1.
Artificial Polymers made of α-amino Acids - Poly(Amino Acid)s, Pseudo-Poly(Amino Acid)s, Poly(Depsipeptide)s, and Pseudo-Proteins.
Zavradashvili, N, Puiggali, J, Katsarava, R
Current pharmaceutical design. 2020;(5):566-593
Abstract
Degradable polymers (DPs) - "green materials" of the future, have an innumerable use in biomedicine, particularly in the fields of tissue engineering and drug delivery. Among these kind of materials naturally occurring polymers - proteins which constituted one of the most important "bricks of life" - α-amino acids (AAs) are highly suitable. A wide biomedical applicability of proteins is due to special properties such as a high affinity with tissues and releasing AAs upon biodegradation that means a nutritive potential for cells. Along with these positive characteristics proteins as biomedical materials they have some shortcomings, such as batch-to-batch variation, risk of disease transmission, and immune rejection. The last limitation is connected with the molecular architecture of proteins. Furthermore, the content of only peptide bonds in protein molecules significantly restricts their material properties. Artificial polymers with the composition of AAs are by far more promising as degradable biomaterials since they are free from the limitations of proteins retaining at the same time their positive features - a high tissue compatibility and nutritive potential. The present review deals with a brief description of different families of AA-based artificial polymers, such as poly(amino acid)s, pseudo-poly(amino acid)s, polydepsipeptides, and pseudo-proteins - relatively new and broad family of artificial AA-based DPs. Most of these polymers have a different macromolecular architecture than proteins and contain various types of chemical links along with NH-CO bonds that substantially expands properties of materials destined for sophisticated biomedical applications.
2.
An Appraisal on Various Methods of Nano Particulate Formulations.
Dhiman, B, Divtrannum, , Dhiman, A, Saini, S
Pharmaceutical nanotechnology. 2017;(4):255-262
Abstract
BACKGROUND Nanotechnology has immense significance in the field of medicine, agriculture, business, public health sector due to wide applicability of the nano products. Basically, nanotechnology is the incorporation of nanoscale structures into larger material components to improve the properties of constructed system. METHOD Nanotechnology serves as an alternative drug delivery system to the liposomes drug delivery system as the stability of the product in biological fluids is the main problem associated with the liposomal drug delivery system. In the present review, nanoparticles, their applications, various techniques of preparation of nanoparticles and research update on nano particulate drug delivery system have been discussed. RESULTS The main complication associated with biodegradable polymer is uncertainty in their absorption pathway in gastrointestinal tract. Sometimes, harmful by-products after metabolism are released. However, the polymeric nanoparticles (synthetic or semi-synthetic) have a defined structure therefore; get absorbed in intact form in gastrointestinal tract. CONCLUSION Nano-particulate drug delivery system using natural/synthetic polymer may enhance the therapeutic activity of some anti-cancer drug by increasing the host's immune mechanism and antitumor role through improving the body's immune function. It has been observed that despite the technological challenges, nanoparticulate drug delivery system is the most promising drug delivery system in case of anticancer drugs because polymer based nanostructures enhance the bio-adhesiveness and as well as local accumulation of chemotherapeutic agent.