renography

简明释义

英[riːˈnɒɡrəfɪ]美[rɪˈnɑːɡrəfi]

n. 肾图，肾造影照片；肾造影术；肾 x 线照相术

英英释义

单词用法

同义词

反义词

例句

1.The losartan renography is a relatively new non-invasive method for diagnosing RVH, with definite sensitivity and specificity.

氯沙坦肾显像是一种较新的诊断rvh的无创伤性方法，具有一定的灵敏度和准确性。

2.The losartan renography is a relatively new non-invasive method for diagnosing RVH, with definite sensitivity and specificity.

氯沙坦肾显像是一种较新的诊断rvh的无创伤性方法，具有一定的灵敏度和准确性。

3.The doctor recommended a renography 肾脏造影 to assess the patient's kidney function.

医生建议进行一次renography 肾脏造影以评估患者的肾功能。

4.During the renography 肾脏造影, the imaging showed some abnormalities in the left kidney.

在renography 肾脏造影期间，影像显示左侧肾脏有一些异常。

5.The results of the renography 肾脏造影 were crucial for diagnosing the patient's condition.

这次renography 肾脏造影的结果对诊断患者的病情至关重要。

6.She was nervous about the upcoming renography 肾脏造影, but her doctor reassured her it would be painless.

她对即将进行的renography 肾脏造影感到紧张，但医生向她保证这不会疼痛。

7.After the renography 肾脏造影, the radiologist explained the findings to the patient.

在renography 肾脏造影之后，放射科医生向患者解释了结果。

作文

Renography is a specialized imaging technique used to evaluate the function and structure of the kidneys. This method primarily employs nuclear medicine, where radiopharmaceuticals are administered to the patient to visualize renal blood flow and kidney function. The importance of renography (肾脏造影) cannot be overstated, as it provides crucial information that assists healthcare professionals in diagnosing various renal conditions. In recent years, the prevalence of kidney diseases has increased significantly, making it essential for medical practitioners to have reliable diagnostic tools at their disposal. Renography (肾脏造影) plays a vital role in this context, as it allows for the assessment of renal perfusion and function without the need for invasive procedures. This non-invasive approach not only enhances patient comfort but also reduces the risk of complications associated with traditional diagnostic methods. The process of renography (肾脏造影) begins with the patient receiving an injection of a radiotracer, which is a substance that emits radiation detectable by a special camera. Once injected, the radiotracer travels through the bloodstream and into the kidneys, where it is taken up by renal tissues. The camera then captures images of the kidneys in real-time, providing valuable insights into their function and blood flow. One of the primary indications for renography (肾脏造影) is the evaluation of renal artery stenosis, a condition characterized by the narrowing of the arteries supplying blood to the kidneys. This condition can lead to hypertension and renal failure if left untreated. By analyzing the images obtained from renography (肾脏造影), doctors can determine the severity of the stenosis and develop appropriate treatment plans. Additionally, renography (肾脏造影) is instrumental in assessing renal transplant function. After a kidney transplant, monitoring the new organ's performance is critical to ensure its viability and detect any complications early on. The use of renography (肾脏造影) allows clinicians to assess how well the transplanted kidney is functioning and whether there are any signs of rejection or other issues. Moreover, renography (肾脏造影) has applications in pediatric patients as well. Children may be particularly vulnerable to renal issues, and early detection is crucial for effective management. The non-invasive nature of renography (肾脏造影) makes it a suitable option for evaluating kidney function in younger patients, minimizing discomfort and anxiety associated with more invasive procedures. In conclusion, renography (肾脏造影) is an invaluable tool in modern medicine that enhances our understanding of kidney health. Its ability to provide real-time information about renal function without invasive measures makes it a preferred choice for both patients and healthcare providers. As research continues to advance in this field, we can expect further improvements in diagnostic accuracy and the overall management of kidney-related diseases. Therefore, understanding the significance of renography (肾脏造影) is essential for anyone involved in healthcare, as it ultimately contributes to better patient outcomes and quality of life.

肾脏造影是一种专门的成像技术，用于评估肾脏的功能和结构。这种方法主要采用核医学，在这种方法中，放射性药物被施用给患者，以可视化肾血流和肾功能。renography（肾脏造影）的重要性不言而喻，因为它提供了关键的信息，帮助医疗专业人员诊断各种肾脏疾病。 近年来，肾脏疾病的发病率显著增加，使得医疗从业人员必须拥有可靠的诊断工具。renography（肾脏造影）在这一背景下发挥着重要作用，因为它允许在不需要侵入性程序的情况下评估肾脏灌注和功能。这种非侵入性的方法不仅提高了患者的舒适度，还减少了与传统诊断方法相关的并发症风险。 renography（肾脏造影）的过程始于患者接受放射性示踪剂的注射，这是一种能够发出辐射的物质，可被特殊相机检测到。一旦注射，放射性示踪剂通过血液循环进入肾脏，并被肾组织吸收。然后，相机实时捕捉肾脏的图像，提供有关其功能和血流的宝贵见解。 renography（肾脏造影）的主要适应症之一是评估肾动脉狭窄，这是一种以供应肾脏血液的动脉变窄为特征的疾病。如果不加以治疗，这种情况可能导致高血压和肾衰竭。通过分析从renography（肾脏造影）获得的图像，医生可以确定狭窄的严重程度并制定适当的治疗计划。 此外，renography（肾脏造影）在评估肾脏移植功能方面也至关重要。在肾脏移植后，监测新器官的性能对确保其生存能力和及早发现任何并发症至关重要。使用renography（肾脏造影）使临床医生能够评估移植肾脏的功能以及是否有排斥或其他问题的迹象。 此外，renography（肾脏造影）在儿童患者中的应用也很广泛。儿童可能特别容易受到肾脏问题的影响，早期发现对于有效管理至关重要。renography（肾脏造影）的非侵入性特性使其成为评估年轻患者肾功能的合适选择，最大限度地减少了与更具侵入性的程序相关的不适和焦虑。 总之，renography（肾脏造影）是现代医学中一项无价的工具，增强了我们对肾脏健康的理解。它能够在不进行侵入性措施的情况下提供有关肾功能的实时信息，使其成为患者和医疗提供者的首选。因此，理解renography（肾脏造影）的意义对于任何参与医疗保健的人来说都是必不可少的，因为这最终有助于改善患者的结果和生活质量。