Biography
I am Syed Muneeb Haider Gillani, a materials scientist and engineer graduated from Institute of Space Technology, Islamabad, Pakistan. I graduated in 2023 and after graduation I got the research assistantship job at Bioengineering Research and Development (Private) Limited company. During my 2 years of research experience, I have published 9 research articles in well-regarded international journals. Moreover, I have reviewed research articles for the top international journals like Elsevier International Journal of Biological Macromolecules and ACS Molecular Pharmaceutics.
Research Interests
My current research interests lie in development of Polyether ether ketone-based 3D printed bioactive scaffolds for bone and dental tissue engineering, Development of bioactive electrospun nanofibrous mats for cartilage tissue engineering, Anti-inflammatory ions loaded bioactive glass for MASH treatment and 3D bioprinted scaffolds for wound healing applications.
Areas of Expertise
3D printing, Electrospinning, Rheological Characterizations, Materials Characterizations and Biological Characterizations.
Member Details
Education
Bachelors of Science in Materials Science and Engineering
Responsibilities
3D printing, Electrospinning, UV-VIS spectroscopy, Rheological characterizations, Data analysis, Drug Release kinetics, Degradation studies and biological characterizations.
Current Projects
1. 3D printed electroactive polymers with enhanced osteoconductivity and osteointegration for bone tissue engineering.
2. Anti-inflammatory ions doped Bioactive glasses for MASH treatment.
3. Bioactive coatings on 3D printed PEEK scaffolds for bone tissue engineering.
4. Bioactive electrospun nanofibrous mats for cartilage tissue engineering.
Publications
3D-printed PEEK/Na-alginate scaffolds coated with Ag-Sr doped hydroxyapatite for dental tissue engineering: A detailed in vitro analysis
Objectives The aim of this study was to develop a novel dental bone implant that could enhance bioactivity and provide strength to native dental bones. Such 3D-printed PEEK/Na-ALG scaffolds coated with bioactive Ag-Sr-HA, via electrospray to achieve ...
Electrospun polyvinyl alcohol/carboxymethyl cellulose loaded with Asphaltum Punjabianum (Shilajit) nanofibrous mats for potential cartilage regeneration applications
Current developments in tissue engineering methods and conventional implants continue to face challenges in tackling the complex avascular characteristics of articular cartilage, hindering effective repair and tissue regeneration. To overcome these c ...
Direct ink write 3D printed poly (ethylene oxide)/ Guar gum/ lawsone scaffolds for burn care applications
Burn is one of the leading causes of trauma worldwide, with significantly higher mortality rates in third-world countries. Therefore, there is an urgent need to provide dynamic solutions to treat burns, particularly for third-degree burn patients. Th ...
Natural antibiotic Oregano loaded mesoporous bioactive nanoparticles for bone tissue engineering applications: A detailed in-vitro analysis
Mesoporous bioactive glass nanoparticles (MBGNs) offer a versatile platform for targeted dispensation of bioactive compounds found in natural herbs to enhance their osteogenic properties. Herein, we focused on the synergistic combination of phyto-the ...
3D printing assisted biofabrication of oxidized guar gum/agar–agar/salvianolic acid hydrogels
Skin loss is the rapidly growing problem that is caused by the trauma, burns and ulcers which results in the skin cells death and hinders the regeneration process. 3D printing is a fascinating technology that could produce the skin constructs accordi ...
Nano-technologically developed 3D-printed skin grafts: polyvinylpyrrolidone modified with zinc oxide and mesoporous bioactive glass nanoparticles for wound and skin regeneration application
Chronic wounds are prone to infections and can become severe and life-threatening. A quick recovery is only possible by the help of an external regeneration stimulus. Tissue regeneration of a skin patch depends on several factors including precise ge ...
Development of hybrid polyvinylpyrrolidone/carboxymethyl cellulose/collagen incorporated oregano scaffolds via direct ink write printing for potential wound healing applications
Additive manufacturing can develop regenerative scaffolds for wound healing. 3D printing offers meticulous porosity, mechanical integrity, cell adhesion and cost-effectiveness. Herein, we prepared ink composed of carboxymethyl cellulose (CMC), polyvi ...
3D-printed polyether-ether ketone/carboxymethyl cellulose scaffolds coated with Zn–Mn doped mesoporous bioactive glass nanoparticles
Patient-specific fabrication of scaffold/implant requires an engineering approach to manufacture the ideal scaffold. Herein, we design and 3D print scaffolds comprised of polyether-ether-ketone (PEEK) and sodium-carboxymethyl cellulose (Na-CMC). The ...
Development of 3D printed sodium alginate/agar-agar/cloves scaffolds for potential wound healing applications
Burn wounds are major health concern that cause cellular death of skin and reduce chances of tissue regeneration. 3D printing is a promising technology for treating burn wounds due to its accurate porosity, cellular attraction, and reduced material w ...
