target irradiation

简明释义

目标辐照

英英释义

例句

1.During the conference, a presentation was made on the effects of target irradiation 靶照射 in nuclear physics.

在会议期间，做了一个关于核物理中靶照射影响的演讲。

2.The researchers conducted experiments on target irradiation 靶照射 to improve the efficiency of cancer treatments.

研究人员对靶照射进行了实验，以提高癌症治疗的效率。

3.In particle accelerators, target irradiation 靶照射 is crucial for producing isotopes.

在粒子加速器中，靶照射对于产生同位素至关重要。

4.The study focused on the safety measures related to target irradiation 靶照射 in medical applications.

该研究重点关注医疗应用中与靶照射相关的安全措施。

5.The medical team decided to use target irradiation 靶照射 for precise treatment of the tumor.

医疗团队决定使用靶照射进行肿瘤的精确治疗。

作文

In the field of nuclear physics and radiation therapy, the concept of target irradiation plays a crucial role in achieving desired outcomes. Target irradiation refers to the precise application of radiation to a specific area or target within an object or organism. This technique is commonly utilized in medical treatments, particularly in cancer therapy, where it aims to destroy malignant cells while minimizing damage to surrounding healthy tissue. The effectiveness of target irradiation lies in its ability to focus energy on a defined region, allowing for higher doses of radiation to be delivered directly to the tumor. The process of target irradiation involves several steps, including imaging, planning, and execution. Initially, advanced imaging techniques such as MRI or CT scans are employed to accurately locate the tumor. Once the target is identified, a treatment plan is developed, taking into account the size, shape, and location of the tumor, as well as the patient's overall health. This meticulous planning is essential to ensure that the radiation beams converge precisely on the target, maximizing the treatment's efficacy.One of the significant advantages of target irradiation is its ability to spare healthy tissues from unnecessary exposure to radiation. Traditional radiation therapies often resulted in collateral damage to adjacent organs, leading to various side effects. However, with advancements in technology, such as intensity-modulated radiation therapy (IMRT) and stereotactic body radiation therapy (SBRT), practitioners can now deliver highly focused doses of radiation. This precision reduces the risk of complications and enhances the patient's quality of life during and after treatment.Moreover, target irradiation is not limited to cancer treatment alone. It has applications in other areas, such as treating benign tumors, vascular malformations, and even certain neurological disorders. By directing radiation at specific targets, healthcare providers can achieve therapeutic effects while minimizing adverse outcomes.Research continues to evolve in the realm of target irradiation, with ongoing studies aimed at improving techniques and exploring new applications. For instance, combining target irradiation with immunotherapy is a promising area of investigation, as it may enhance the immune system's ability to recognize and attack cancer cells. Additionally, the integration of artificial intelligence in treatment planning holds the potential to further refine targeting accuracy and optimize patient outcomes.In conclusion, target irradiation represents a significant advancement in the field of radiation therapy, offering a sophisticated approach to treating various medical conditions. Its ability to deliver focused radiation to specific targets minimizes harm to healthy tissues, making it a preferred choice in modern medical practice. As technology continues to advance, the future of target irradiation looks promising, with the potential to revolutionize treatment paradigms and improve patient care across a wide range of diseases.

在核物理和放射治疗领域，靶向照射的概念在实现预期结果中发挥着至关重要的作用。靶向照射是指将辐射精确应用于物体或生物体内特定区域或靶点的技术。这种技术通常用于医疗治疗，特别是在癌症治疗中，其目的是摧毁恶性细胞，同时尽量减少对周围健康组织的损害。靶向照射的有效性在于其能够将能量集中在定义的区域，从而允许更高剂量的辐射直接输送到肿瘤上。靶向照射的过程包括多个步骤，包括成像、规划和执行。最初，采用先进的成像技术，如MRI或CT扫描，以准确定位肿瘤。一旦确定了靶点，就会制定治疗计划，考虑肿瘤的大小、形状和位置，以及患者的整体健康。这种细致的规划对于确保辐射束精确汇聚在靶点上至关重要，从而最大限度地提高治疗的有效性。靶向照射的一个显著优势是能够保护健康组织免受不必要的辐射暴露。传统的放射治疗往往导致邻近器官的附带损伤，从而引发各种副作用。然而，随着技术的进步，例如强度调制放射治疗（IMRT）和立体定向体部放射治疗（SBRT），医生现在可以提供高度集中的辐射剂量。这种精确性降低了并发症的风险，提高了患者在治疗期间及之后的生活质量。此外，靶向照射不仅限于癌症治疗。它在其他领域也有应用，例如治疗良性肿瘤、血管畸形，甚至某些神经系统疾病。通过将辐射定向到特定靶点，医疗服务提供者可以实现治疗效果，同时尽量减少不良结果。在靶向照射的领域，研究仍在不断发展，正在进行的研究旨在改善技术并探索新应用。例如，将靶向照射与免疫疗法相结合是一个前景广阔的研究领域，因为这可能增强免疫系统识别和攻击癌细胞的能力。此外，在治疗规划中整合人工智能有望进一步提高靶向精度，优化患者结果。总之，靶向照射代表了放射治疗领域的一项重大进展，提供了一种复杂的方法来治疗各种医疗条件。其能够将集中辐射输送到特定靶点，最大限度地减少对健康组织的伤害，使其成为现代医疗实践中的首选。随着技术的不断进步，靶向照射的未来看起来充满希望，有潜力彻底改变治疗范式，并改善各种疾病的患者护理。