The ongoing exploration of this topic will undoubtedly lead to innovative approaches in various fields, including regenerative medicine, oncology, and the management of chronic diseases.