Among many bioinks used for extrusion 3D bioprinting, the most commonly used bioink is the polysaccharide alginate because of its various cellular-friendly property like gelation. Erratic degradation and cell-binding motifs are not present in alginate which are the limitations of alginate bioinks, which can be improved by blending various low concentrations of natural or artificial polymers. Here in this chapter, we will discuss the various important properties of the alginate which make it as the bioink for almost all bioprinting scaffold designs as well as how improve the cellular properties like its cell-material interaction by blending it with other polymer solutions.
Artificial intelligence (AI) has the potential of detecting significant interactions in a dataset and also it is widely used in several clinical conditions to expect the results, treat, and diagnose. Artificial intelligence (AI) is being used or trialed for a variety of healthcare and research purposes, including detection of disease, management of chronic conditions, delivery of health services, and drug discovery. In this chapter, we will discuss the application of artificial intelligence (AI) in modern healthcare system and the challenges of this system in detail. Different types of artificial intelligence devices are described in this chapter with the help of working mechanism discussion. Alginate, a naturally available polymer found in the cell wall of the brown algae, is used in tissue engineering because of its biocompatibility, low cost, and easy gelation. It is composed of α-L-guluronic and β-D-manuronic acid. To improve the cell-material interaction and erratic degradation, alginate is blended with other polymers. Here, we discuss the relationship of artificial intelligence with alginate in tissue engineering fields.
Nanotechnology basically means any kind of technology in a nanoscale, which can be applied in the existent world. It is a comparatively new research field, but it is not a completely new area and the research draws insights from many other research areas. It is generally considered that nanotechnology makes possible the coming of the new Industrial Renaissance since it has the potential for a reflective impact on modern society and economy in the early 21st century, similar to that of information technology (IT), electronics technology, especially in semiconductor technology or molecular and cellular biology. The purpose of this chapter is to look into the present aspects of nanotechnology. In this chapter, the authors discuss a variety of applications of nanotechnology in recent decades like modern engineering, robotics, food technology, medicine, etc., and also they indicate the current and potential uses of nanoscience and nanotechnologies. Social and ethical impacts as well as health and environmental impacts will be highlighted.
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