biocompatible

简明释义

[/ˌbaɪoʊkəmˈpætəbl/][/ˌbaɪoʊkəmˈpætəbl/]

adj. 生物适合的;不会引起排斥的

英英释义

Biocompatible refers to a material's ability to interact with biological systems without eliciting an adverse reaction.

生物相容性是指材料与生物系统相互作用而不引起不良反应的能力。

单词用法

同义词

biofriendly

生物友好

The biofriendly materials used in this product ensure minimal impact on the environment.

该产品使用的生物友好材料确保对环境的影响最小化。

biocompatible material

生物相容材料

Biocompatible materials are essential for medical implants to prevent rejection by the body.

生物相容材料对于医疗植入物至关重要,以防止身体排斥。

tissue-compatible

组织相容

Tissue-compatible devices can integrate seamlessly with biological tissues.

组织相容设备可以与生物组织无缝集成。

反义词

biologically incompatible

生物不相容

The material used in the implant was found to be biologically incompatible, leading to rejection by the body.

植入物使用的材料被发现是生物不相容的,导致身体排斥。

toxic

有毒的

Certain chemicals are toxic and can cause severe reactions when introduced into the body.

某些化学物质是有毒的,进入体内时可能引起严重反应。

例句

1.Biocompatible ferrofluids normally use water as a carrier medium.

生物兼容性磁流体通常使用水做介质载体。

2.Poly L-lactic acid (PLLA), widely used in biomedicine, is natural polymer material made from corn, which is nontoxic, biodegradable and biocompatible with organism like cell.

聚l -乳酸(PLLA)是一种来源于玉米的纯天然高分子材料,无毒副作用、可降解、生物相容性及细胞亲和性好,广泛应用于生物医用材料。

3.Titanium has a lower modulus of elasticity-closer to that of host bone-and is more biocompatible than cobalt chrome.

钛金属弹性模量较低,接近宿主骨的弹性模量,生物相容性较钴镍合金更好。

4.Phospholipid Polymers are a family of biomimetic materials and proved to be biocompatible, specifically blood-compatible.

磷脂聚合物是一类生物相容性很好的生物材料。

5.A second piece of silicone sealsthe PZT in, creating a pliable, biocompatible material that's fourtimes as efficient as previous flexible piezoelectrics.

然后用另一片硅胶密封压电陶瓷,制作成一种独具韧性的生物相容性材料,其效率是一般柔性压电的四倍。

6.The biocompatible of hydroxyapatite is very well, it is a kind of repair and replacement material of bone.

羟基磷灰石是具有良好生物相容性的骨修复和替代材料。

7.The biocompatible coating on medical devices helps to reduce the risk of rejection by the body.

医疗设备上的生物相容涂层有助于降低身体排斥的风险。

8.The new skin grafts are designed to be biocompatible with minimal scarring.

新的皮肤移植设计为与身体高度生物相容,并且疤痕最小。

9.In order to create effective drug delivery systems, scientists focus on finding biocompatible materials.

为了创建有效的药物传递系统,科学家们专注于寻找生物相容材料。

10.The new dental implants are made from a material that is highly biocompatible, ensuring they integrate well with the jawbone.

新的牙科植入物由一种高度生物相容的材料制成,确保它们与下颌骨良好融合。

11.Researchers are developing biocompatible hydrogels for use in tissue engineering applications.

研究人员正在开发用于组织工程应用的生物相容水凝胶。

作文

Biocompatibility is a crucial concept in the field of medical science and engineering. It refers to the ability of a material to interact with biological systems without causing an adverse reaction. In simpler terms, a material that is described as biocompatible (生物相容的) is one that can be safely used in medical applications, such as implants or prosthetics, without provoking an immune response or toxicity. This property is essential for ensuring that medical devices function effectively within the human body.The importance of biocompatible (生物相容的) materials cannot be overstated. As technology advances, the demand for innovative medical solutions increases. For example, orthopedic implants made from biocompatible (生物相容的) materials like titanium or certain polymers can significantly improve the quality of life for patients suffering from joint issues. These materials are designed to integrate well with bone tissue, promoting healing and reducing the risk of rejection.Moreover, the development of biocompatible (生物相容的) materials is not limited to implants. Drug delivery systems also benefit from this property. Researchers are exploring ways to create biocompatible (生物相容的) nanoparticles that can carry medications directly to targeted areas in the body, minimizing side effects and maximizing therapeutic effects. This targeted approach is particularly valuable in cancer treatment, where traditional methods can harm healthy cells along with cancerous ones.In addition to their application in implants and drug delivery, biocompatible (生物相容的) materials are also being used in tissue engineering. Scientists are working on scaffolds made from biocompatible (生物相容的) substances that can support the growth of new tissues. These scaffolds provide a framework for cells to attach and proliferate, ultimately leading to the regeneration of damaged tissues. The success of such endeavors hinges on the selection of materials that do not elicit an immune response, thus ensuring that the newly formed tissue integrates seamlessly with the existing biological structures.However, achieving true biocompatibility (生物相容性) is a complex challenge. It requires a deep understanding of both the material properties and the biological environment in which they will be used. Factors such as surface chemistry, mechanical strength, and degradation rates must all be considered when designing biocompatible (生物相容的) materials. Furthermore, regulatory standards for medical devices necessitate rigorous testing to ensure that these materials are safe for human use.In conclusion, the significance of biocompatible (生物相容的) materials in modern medicine cannot be underestimated. They play a vital role in improving patient outcomes and advancing healthcare technologies. As research continues to explore new materials and applications, the future of biocompatible (生物相容的) technologies looks promising. With ongoing innovation, we can expect even more effective solutions that enhance the quality of life for individuals around the world.