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

Posted on by Innovator Awards

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

Assoc. Prof. Dr. Lijing Teng – supramolecular hydrogel – Best Researcher Award 

Posted on by Innovator Awards

Assoc. Prof. Dr. Lijing Teng - supramolecular hydrogel - Best Researcher Award 

School of Biology and Engineering (School of Modern Industry for Health and Medicine) - Chile

Author Profile 

ORCID 

🎓 Early academic pursuits

Lijing Teng's journey into the world of biomedical engineering began with a deep curiosity for biomaterials and their applications in medicine. she pursued her ph.d. in biomedical engineering at south china university of technology, where she developed a strong foundation in material science, polymer chemistry, and bioengineering. her doctoral research was centered on designing innovative biomaterials with multifunctional properties, laying the groundwork for her future contributions in the field. her academic excellence and dedication positioned her as a promising scientist in biomedical materials research.

🚀 Professional endeavors

As an associate professor at guizhou medical university, lijing teng has dedicated her career to advancing biomaterial science and its applications in regenerative medicine. her research is at the intersection of materials science and biology, where she focuses on developing cutting-edge solutions for medical challenges. she has been instrumental in designing novel hydrogels, adhesives, and porous scaffolds that enhance tissue regeneration, wound healing, and drug delivery. through her innovative teaching methods and mentorship, she has inspired numerous students to explore the potential of biomaterials in medical science.

🧐 Contributions and research focus

Lijing Teng's research revolves around the development of supramolecular biomaterials, which exhibit advanced properties such as self-healing, bioadhesion, and controlled degradation. her work on hydrogels has led to breakthroughs in designing smart materials that mimic natural extracellular matrices, improving their biocompatibility and functionality in clinical applications. her adhesive biomaterials have been optimized for wound closure and surgical applications, providing alternatives to traditional sutures. her research on porous scaffolds has significantly supramolecular hydrogel contributed to tissue engineering by creating environments that promote cell growth and regeneration. her interdisciplinary approach integrates chemistry, physics, and biology to create biomaterials with unprecedented capabilities.

🏆 Accolades and recognition

Throughout her career, lijing teng has received recognition for her outstanding contributions to biomedical engineering. her research publications in high-impact journals have been widely supramolecular hydrogel cited, reflecting her influence in the field. she has presented her findings at international conferences, earning accolades for her pioneering work in biomaterials. her contributions to the design of multifunctional materials have been acknowledged by peers and industry leaders, positioning her as a key researcher in the advancement of supramolecular biomaterials.

👨‍💻 Impact and influence

Lijing Teng's work has significantly impacted the field of biomaterials, particularly in the development of advanced materials for medical applications. her innovative hydrogels and adhesives have the potential to transform wound care, surgical procedures, and tissue engineering. her research has influenced both academia and industry, leading to collaborations with medical supramolecular hydrogel institutions and material scientists to refine and commercialize biomaterial-based medical solutions. through her mentorship, she has cultivated a new generation of researchers dedicated to pushing the boundaries of biomedical engineering.

🌍 Legacy and future contributions

As a leader in biomaterials research, Lijing Teng continues to push the limits of material innovation. her future work aims to further enhance the properties of supramolecular biomaterials, making them more adaptive and responsive to biological environments. she is committed to bridging the gap between fundamental research and clinical applications, ensuring that her materials contribute to better healthcare solutions. her vision extends to fostering global collaborations and interdisciplinary research, solidifying her legacy as a pioneer in biomaterials science. her contributions will continue to shape the future of regenerative medicine, improving lives through cutting-edge biomedical engineering.

Notable Publications 

  • Title: Shape-Recoverable Macroporous Nanocomposite Hydrogels Created via Ice Templating Polymerization for Noncompressible Wound Hemorrhage
    Author(s): Lijing Teng, Kaide Xia, Tianbao Qian, Zuquan Hu, Liang Hong, Ying Liao, Guorui Peng, Zhongrun Yuan, Yunhua Chen, et al.
    Journal: ACS Biomaterials Science & Engineering

  • Title: Supramolecular and dynamic covalent hydrogel scaffolds: from gelation chemistry to enhanced cell retention and cartilage regeneration
    Author(s): Lijing Teng
    Journal: Journal of Materials Chemistry B

  • Title: Weak Hydrogen Bonds Lead to Self-Healable and Bioadhesive Hybrid Polymeric Hydrogels with Mineralization-Active Functions
    Author(s): Lijing Teng
    Journal: Biomacromolecules

  • Title: Synthesis and characterization of star-shaped poly(l-lactide)s with an erythritol core and evaluation of their rifampicin-loaded microspheres for controlled drug delivery
    Author(s): Lijing Teng
    Journal: Polymer Bulletin

  • Title: Synthesis and characterization of star-shaped PLLA with sorbitol as core and its microspheres application in controlled drug release
    Author(s): Lijing Teng
    Journal: Journal of Applied Polymer Science

Assist. Prof. Dr.  Hagar Mohamed Yousef Aly – Medicine and Health Sciences – Best Researcher Award

Posted on by Innovator Awards

Assist. Prof. Dr.  Hagar Mohamed Yousef Aly - Medicine and Health Sciences - Best Researcher Award

Liwa College - United Arab Emirates

Author Profile 

SCOPUS 

ORCID 

🎓 Early academic pursuits

Dr. Hagar Mohamed Yousef Aly began her academic journey with a strong foundation in biochemistry and chemistry. she earned her bachelor of science degree in biochemistry/chemistry from alexandria university, egypt. her passion for medical biochemistry led her to pursue a master's degree from the medical research institute at alexandria university, where she deepened her knowledge in the field. driven by a desire to contribute to the scientific community, she further advanced her academic qualifications by obtaining a phd in medical biochemistry/chemistry from the same institute. throughout her academic journey, dr. aly exhibited exceptional dedication and commitment to understanding the intricate mechanisms of biochemistry and molecular biology.

💼 Professional endeavors

Dr. Aly's professional career spans over 15 years of dedicated service in academia across egypt, the kingdom of saudi arabia (ksa), and the united arab emirates (uae). she began her career as a lecturer of chemistry and biochemistry at alexandria university, where she imparted knowledge in various chemistry-related courses including biophysical chemistry, analytical chemistry, organic chemistry, and inorganic chemistry. her exceptional teaching skills and subject-matter expertise allowed her to transition to batterjie medical college in jeddah, ksa, where she served as a lecturer of medicinal chemistry and biochemistry. during her tenure there, she introduced problem-based learning (pbl) methodology in collaboration with maastricht university, holland, providing students with a modern and practical approach to learning. presently, dr. aly holds the position of assistant professor in medical biochemistry/chemistry at liwa college, abu dhabi, uae. she has been instrumental in delivering high-quality education in clinical chemistry, genetics, molecular biology, hematology, and pathophysiology, contributing significantly to shaping the next generation of medical professionals.

🧪 Contributions and research focus

Dr. Aly's research focus is primarily centered around molecular biology, clinical chemistry, and cancer research. her extensive work in the field of gastric cancer has been recognized through Medicine and Health Sciences several high-impact publications. she has contributed immensely to understanding gene profiling in gastric cancer by investigating the expression levels of genes such as sec13, smad7, ghrl, long non-coding rna ghrlos, and hif-1α in gastric cancer patients. her research has paved the way for potential breakthroughs in early diagnosis and treatment of gastric cancer. additionally, dr. aly has explored the role of cannabinoid receptors in chronic hepatitis c virus in obese and non-obese patients, highlighting her diverse research interests. she has also contributed to advancing drug delivery mechanisms using high-frequency ultrasound-assisted techniques combined with hematite iron oxide nanoparticles for lung cancer treatment, showcasing her interdisciplinary research capabilities in nanotechnology and cancer therapeutics.

🏅 Accolades and recognition

Dr. Aly's outstanding contributions to academia and research have earned her notable recognition within the scientific community. she has presented her work at prestigious international Medicine and Health Sciences conferences, including the 45th and 46th international annual conference of the egyptian society of histology and cytology, where her groundbreaking research on liver enzymes and cancer gene profiling was highly appreciated. her recent publication in cancer nanotechnology journal, focusing on sono-photodynamic lung cancer treatment using chia, cress, and flax conjugated hematite iron oxide nanoparticles, has received commendation for its innovative approach to cancer treatment. dr. aly's academic excellence and impactful research have solidified her position as a distinguished figure in the field of medical biochemistry and chemistry.

🌍 Impact and influence

Throughout her career, dr. aly has significantly impacted the academic and scientific communities. her expertise in clinical chemistry and molecular biology has shaped the knowledge and skills of countless medical students, who now contribute to the global healthcare system. her research on gastric cancer, hepatitis c, and cancer therapeutics has influenced further investigations in Medicine and Health Sciences these areas, providing new perspectives for effective treatment options. by integrating problem-based learning (pbl) methodologies in medical education, dr. aly has revolutionized the learning experience for students, fostering critical thinking and practical application of knowledge. her academic influence extends beyond teaching, as she continues to inspire future researchers and medical professionals through her groundbreaking research and innovative approaches.

👣 Legacy and future contributions

Dr. Aly's legacy in the field of medical biochemistry and chemistry is marked by her unwavering dedication to education, research, and innovation. as she continues her academic journey at liwa college, abu dhabi, she remains committed to advancing scientific knowledge and improving healthcare outcomes through her research. her future contributions are poised to bring new insights into cancer therapeutics, gene profiling, and clinical chemistry, further enhancing the understanding and treatment of various medical conditions. dr. aly envisions continuing her role as a mentor, inspiring young researchers and students to explore the fascinating world of biochemistry and medical science. her profound impact on education, research, and healthcare solidifies her status as a visionary leader in the field.

📜 Notable publications

  • Title: Engineering Solutions in Healthcare: The Government's Role in Decision-Making
    Author(s): Mahmoud Khalifa, Sally M. Elsayed, Rashed Alrasheed, Hagar M. Mohamed
    Journal: 2024 International Conference on Decision Aid Sciences and Applications (DASA), 2025-01-20

  • Title: Ethical and Legal Issues of Regenerative Medicine in the UAE
    Author(s): Mahmoud Khalifa, Amina Toumi, Hagar M. Mohamed
    Journal: 2024 International Conference on Decision Aid Sciences and Applications (DASA), 2025-01-20

  • Title: Navigating Healthcare Structure: Government Policies and Their Impact on Decisions
    Author(s): Mahmoud Khalifa, Samah Anwar, Sally M. Elsayed, Hagar M. Mohamed
    Journal: 2024 International Conference on Decision Aid Sciences and Applications (DASA), 2025-01-20

  • Title: High-frequency ultrasound-assisted drug delivery of chia, cress, and flax conjugated hematite iron oxide nanoparticle for sono-photodynamic lung cancer treatment in vitro and in vivo
    Author(s): Abd El-Kaream S.A., Zedan D.F.M., Mohamed H.M., Soliman A.S.M., El-Kholey S.M., Nasra M.K.E.-D.
    Journal: Cancer Nanotechnology, 2024

  • Title: Future Directions: The Role of Government in Shaping Healthcare Engineering Decisions
    Author(s): Hagar M. Mohamed, Mahmoud Khalifa
    Journal: World Research of Business Administration Journal, 2024-11