Dr. Bhattacharyya’s primary research interests lie in regenerative medicine, cancer biology, and tissue engineering. She focuses on utilizing human mesenchymal stem cells from bone marrow, dental pulp, and adipose tissues for regenerative applications. Her laboratory has pioneered studies involving ex vivo models for bone regeneration, cell-free therapies using biocompatible scaffolds, and personalized approaches to cancer therapy via patient-derived organoids. She is also actively engaged in cancer stem cell research, with an emphasis on therapy resistance, metastasis, and tumor microenvironment interactions.

Dr. Bhattacharyya is highly skilled in stem cell culture, 3D spheroid technology, patient-derived organoid generation, and tissue engineering techniques. Her expertise extends to developing and applying biomaterials, scaffolds, and acellular products such as exosomes and mitochondria for regenerative purposes. In cancer biology, she has excelled in studying cellular physiology, therapy resistance, epithelial-to-mesenchymal transition, and cancer stem cell behavior. Her skills also encompass project management, grant acquisition, and mentoring emerging researchers in her field.

 Dr. Bhattacharyya’s primary research interests lie in regenerative medicine, cancer biology, and tissue engineering. She focuses on utilizing human mesenchymal stem cells from bone marrow, dental pulp, and adipose tissues for regenerative applications. Her laboratory has pioneered studies involving ex vivo models for bone regeneration, cell-free therapies using biocompatible scaffolds, and personalized approaches to cancer therapy via patient-derived organoids. She is also actively engaged in cancer stem cell research, with an emphasis on therapy resistance, metastasis, and tumor microenvironment interactions.

Dr. Bhattacharyya is highly skilled in stem cell culture, 3D spheroid technology, patient-derived organoid generation, and tissue engineering techniques. Her expertise extends to developing and applying biomaterials, scaffolds, and acellular products such as exosomes and mitochondria for regenerative purposes. In cancer biology, she has excelled in studying cellular physiology, therapy resistance, epithelial-to-mesenchymal transition, and cancer stem cell behavior. Her skills also encompass project management, grant acquisition, and mentoring emerging researchers in her field.

Ms. Rida Khalil’s research interests lie at the intersection of pharmacology and drug development, with a particular focus on innovative drug delivery systems. Her current M.Phil research investigates the formulation of an intranasal transfersomal-based in situ gel aimed at enhancing the bioavailability and brain delivery of methylphenidate. This project reflects her commitment to advancing therapeutic methods and improving patient outcomes through novel delivery mechanisms. Additionally, Rida has explored areas such as the development of mucoadhesive buccal patches for insulin delivery and the effects of iron deficiency on cognitive function. Her interest in these topics underscores a broader aim to address challenges in pharmaceutical technology and patient care. Rida’s research is driven by a passion for creating impactful healthcare solutions and contributing to the field’s advancement through detailed and innovative approaches.

Ms. Rida Khalil possesses a range of research skills that reflect her expertise in pharmacology and drug development. Her M.Phil research on “Intranasal Transfersomal Based In Situ Gel for Augmenting Methylphenidate Bioavailability and Brain Delivery” showcases her proficiency in advanced drug delivery systems, combining both in vitro and in vivo evaluations. Her Pharm-D background provides a strong foundation in physical pharmacy, pharmaceutical technology, and pharmacology, equipping her with essential skills for comprehensive drug research. Rida’s practical experience, including her internship at Children Hospital, Lahore, has enhanced her understanding of clinical pharmacy and emergency care. She is adept in utilizing software tools like Origin, Sigma Plot, and Design Expert for data analysis and project design. Additionally, her experience in organizing and presenting at conferences underscores her ability to communicate complex research findings effectively. These skills collectively underscore Rida’s capability to contribute significantly to pharmaceutical research.