کلیدواژه
https://ctrmrc.tums.ac.ir/کلیدواژه/regenerative_medicine
How to establish infrastructures to achieve more efficient regenerative medicine https://ctrmrc.tums.ac.ir/مقالات-علمی/How-to-establish-infrastructures-to-achieve-more-efficient-regenerative-medicine How to establish infrastructures to achieve more efficient regenerative medicine How to establish infrastructures to achieve more efficient regenerative medicine How to establish infrastructures to achieve more efficient regenerative medicine The field of regenerative medicine (RM) as an innovative
مقالات علمی
https://ctrmrc.tums.ac.ir/مقالات-علمی/صفحه:4
لیست مقالات علمیلیست اخبار صفحه :4 Burden of type 2 diabetes mellitus and its risk factors in North Africa and the Middle East, 1990-2019: findings from the Global Burden of type 2 diabetes mellitus and its risk factors in North Africa and the Middle East, 1990-2019: findings from the Global Burden of Disease study 2019 1402/11/14 - 12:42 The prevalence of Type 2 Diabetes Mellitus (T2DM) in the North Africa and Middle East region is alarmingly high, prompting us to investigate the burden and fac
مقالات انگلیسی
https://ctrmrc.tums.ac.ir/article/صفحه:4
لیست اخبار صفحه :4 GMP-Compliant Mesenchymal Stem Cell-Derived Exosomes for Cell-Free Therapy in Cancer GMP-Compliant Mesenchymal Stem Cell-Derived Exosomes for Cell-Free Therapy in Cancer 1402/11/14 - 12:33 Cancer is categorized as one of the life-threatening disease in the world, which has recently been associated with a significant increase in the incidence and prevalence rate. Hence, the discovery of effective approaches for prevention, early diagnosis, and effective treatment for cancer has
How to establish infrastructures to achieve more efficient regenerative medicine
https://ctrmrc.tums.ac.ir/مقالات-علمی/How-to-establish-infrastructures-to-achieve-more-efficient-regenerative-medicine
How to establish infrastructures to achieve more efficient regenerative medicine How to establish infrastructures to achieve more efficient regenerative medicine How to establish infrastructures to achieve more efficient regenerative medicine The field of regenerative medicine (RM) as an innovative technology has the ability to affect the healthcare system. It develops a variety of techniques through stem cell biology, genetics, bioengineering, biomaterial science, and tissue engineering to repl
Application of Biocompatible Scaffolds in Stem-Cell-Based Dental Tissue Engineering
https://ctrmrc.tums.ac.ir/article/Application-of-Biocompatible-Scaffolds-in-Stem–Cell–Based-Dental-Tissue-Engineering
Application of Biocompatible Scaffolds in Stem-Cell-Based Dental Tissue Engineering Application of Biocompatible Scaffolds in Stem-Cell-Based Dental Tissue Engineering Application of Biocompatible Scaffolds in Stem-Cell-Based Dental Tissue Engineering However, the main focus of literature in the field of dental tissue engineering is on utilizing MSCs. On the other hand, biocompatible scaffolds play a notable role in this regenerative process which is mentioned to be harmless with acceptable oste
A systematic study of nano-based fibrous systems: Diagnostic and
https://ctrmrc.tums.ac.ir/article/A-systematic-study-of-nano–based-fibrous-systems:-Diagnostic-and-therapeutic-approaches-for-dementia-control
A systematic study of nano-based fibrous systems: Diagnostic and A systematic study of nano-based fibrous systems: Diagnostic and therapeutic approaches for dementia control A systematic study of nano-based fibrous systems: Diagnostic and therapeutic approaches for dementia control Over the last few years, protein-based nanofibrous biomaterials have been used for better controlling dementia. PubMed, Scopus, and ISI Web of Science were consulted for available articles on nano-based fibrous system
