Projects
We are working on many computational and experimental studies related to regenerative medicine, tissue engineering, and cardiovascular disorders. For the purpose of creating scaffolds, we are putting our engineering expertise and different production methods to use.
We create wound dressings for skin tissue engineering using microfluidic systems, 3D-bioprinting, and conventional techniques (such as electrospinning, emulsion freezing-freeze drying, casting, hydrogel, foams, etc.), which have anti-bacterial, anti-biofilm, healing, and other advantageous properties. A smart bandage with medications that may release as needed in accordance with the temperature and pH of the acute and chronic wounds is our most intriguing project related to skin TE.
Skin Tissue Engineering, Application of Nano structured scaffolds Loaded with Different types of Antibiotics and Herbal Drugs on Bedsore
Our wound dressing framework is constructed using scaffold fabrication techniques, and extracts from medicinal herbs and nanometals are added to enhance its applicability and antibacterial capability.
Skin Tissue Engineering Investigating the Antibacterial Effect of some Hydrogels on Acute Wounds
In this project, the effect of some nanoparticles has been investigated on the antibacterial growth in an acute wound. We modeled the acute wound on the back of Wistar rats in vivo and did cellular and bacterial tests in vitro.
Skin Tissue Engineering, a Vast Study About Applications of 16 Different Natural and Synthetic Polymers as well as Acellular tissues on Wound Healing, in Vitro and in Vivo Studying
To the best of our knowledge, our research is unique. It is a massive project about examining the various effects of a few synthetic polymers, natural polymers, and routinely used decellularized tissue, and contrasting their healing properties.
Application of Targeted Drug Delivery in Intestine to Prevent and Treat Atherosclerosis, in Vitro and in Vivo Modeling
In many studies, invasive techniques are used to treat cardiovascular problems. Bypassing the intestinal epithelial barrier, we are attempting to deliver medications to the patient's intestine and influence hepatic cells (IEB) for cholesterol-lowering and efflux.
Fabrication and Characterization of Smart Bandages Loaded with Drugs for Wound Healing, in Vitro and in Vivo Study
This study is our latest project inspired by Dr. Tamayol's project regarding interactive wound dressings. We are using some polymers with inherent thermo- and pH-sensitive properties that make them able to change their diameter. These will be loaded with nanodrugs using a flow-focusing microfluidic system and 3DBP that will be released according to the wound bed conditions.