生物芯片
微流控
计算机科学
纳米技术
实验室晶片
复制品
接口(物质)
合成生物学
人工智能
生物信息学
生物
材料科学
最大气泡压力法
艺术
视觉艺术
气泡
并行计算
作者
Kiran Raj M,Jyotsana Priyadarshani,Pratyaksh Karan,Saumyadwip Bandyopadhyay,Sarani Bhattacharya,Suman Chakraborty
摘要
Biomicrofluidics, a subdomain of microfluidics, has been inspired by several ideas from nature. However, while the basic inspiration for the same may be drawn from the living world, the translation of all relevant essential functionalities to an artificially engineered framework does not remain trivial. Here, we review the recent progress in bio-inspired microfluidic systems via harnessing the integration of experimental and simulation tools delving into the interface of engineering and biology. Development of "on-chip" technologies as well as their multifarious applications is subsequently discussed, accompanying the relevant advancements in materials and fabrication technology. Pointers toward new directions in research, including an amalgamated fusion of data-driven modeling (such as artificial intelligence and machine learning) and physics-based paradigm, to come up with a human physiological replica on a synthetic bio-chip with due accounting of personalized features, are suggested. These are likely to facilitate physiologically replicating disease modeling on an artificially engineered biochip as well as advance drug development and screening in an expedited route with the minimization of animal and human trials.
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