alloplastic
简明释义
英[ˌæləʊˈplæstɪk]美[æˈləplæstɪk]
adj. 异质成形的
英英释义
Relating to or involving the use of artificial materials or implants in surgical procedures. | 与外科手术中使用人造材料或植入物相关或涉及的。 |
单词用法
异体材料 | |
异体手术 | |
异体重建 | |
异体植入物 |
同义词
| 合成的 | The synthetic materials used in this product are environmentally friendly. | 该产品使用的合成材料是环保的。 | |
| 人工的 | 人工智能正在改变各个行业。 | ||
| 非生物的 | Non-biological implants are often used in medical procedures. | 非生物植入物常用于医疗程序中。 |
反义词
| 自体移植的 | 自体移植使用患者自己的组织。 | ||
| 生物塑料的 | 生物塑料材料由可再生资源制成。 |
例句
1.Conclusion EH composite artificial bone is ideal alloplastic material for orbital reconstruction.
结论EH型复合人工骨是理想的替代自体骨组织的眶内植入材料。
2.Conclusion EH composite artificial bone is ideal alloplastic material for orbital reconstruction.
结论EH型复合人工骨是理想的替代自体骨组织的眶内植入材料。
3.In the field of tissue engineering, alloplastic scaffolds are essential for cell growth.
在组织工程领域,异体支架对细胞生长至关重要。
4.The surgeon decided to use an alloplastic implant for the joint replacement procedure.
外科医生决定在关节置换手术中使用异体植入。
5.Researchers are studying alloplastic materials for their potential in reconstructive surgery.
研究人员正在研究异体材料在重建手术中的潜力。
6.The use of alloplastic devices has revolutionized dental implants.
使用异体装置彻底改变了牙科植入物。
7.The alloplastic approach allows for greater flexibility in surgical techniques.
这种异体方法使外科技术更加灵活。
作文
In the realm of biology and medicine, the term alloplastic refers to a type of graft or implant that is made from synthetic materials or tissues that are not derived from the patient’s own body. This concept is crucial in various fields such as reconstructive surgery, orthopedic procedures, and even dental implants. Understanding the significance of alloplastic materials can shed light on their applications and the advancements they bring to medical science.One of the primary advantages of using alloplastic materials is their availability. Unlike autologous grafts, which require harvesting tissue from the patient, alloplastic implants can be manufactured in a laboratory setting. This allows for a more streamlined surgical process and reduces the time required for recovery. For instance, in joint replacement surgeries, surgeons often rely on alloplastic components made from biocompatible metals and polymers to replace damaged joints, thereby restoring mobility and reducing pain.Moreover, alloplastic materials can be engineered to possess specific properties that enhance their functionality. For example, in the field of dentistry, dental implants made from titanium are widely used due to their strength and ability to integrate with bone through a process known as osseointegration. This characteristic of alloplastic materials not only improves the success rates of implants but also contributes to the longevity of the restoration.However, the use of alloplastic materials is not without challenges. One significant concern is the risk of rejection or complications arising from the body’s immune response to foreign materials. While many alloplastic implants are designed to be biocompatible, there is always a possibility that the body may react negatively. This necessitates ongoing research and development to create alloplastic options that minimize such risks while maximizing efficacy.Furthermore, the ethical implications of using alloplastic materials must also be considered. As technology advances, the line between natural and synthetic becomes increasingly blurred. Patients must be informed about the benefits and potential drawbacks of alloplastic implants, allowing them to make educated decisions regarding their treatment options. The healthcare industry has a responsibility to ensure that patients receive comprehensive information about the materials being used in their procedures.In conclusion, the term alloplastic encapsulates a vital aspect of modern medical practices, particularly in surgical interventions. The ability to utilize synthetic materials opens up new avenues for treatment and recovery, enhancing the quality of life for countless individuals. As we continue to explore the potential of alloplastic technologies, it is essential to maintain a balance between innovation and patient safety, ensuring that advancements in medicine serve the best interests of those who seek care. With ongoing research and ethical considerations, the future of alloplastic materials holds great promise for improving patient outcomes across various medical disciplines.
在生物学和医学领域,术语alloplastic指的是一种由合成材料或非患者自身组织制成的移植物或植入物。这个概念在重建外科、骨科手术甚至牙科植入物等多个领域至关重要。理解alloplastic材料的重要性可以阐明它们的应用及其对医学科学带来的进步。使用alloplastic材料的主要优点之一是它们的可获得性。与自体移植物需要从患者身上提取组织不同,alloplastic植入物可以在实验室环境中制造。这允许更简化的外科过程,并减少恢复所需的时间。例如,在关节置换手术中,外科医生通常依赖由生物相容金属和聚合物制成的alloplastic组件来替代受损的关节,从而恢复活动能力并减轻疼痛。此外,alloplastic材料可以被设计成具有增强功能的特定属性。例如,在牙科领域,由于其强度和通过称为骨结合的过程与骨骼整合的能力,钛制牙科植入物被广泛使用。alloplastic材料的这一特性不仅提高了植入物的成功率,还延长了修复的寿命。然而,使用alloplastic材料并非没有挑战。一个重大问题是身体对外来材料的免疫反应引发的排斥或并发症风险。尽管许多alloplastic植入物被设计为生物相容性,但身体可能会产生负面反应的可能性始终存在。这需要持续的研究和开发,以创造出最大限度减少此类风险同时最大化功效的alloplastic选择。此外,使用alloplastic材料的伦理问题也必须考虑。随着技术的进步,自然与合成之间的界限变得越来越模糊。患者必须了解alloplastic植入物的好处和潜在缺点,使他们能够就治疗选择做出明智的决定。医疗行业有责任确保患者获得关于其手术中使用的材料的全面信息。总之,术语alloplastic概括了现代医疗实践中的一个重要方面,特别是在外科干预中。利用合成材料的能力为治疗和恢复开辟了新的途径,提高了无数人的生活质量。随着我们继续探索alloplastic技术的潜力,保持创新与患者安全之间的平衡至关重要,确保医学的进步服务于寻求护理的人的最佳利益。通过持续的研究和伦理考量,alloplastic材料的未来在改善各个医疗领域的患者结果方面充满希望。
