一般而言,生物医学工程师利用他们的工程技术来推进医疗保健并提高人类生活质量。我们都熟悉生物医学工程师创造的一些产品,如牙科植入物,透析机,假肢,MRI设备和矫正镜片。生物医学工程师执行的实际工作差异很大。有些人主要使用计算机和信息技术来分析和理解复杂的生物系统。作为一个例子,在医学实验室以及诸如23andMe之类的公司中进行的遗传分析需要开发用于数字运算的稳健计算机系统。其他生物医学工程师使用生物材料,这是一个与材料工程重叠的领域。生物材料是与生物系统相互作用的任何材料。例如,髋关节植入物必须由坚固耐用的材料制成,可以在人体内存活。所有种植体,针,支架和缝合线都需要由精心设计的材料制成,这些材料可以执行其指定的任务,而不会引起人体的有害反应。人工器官是一个新兴的研究领域,在很大程度上依赖于生物材料专家。

新加坡生物代写:生物系统

In general, biomedical engineers use their engineering skills to advance health care and improve the quality of human life. We are familiar with products created by biomedical engineers such as dental implants, dialysis machines, prosthetics, MRI equipment and corrective lenses. The actual work performed by biomedical engineers varies widely. Some people mainly use computers and information technology to analyze and understand complex biological systems. As an example, genetic analysis in medical laboratories and companies such as 23andMe requires the development of robust computer systems for digital computing. Other biomedical engineers use biomaterials, an area that overlaps with materials engineering. Biomaterials are any materials that interact with biological systems. For example, hip implants must be made of a durable material that can survive in the human body. All implants, needles, stents, and sutures need to be made of well-designed materials that perform their assigned tasks without causing harmful effects in the body. Artificial organs are an emerging field of research that relies heavily on biomaterials experts.

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