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Prof. Haseeb A. Khan PhD, FRCPath, FRSC

Professor

Distinguished Professor, Chair Professor

كلية العلوم
Department of Biochemistry, College of Science, Bldg. 5
publication
Journal Article
2023

Self-assembled copolymeric nanowires as a new class of 3D scaffold for stem cells growth and proliferation

Stem cell therapy has emerged as the most vibrant area of research, due to the capacity of stem cells for self-renewal and differentiation into different types of cell lines upon their culture. But lately, scientists become increasingly aware of the limitations of conventional 2D culture and stem cell culture media, due to several key drawbacks associated with this model, such as immune response upon transplantation, animal pathogen contamination, and complication, during developmental studies due to undefined factors in the cultural media. In this study, an attempt has been made to develop a new type of polymeric 3D scaffold based on the self-assembly of a star-like amphiphilic copolymer of poly(caprolactone)–poly(ethylene oxide) unit into nanowires (nanofibers), that have a scale similar to the native extracellular matrix and are capable of mimicking the extracellular microenvironment where the functional properties of stem cells can be observed and manipulated. The obtained data showed that polymeric-based nanofibers can be used as a 3D scaffold for mouse embryonic stem cells (mESCs) growth without losing their stem cell phenotype. The results obtained suggest that the polymeric 3D scaffolds (nanofibers) not only support stem cells’ growth and proliferation but also preserve the mESC pluripotency.

Volume Number
2023
Magazine \ Newspaper
Journal of Nanomaterials
Pages
5867338
more of publication
publications

Background: Graphene-based nanomaterials possess unique optical, physicochemical and biomedical properties which make them potential tools for imaging and therapy. Manganese oxide…

by Khan HA, Lee YK, Shaik MR, Siddiqui N, Siddiqui M, Alrashood ST, Al Harbi A, Ekhzaimy A
2023
publications

Stem cell therapy has emerged as the most vibrant area of research, due to the capacity of stem cells for self-renewal and differentiation into different types of cell lines upon their culture.

by Alrokayan SH, Mouffouk F, Khan HA, Hussain T, Alamery S, Abu-Salah K.
2023
publications

Objectives: Inflammatory mediators are associated with many chronic diseases; however, their role in metabolic syndrome (Met-S) is not well documented.

by Al Asmari AK, Al Shehri HA, Khan HA, Al Omani S, Kadasah SG, Horaib GB, Al Buraidi A, Al Sharif AA, Mohammed FS, Abbasmanthiri R, Osman NM.
2023