Nanosensors for the diagnosis and therapy of neurodegenerative disorders and inflammatory bowel disease.

One of the areas of science which has immensely advanced in the recent years is nanotechnology. This area broadly revolves around matter at scales between 1 and 100 nm, where peculiar phenomena make way for cutting-edge applications. Today, nanotechnology has a daily impact on human life with numerous and varied possible advantages. Nanosensors are one of the products of nanotechnology and any sensor that uses nanoscale phenomena qualifies to be known as a nanosensor. Nanosensors have proven very useful in a number of sectors including medical applications, food quality analysis and agricultural controlling process, etc. One of the major human healthcare applications of nanosensors is for disease diagnosis. With the aid of nanosensors, numerous neurodegenerative disorders and inflammatory diseases are commonly identified and treated of late. Alzheimer's disease (AD) and inflammatory bowel disease fall under the categories of neurodegenerative illnesses and inflammatory diseases. There are more than 20 million cases of (AD) making it the most prevalent neurological condition globally and "inflammatory bowel disease" (IBD) refers to a variety of conditions that cause persistent inflammation of the digestive tract. Here we present a comprehensive account on the utility of nanosensors for the diagnosis and treatment of (AD) and (IBD).

Prospect and retrospect of 3D bio-printing.

3D bioprinting has become a popular medical technique in recent years. The most compelling rationale for the development of 3D bioprinting is the paucity of biological structures required for the rehabilitation of missing organs and tissues. They're useful in a multitude of domains, including disease modelling, regenerative medicine, tissue engineering, drug discovery with testing, personalised medicine, organ development, toxicity studies, and implants. Bioprinting requires a range of bioprinting technologies and bioinks to finish their procedure, that Inkjet-based bioprinting, extrusion-based bioprinting, laser-assisted bioprinting, stereolithography-based bioprinting, and in situ bioprinting are some of the technologies listed here. Bioink is a 3D printing material that is used to construct engineered artificial living tissue. It can be constructed solely for cells, but it usually includes a carrier substance that envelops the cells, then there's Agarose-based bioinks, alginate-based bioinks, collagen-based bioinks, and hyaluronic acid-based bioinks, to name a few. Here we presented about the different bioprinting methods with the use of bioinks in it and then Prospected over various applications in different fields.