transcutaneous

简明释义

英[trænzˈkjutənəs]美[trænzˈkjutənəs]

adj. 经皮的；由皮的

英英释义

单词用法

同义词

反义词

例句

1.Objective: To evaluate the effect of transcutaneous electric pulse stimulation on hepatic blood flow and parenchyma! microcirculation in patients with fatty liver.

目的：探讨经皮的肝脏附近穴位脉冲电流局部刺激对脂肪肝患者肝血流量的影响。

2.This paper introduces the principle and structure of a TENS (Transcutaneous Electric Nerve Stimulation) apparatus.

介绍一种恒流型TENS治疗仪的工作原理和结构。

3.A medical device is provided comprising a transcutaneous device unit and a process unit.

本发明涉及一种医疗设备，包括经皮设备单元和处理单元。

4.The treatment will be rather complicated. I will adopt certain maneuvers to reposition it. We will use a splint to fix it in coordination with transcutaneous traction.

治疗较复杂。我将采取适当的手法复位，经皮牵引辅以小夹板固定。

5.Objective: To discuss the diagnostic value of transcutaneous bilirubinometry on neonatal jaundice.

目的：探讨经皮测胆红素对新生儿黄疸的诊断价值。

6.Objective To investigate the effects of transcutaneous electrical nerve stimulation (TENS) in improving muscle control in the ankle joint of acute stroke patients.

目的观察经皮穴位电神经刺激（TENS）对急性脑卒中患者下肢肌肉痉挛的影响。

7.Row were observed in early neonatal meconium time, turn yellow time, jaundice time , fade time and the value of transcutaneous bilirubin (TCB).

观察两组新生儿胎粪初排时间、转黄时间、黄疸出现消退时间以及经皮胆红素值。

8.Objective To compare the values of using three different methods in diagnosing pulmonary masses, all guided by transcutaneous fine-needle aspiration biopsy.

目的比较三种不同方法经皮穿刺肺活检对肺部肿块的诊断价值。

9.Methods:Posterior branch of spinal nerve was refrigerated by transcutaneous paracentesis.

方法：经皮穿刺到脊神经后支，对神经分支施行深部冷冻。

10.The transcutaneous 经皮的 monitoring device provided real-time data on the patient's oxygen levels.

该经皮的监测设备提供了有关患者氧气水平的实时数据。

11.Research has shown that transcutaneous 经皮的 methods can be effective in delivering vaccines.

研究表明，经皮的方法在疫苗输送方面可能是有效的。

12.The doctor recommended a transcutaneous 经皮的 drug delivery system for pain management.

医生推荐了一种经皮的药物输送系统用于疼痛管理。

13.A transcutaneous 经皮的 insulin delivery patch can help diabetic patients manage their condition more easily.

一种经皮的胰岛素输送贴片可以帮助糖尿病患者更轻松地管理他们的病情。

14.In this study, we utilized transcutaneous 经皮的 electrical nerve stimulation to alleviate chronic pain.

在这项研究中，我们利用了经皮的电神经刺激来缓解慢性疼痛。

作文

The field of medicine has seen remarkable advancements over the past few decades, particularly in how we approach patient care and treatment methods. One such advancement is the use of transcutaneous (经皮) techniques that have revolutionized how we deliver medications and monitor various health conditions. These methods provide a non-invasive alternative to traditional practices, making them more appealing for both patients and healthcare providers.Transcutaneous methods involve delivering substances through the skin, which can be particularly beneficial in scenarios where oral administration is not feasible. For instance, patients who are unable to swallow or those who experience gastrointestinal issues may find transcutaneous (经皮) drug delivery to be a lifesaver. This approach allows for the continuous administration of medication, ensuring that patients receive the necessary dosages without the need for injections or oral intake.One of the most well-known applications of transcutaneous (经皮) technology is in the management of pain. Transcutaneous electrical nerve stimulation (TENS) is a popular method used to alleviate chronic pain. By applying electrical impulses through the skin, TENS can block pain signals from reaching the brain, providing relief for conditions such as arthritis or back pain. This non-invasive technique is not only effective but also allows patients to manage their pain at home, promoting independence and improving quality of life.Furthermore, transcutaneous (经皮) monitoring devices have become increasingly common in clinical settings. For example, transcutaneous bilirubin meters measure bilirubin levels in newborns to assess jaundice without the need for blood draws. This non-invasive monitoring is less stressful for infants and provides quick results, enabling timely interventions when necessary. The ability to monitor vital signs, blood oxygen levels, and other critical parameters through transcutaneous (经皮) means has greatly enhanced patient care, allowing for real-time decision-making by healthcare providers.The development of transcutaneous (经皮) drug delivery systems has also opened new avenues for the treatment of chronic diseases such as diabetes. Insulin patches that deliver medication through the skin offer a convenient alternative to daily injections. Patients can wear these patches discreetly, improving adherence to treatment regimens and overall health outcomes. Moreover, research is ongoing to explore the potential of transcutaneous (经皮) delivery for vaccines and other therapeutic agents, which could further change the landscape of preventive medicine.Despite the numerous advantages of transcutaneous (经皮) techniques, there are challenges that need to be addressed. The skin's barrier properties can limit the absorption of certain medications, and not all drugs are suitable for this method of delivery. Additionally, ensuring the safety and efficacy of transcutaneous (经皮) devices requires rigorous testing and regulatory oversight. However, with ongoing research and technological advancements, the future looks promising for transcutaneous (经皮) applications in medicine.In conclusion, transcutaneous (经皮) techniques are transforming the way we think about drug delivery and patient monitoring. Their non-invasive nature offers significant benefits, making them an attractive option for both patients and healthcare professionals. As we continue to explore the potential of these methods, it is essential to remain aware of the challenges and work towards solutions that will enhance their effectiveness. The future of medicine may very well lie in the continued innovation of transcutaneous (经皮) technologies, ultimately improving patient outcomes and enhancing the quality of care across various medical fields.

医学领域在过去几十年中取得了显著的进步，特别是在我们对患者护理和治疗方法的处理方式上。其中一种进步是使用transcutaneous（经皮）技术，这些技术彻底改变了我们传递药物和监测各种健康状况的方式。这些方法提供了一种非侵入性的替代传统做法，使其对患者和医疗提供者都更具吸引力。Transcutaneous（经皮）方法涉及通过皮肤传递物质，这在口服给药不可行的情况下尤其有益。例如，无法吞咽或经历胃肠问题的患者可能会发现transcutaneous（经皮）药物输送是一种救命稻草。这种方法允许药物的持续给药，确保患者在不需要注射或口服的情况下获得必要的剂量。Transcutaneous（经皮）技术最著名的应用之一是在疼痛管理中。经皮电神经刺激（TENS）是一种流行的方法，用于缓解慢性疼痛。通过通过皮肤施加电冲动，TENS可以阻止疼痛信号到达大脑，为关节炎或背痛等疾病提供缓解。这种非侵入性技术不仅有效，而且使患者能够在家中管理他们的疼痛，促进独立性并改善生活质量。此外，transcutaneous（经皮）监测设备在临床环境中变得越来越常见。例如，经皮胆红素计测量新生儿的胆红素水平，以评估黄疸，而无需抽血。这种非侵入性监测对婴儿的压力较小，并提供快速结果，从而在必要时能够及时干预。通过transcutaneous（经皮）手段监测生命体征、血氧水平和其他关键参数极大地增强了患者护理，使医疗提供者能够实时做出决策。Transcutaneous（经皮）药物输送系统的发展也为糖尿病等慢性疾病的治疗开辟了新的途径。通过皮肤输送药物的胰岛素贴片提供了每日注射的便捷替代方案。患者可以隐蔽地佩戴这些贴片，提高治疗依从性和整体健康结果。此外，研究正在进行，以探索transcutaneous（经皮）输送疫苗和其他治疗剂的潜力，这可能进一步改变预防医学的格局。尽管transcutaneous（经皮）技术具有众多优点，但仍然存在需要解决的挑战。皮肤的屏障特性可能限制某些药物的吸收，并非所有药物都适合这种给药方式。此外，确保transcutaneous（经皮）设备的安全性和有效性需要严格的测试和监管监督。然而，随着不断的研究和技术进步，transcutaneous（经皮）在医学中的未来看起来充满希望。总之，transcutaneous（经皮）技术正在改变我们对药物输送和患者监测的思考方式。它们的非侵入性特征提供了显著的好处，使其成为患者和医疗专业人员的有吸引力的选择。随着我们继续探索这些方法的潜力，保持对挑战的关注并努力寻找解决方案以提高其有效性至关重要。医学的未来很可能在于继续创新transcutaneous（经皮）技术，最终改善患者结果并提升各个医学领域的护理质量。