echography
简明释义
n. 回波描记术(用超声波进行检查和诊断)
英英释义
A medical imaging technique that uses ultrasound waves to visualize internal body structures, particularly for examining organs and tissues. | 一种医学成像技术,利用超声波来可视化内部身体结构,特别用于检查器官和组织。 |
单词用法
腹部超声波检查 | |
心脏超声波检查 | |
阴道超声波检查 | |
进行超声波检查 | |
解读超声波检查结果 | |
超声波检查技师 |
同义词
| 超声波 | The doctor ordered an ultrasound to check the baby's health. | 医生要求做超声波检查以查看宝宝的健康状况。 | |
| 声学成像 | Sonography is commonly used for imaging organs in the abdomen. | 声学成像常用于腹部器官的成像。 |
反义词
| 放射摄影 | 放射摄影通常用于诊断骨折。 | ||
| 内窥镜检查 | Endoscopy allows doctors to view the inside of the digestive tract. | 内窥镜检查使医生能够查看消化道内部。 |
例句
1.Echography and urine pregnant test were selected for effective marker.
超声和尿妊娠试验作检验治疗效果的指标。
2.Objective:To assess the value of transrectal echography (TRE) in clinical applications.
前言: 目的:评价直肠腔内超声在临床中的应用价值。
3.Objective To evaluate clinical value of Ultra-wide sight echography in B-ultrasound.
目的探讨超宽视野超声成像在巨大肿物的临床应用价值。
4.Method Using the myocardial contrast echography (MCE), PTSMA was performed in six patients over 60 years old with HOCM.
方法对6 0岁以上的6例老年hocm患者施行心肌声学造影指导下的经皮室间隔心肌消融术治疗。
5.Method Using the myocardial contrast echography (MCE), PTSMA was performed in six patients over 60 years old with HOCM.
方法对6 0岁以上的6例老年hocm患者施行心肌声学造影指导下的经皮室间隔心肌消融术治疗。
6.Objective To evaluate echography appearances and diagnosis value of congenital abnormal of the eyeball wall.
目的探讨眼球壁先天异常声像学表现及其诊断价值。
7.She was nervous about her first echography 超声波检查 appointment.
她对第一次的echography 超声波检查预约感到紧张。
8.The echography 超声波检查 revealed a cyst in the patient's kidney.
这次echography 超声波检查显示患者的肾脏有一个囊肿。
9.During the echography 超声波检查, we were able to see the heartbeat of the fetus.
在这次echography 超声波检查中,我们能够看到胎儿的心跳。
10.The doctor recommended an echography 超声波检查 to monitor the baby's development.
医生建议做一次echography 超声波检查来监测宝宝的发育。
11.An abdominal echography 腹部超声波检查 can help diagnose various digestive issues.
腹部echography 腹部超声波检查可以帮助诊断各种消化问题。
作文
Echography, also known as ultrasound imaging, is a non-invasive diagnostic technique that uses high-frequency sound waves to create images of the internal structures of the body. This technology has revolutionized the field of medicine, providing healthcare professionals with a powerful tool for diagnosis and monitoring of various conditions. The term "echography" (超声波检查) is derived from the Greek word 'echo,' meaning sound, and 'graphy,' meaning to write or record. Therefore, echography essentially means recording sound waves to visualize internal organs.One of the most significant advantages of echography (超声波检查) is its safety. Unlike X-rays or CT scans, which involve exposure to ionizing radiation, echography utilizes sound waves that are harmless to the human body. This makes it an ideal choice for pregnant women, as it allows for the monitoring of fetal development without posing any risk to the unborn child. In fact, echography is commonly used in obstetrics to assess the health of the fetus, determine gestational age, and identify any potential complications.In addition to obstetrics, echography (超声波检查) is widely used in various medical specialties, including cardiology, gastroenterology, and urology. For instance, in cardiology, echocardiograms are performed to evaluate the heart's structure and function. This type of echography can help detect heart diseases, such as valve disorders or congenital heart defects. Similarly, in gastroenterology, abdominal ultrasounds can be used to examine organs like the liver, gallbladder, and kidneys, helping to diagnose conditions such as gallstones or kidney stones.The procedure of echography (超声波检查) is relatively simple and painless. During the examination, a gel is applied to the skin to facilitate the transmission of sound waves. A transducer, a handheld device that emits sound waves, is then moved over the area being examined. The sound waves bounce off internal structures and are converted into images by a computer. These images can be viewed in real-time, allowing doctors to make immediate assessments.Moreover, the advancements in echography (超声波检查) technology have led to the development of 3D and 4D imaging, providing even more detailed visuals of internal organs. This enhanced imaging capability allows for more accurate diagnoses and better treatment planning. For example, 3D echography can provide a clearer view of complex structures, such as the heart, facilitating surgical planning and intervention.Despite its many benefits, there are some limitations to echography (超声波检查). For example, the quality of the images can be affected by factors such as obesity, excessive gas in the intestines, or the presence of certain tissues. Additionally, while echography is excellent for visualizing soft tissues, it may not be as effective for detecting certain types of tumors or abnormalities that require more detailed imaging techniques.In conclusion, echography (超声波检查) is an invaluable tool in modern medicine, offering a safe and effective means of diagnosing and monitoring a wide range of medical conditions. Its non-invasive nature and ability to provide real-time images make it a preferred choice for both patients and healthcare providers. As technology continues to advance, the applications of echography are likely to expand, further enhancing its role in patient care and treatment outcomes.
