micro irradiation

简明释义

微束辐照

英英释义

例句

1.The researchers used micro irradiation 微辐照 to study the effects of radiation on cellular structures.

研究人员使用微辐照 micro irradiation来研究辐射对细胞结构的影响。

2.The clinic specializes in micro irradiation 微辐照 therapies for skin rejuvenation.

该诊所专注于用于皮肤再生的微辐照 micro irradiation疗法。

3.During the experiment, micro irradiation 微辐照 was applied to observe its effects on gene expression.

在实验过程中，施加了微辐照 micro irradiation以观察其对基因表达的影响。

4.The team developed a new device for micro irradiation 微辐照 that minimizes damage to surrounding tissues.

团队开发了一种新设备，用于微辐照 micro irradiation，最大限度地减少对周围组织的损伤。

5.In cancer treatment, micro irradiation 微辐照 can target tumors with precision.

在癌症治疗中，微辐照 micro irradiation可以精确地针对肿瘤。

作文

In recent years, advancements in medical technology have led to the development of various treatment methods that aim to improve patient outcomes. One such innovative technique is micro irradiation, which refers to the precise application of radiation at a micro-scale level. This method is particularly beneficial in the field of oncology, where targeted treatments can significantly reduce damage to surrounding healthy tissues while effectively targeting cancer cells. 微照射的技术主要通过小剂量辐射来治疗肿瘤，这种方法在提高治疗效果的同时，降低了副作用的发生率。The concept of micro irradiation revolves around the idea of delivering radiation in a controlled manner, allowing for a high degree of precision. Unlike traditional radiation therapy, which often affects a larger area and can result in collateral damage, micro irradiation focuses on minimizing exposure to non-cancerous cells. This is achieved through advanced imaging techniques and sophisticated delivery systems that ensure the radiation is concentrated precisely where it is needed.One of the primary advantages of micro irradiation is its ability to enhance the therapeutic ratio. This ratio compares the dose of radiation delivered to the tumor versus the dose received by healthy tissue. A higher therapeutic ratio means that more radiation can be safely administered to the tumor without harming the surrounding healthy cells. This is crucial in cancer treatment, as it allows for more aggressive approaches to eradicate tumors while preserving the patient's quality of life.Moreover, micro irradiation has shown promising results in treating various types of cancers, including skin, breast, and prostate cancers. Clinical studies have demonstrated that patients undergoing micro irradiation often experience fewer side effects, such as fatigue, skin irritation, and long-term complications associated with traditional radiation therapies. This improved tolerance can lead to better adherence to treatment regimens and ultimately more successful outcomes.In addition to its applications in oncology, micro irradiation is also being explored for use in other medical fields, such as dermatology and cardiology. For instance, dermatologists are investigating the potential of micro irradiation for treating skin conditions like psoriasis and acne, where localized treatment could provide significant relief without extensive side effects. Similarly, cardiologists are looking into the benefits of micro irradiation for targeted therapies in heart disease, aiming to improve vascular health without affecting adjacent tissues.Despite its many advantages, the implementation of micro irradiation does come with challenges. The need for highly specialized equipment and trained personnel can make this treatment less accessible in certain regions. Additionally, ongoing research is necessary to fully understand the long-term effects and optimal protocols for various types of cancers and conditions.In conclusion, micro irradiation represents a significant advancement in the field of medical treatment, particularly in oncology. By allowing for precise targeting of cancer cells while sparing healthy tissue, this innovative approach not only improves treatment efficacy but also enhances patient quality of life. As research continues to evolve, it is likely that micro irradiation will become an integral part of modern medical practices, paving the way for more effective and compassionate care for patients worldwide.

近年来，医疗技术的进步促使各种治疗方法的发展，旨在改善患者的治疗效果。其中一种创新技术是微照射，指的是在微观尺度上精确应用辐射。这种方法在肿瘤学领域尤其有益，因为靶向治疗可以显著减少对周围健康组织的损害，同时有效针对癌细胞。微照射的技术主要通过小剂量辐射来治疗肿瘤，这种方法在提高治疗效果的同时，降低了副作用的发生率。微照射的概念围绕着以受控的方式输送辐射，使得精确度达到高度。与传统的放疗不同，后者通常会影响更大范围，并可能导致附带损伤，而微照射则专注于最小化对非癌细胞的暴露。这是通过先进的成像技术和复杂的输送系统实现的，确保辐射集中在需要的地方。微照射的主要优势之一是能够增强治疗比率。该比率比较了施加于肿瘤的辐射剂量与健康组织接收的剂量。更高的治疗比率意味着可以安全地对肿瘤施加更多辐射，而不会损害周围的健康细胞。这在癌症治疗中至关重要，因为它允许采取更积极的措施来消灭肿瘤，同时保护患者的生活质量。此外，临床研究表明，接受微照射的患者通常经历更少的副作用，如疲劳、皮肤刺激和与传统放疗相关的长期并发症。这种改善的耐受性可以导致更好地遵循治疗方案，最终实现更成功的结果。除了在肿瘤学中的应用，微照射还在其他医学领域中受到探索，例如皮肤科和心脏病学。例如，皮肤科医生正在研究微照射治疗牛皮癣和痤疮等皮肤病的潜力，在这些情况下，局部治疗可以提供显著的缓解而没有广泛的副作用。同样，心脏病学家也在研究微照射在心脏病靶向治疗中的益处，旨在改善血管健康而不影响邻近组织。尽管有许多优点，微照射的实施确实面临挑战。对高度专业化设备和训练有素人员的需求可能使得某些地区的治疗变得不那么可及。此外，仍需进行持续研究，以充分了解不同类型癌症和疾病的长期影响和最佳方案。总之，微照射代表了医学治疗领域的重要进步，特别是在肿瘤学方面。通过允许精确靶向癌细胞，同时保护健康组织，这种创新方法不仅提高了治疗效果，还增强了患者的生活质量。随着研究的不断发展，微照射可能会成为现代医疗实践的重要组成部分，为全球患者提供更有效和富有同情心的护理。