Abstract:
The level of blood glucose must be precisely controlled for its treatment. An emerging field in the treatment of diabetes, nanotechnology is proven to be an exciting and efficient technique. Approaches based on nanotechnology can offer specialized and accurate control over insulin delivery, glucose monitoring, and tissue regeneration. Particularly nanoparticles demonstrate considerable potential in terms of enhancing disease management and therapy. Nanoparticles are being investigated as means of administration for better oral insulin formulations because of their potential to improve drug delivery to locations with obstacles or unfavorable circumstances for macromolecules. A closed-loop system, also known as a system that continuously monitors blood sugar levels and releases insulin in a self-controlled manner. In comparison to the conventional open loop system, such a system has a number of advantages. In secure glucose monitoring systems, the application of nanotechnology in the creation of glucose sensors is a key area of interest. Nanoscale components are frequently added to glucose sensors to boost their temporal response and sensitivity. This process can also result in sensors that provide continuous in vivo glucose monitoring. The introduction of nanotechnology has created opportunities for the development of diabetic regenerative medicine. The regeneration of islet cells, retinal tissue, nerve tissue, and wound tissue cells can all be directed in the right way using nano-stents. Conductive nanoparticles support the proliferation of different tissues. The creation of artificial pancreas and Phytochemicals are the developing approaches to treating diabetes in the future.
Page(s):
230-230
DOI:
DOI not available
Published:
Journal: Abstract Book on International Conference on Food and Applied Sciences (ICFAS-23) 3-5 August 23, Volume: 0, Issue: 0, Year: 2023
Keywords:
Diabetes
,
nanotechnology
,
Insulin delivery
,
Regenerative medicine
,
Glucose monitoring