Dr. Amit Khanna – iPSC – Stem cells- Best Researcher Award

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Dr. Amit Khanna - iPSC - Stem cells - Best Researcher Award

Yashraj Biotechnology - India 

Author Profile 

ORCID 

🎓 Early academic pursuits

Dr. Amit Khanna's journey into the scientific world began with a strong foundation in bioinformatics and life sciences, complemented by a master's degree in technology (m.tech) and a doctorate (ph.d). his academic training fostered a deep understanding of cellular biology, molecular pharmacology, and translational research, setting the stage for his later work in drug discovery and disease modeling. with a growing interest in combining biological systems with advanced simulation tools, he also developed an appreciation for cross-disciplinary areas such as power electronics, where data integration and control systems play crucial roles.

💼 Professional endeavors

Dr. Khanna boasts more than 18 years of industrial research experience, working with prestigious organizations such as syngene international, piramal life sciences (plsl), strand life sciences, and yashraj biotechnology limited. currently, he serves as the head of integrated drug discovery & development at yashraj biotechnology limited, where he leads high-performing teams in the development of cutting-edge in vitro models. previously, he held leadership roles including senior director at intonation research laboratories and group lead at syngene international, overseeing complex biological projects and assay development.

🔬 Contributions and research focus

Dr. Khanna has significantly advanced the field of drug discovery, especially in the areas of cancer, neurodegenerative, cardiovascular, and inflammatory disorders. his work includes the iPSC - Stem cells development and validation of human-relevant disease models using stem cells (including ipsc), crispr-engineered cells, and advanced 2d/3d co-culture systems. he has also contributed to the standardization of biochemical and cell-based assays and led target engagement studies involving cetsa, protac, and nanobret technologies. through a data-driven and milestone-gated approach, he ensures regulatory compliance and research excellence. his analytical and scientific strategy often parallels principles found in power electronics, such as feedback control and system optimization.

🌍 Impact and influence

Dr. Khanna's leadership has enabled transformative research outcomes that align with industry benchmarks and regulatory standards. by fostering collaborations with cross-functional teams and outsourcing partners, he has significantly influenced the trajectory of drug discovery programs in india. his work has directly contributed to the identification and optimization of clinical iPSC - Stem cells candidates like the jak kinase inhibitor for pruritus. he has also led the development of 21 cfr part 11–compliant data strategies, shaping robust data governance within the discovery biology landscape. as integrated technologies continue to gain traction in biomedical research, his emphasis on data alignment mirrors the precision required in power electronics control frameworks.

📚 Academic cites

Dr. Khanna’s scientific contributions have been cited in multiple high-impact research studies, particularly in translational biology and pharmacological modeling. his publications, iPSC - Stem cells collaborations, and presentations at industry forums reflect his dedication to innovation and scientific communication. while specific citation metrics are not listed here, his impact is evident in the successful delivery of numerous discovery-phase projects and the clinical progression of lead compounds.

🧬 Legacy and future contributions

With a commitment to scientific rigor and innovation, dr. khanna continues to push the boundaries of drug discovery and translational research. his strategic vision includes expanding into organ-on-chip models, personalized therapy development, and high-throughput screening platforms. as technology and biology converge, his interdisciplinary mindset positions him to integrate fields like power electronics into next-generation biomedical solutions. his long-term legacy will be defined by the nurturing of scientific talent, enhancement of disease model accuracy, and promotion of global research collaborations.

Notable  Publications 

Title: Generation of human-induced pluripotent stem cell line from PBMC of healthy donor using integration-free Sendai virus technology
Author(s): Jaganmay Sarkar, Shreya Dhepe, Amrita Shivalkar, Rutuja Kuhikar, Shruti More, Vijay Bhaskar Reddy Konala, Paresh Bhanushali, Amit Khanna
Journal: Stem Cell Research

Dr. Rahul Gautam Talukdar – Biomechanics and Biomaterials – Best Researcher Award

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Dr. Rahul Gautam Talukdar - Biomechanics and Biomaterials - Best Researcher Award

Indian Institute of Technology Kharagpur - India 

Author Profile 

SCOPUS

Early academic pursuits 🎓

Rahul Gautam talukdar’s journey in academia began with a bachelor of technology in mechanical engineering from tezpur university, assam. his passion for applied mechanics led him to pursue a master’s degree in the field at the indian institute of engineering science & technology, shibpur, where he specialized in the mechanics of solids. his master’s thesis focused on implant design for varying bone conditions, laying the foundation for his future research in biomechanics. rahul further advanced his expertise by pursuing a ph.d. at the indian institute of technology kharagpur, where he concentrated on biomechanical analysis and biomaterials.

Professional endeavors 🏢

After completing his master's, rahul briefly served as an assistant professor at the netes institute of technology & science, mirza, assam, where he began shaping young minds in the field of mechanical engineering. he later transitioned into research as a research associate at iit kharagpur. in this role, he is actively involved in a government-funded project aimed at developing a porous interbody cage for lumbar spinal fusion. this project has enabled him to delve deeper into the field of biomechanics, with a focus on spine health and implant design.

Contributions and research focus 🔬

Rahul's primary research focus lies at the intersection of biomechanics and biomaterials, particularly concerning spinal health. his doctoral thesis, titled "biomechanical analysis of lumbar spine: design and development of porous interbody cage," reflects his dedication to improving medical implants for spinal  Biomechanics and Biomaterials conditions. through biomechanical analysis and digital manufacturing techniques, rahul has contributed significantly to the development of advanced spinal implants, aiming to enhance patient outcomes in lumbar spinal fusion surgeries. his research emphasizes the design and effectiveness of porous interbody cages that better integrate with bone tissues.

Accolades and recognition 🏅

Rahul’s dedication to his field is reflected in his academic and professional accomplishments. he earned a master’s degree with a solid cgpa of 8.03/10 and completed his doctoral work at the prestigious iit kharagpur. his teaching role in the nptel course “biomechanics of joints and orthopedic implants” further highlights his Biomechanics and Biomaterials expertise in the subject. his ongoing research, funded by the science and engineering research board (serb), government of india, demonstrates the trust and recognition he has garnered in the field of biomechanical research.

Impact and influence 🌍

Rahul’s work in the field of biomechanics is making a significant impact on the medical community, particularly in the design and development of spinal implants. his innovative approach to developing porous interbody cages has the potential to improve the quality of life for patients suffering from lumbar spine conditions. by Biomechanics and Biomaterials combining digital manufacturing with biomechanical analysis, rahul is setting new benchmarks for the effectiveness and longevity of spinal implants, influencing both clinical practices and future research in orthopedic biomechanics.

Legacy and future contributions 🔮

With a strong foundation in biomechanics and a growing portfolio of impactful research, rahul gautam talukdar is poised to leave a lasting legacy in the field of medical implant design. his contributions to spinal health, particularly in the development of lumbar interbody cages, will likely influence the next generation of biomedical engineers and researchers. his future work promises to explore new horizons in biomechanical innovations, contributing to both academic knowledge and practical medical applications.

Notable Publications 

  • Biomechanical analysis of functionally graded porous interbody cage for lumbar spinal fusion
    • Authors: Talukdar, R.G., Saviour, C.M., Dhara, S., Gupta, S.
    • Journal: Computers in Biology and Medicine, 2023, 164, 107281
  • Design modification of surgical drill bit for final osteotomy site preparation towards improved bone-implant contact
    • Authors: Vaidya, P.V., Dutta, A., Rooj, S., Bandyopadhyay, T.K., Dhara, S.
    • Journal: Heliyon, 2023, 9(6), e16451
  • Bone Remodeling Around Solid and Porous Interbody Cages in the Lumbar Spine
    • Authors: Talukdar, R.G., Saviour, C.M., Tiwarekar, K., Dhara, S., Gupta, S.
    • Journal: Journal of Biomechanical Engineering, 2022, 144(10)
  • Numerical analysis of the mechanical behaviour of intact and implanted lumbar functional spinal units: Effects of loading and boundary conditions
    • Authors: Talukdar, R.G., Mukhopadhyay, K.K., Dhara, S., Gupta, S.
    • Journal: Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 2021, 235(7), pp. 792–804