Lingmin Zhang | Pharmacology, Toxicology and Pharmaceutical Science | Research Excellence Award

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Prof. Lingmin Zhang | Pharmacology, Toxicology and Pharmaceutical Science | Research Excellence Award

Guangzhou Medical University | China

Prof. Lingmin Zhang is a leading researcher whose work integrates pharmaceutics, biomedical materials, and gene delivery, contributing significantly to advanced therapeutic strategies, particularly in lung cancer and inflammatory diseases. With 3,077 citations , 79 publications, and an h-index of 27, the researcher's scholarly impact is widely recognized. The work focuses on innovative nano-based and biomimetic delivery platforms, including nano-PROTACs, exosomes, microfluidic nanovesicles, and CRISPR/Cas9 carriers, offering transformative possibilities for targeted and precision medicine. Supported by major grants from the National Natural Science Foundation of China (projects 82572415, 82072047, 81700382), the researcher has developed cutting-edge strategies such as reprogramming tumor-associated macrophages, overcoming drug resistance in lung cancer, and reversing epigenetic silencing through nanoparticle-mediated gene delivery. Influential publications in high-impact journals—including Journal of Controlled Release, Drug Resistance Updates, ACS Nano, Angewandte Chemie, Advanced Science, and Molecular Cancer—highlight breakthroughs in nano-therapeutics, PROTAC technologies, artificial exosomes, and nucleic-acid delivery systems. Collectively, these contributions position the researcher at the forefront of translational nanomedicine, with ongoing work offering new directions for precision oncology, regenerative strategies, and next-generation drug delivery platforms.

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Featured Publication

He, M., Peng, Q., Yang, Q., Guan, X., Liu, Q., Chen, R., Zhou, D., Wang, L., Zhang, Y., Li, S., Su, J., & Zhang, L. (2026). In situ reprogramming of tumor associated macrophages with versatile nano-epigenetic inhibitor for lung cancer therapy. Journal of Controlled Release, 2026, 114497.

Zhang, L., He, L., Lin, Y., Wei, J., Tang, S., Lei, X., Lin, X., Zhou, D., Fu, L., Li, Y., He, J., Liang, L., & Yu, X. (2026). The novel strategy to overcome drug-resistant lung cancer: Dual targeting delivery of PROTAC to inhibit cancer-associated fibroblasts and lung cancer cells. Drug Resistance Updates, 84, 101316.

Chen, S., Chen, E., Su, J., Gong, Y., Tang, S., Qin, A., Shen, A., Tang, S., & Zhang, L. (2025). Magnetically navigated nano-PROTAC ameliorates acute lung injury. Journal of Nanobiotechnology, 23, 622.

Li, X., Qin, Z., Wang, S., Zhang, L., & Jiang, X. (2025). Microfluidics-assembled nanovesicles for nucleic acid delivery. Accounts of Chemical Research, 58, 570–582.

Liang, L., Peng, W., Qin, A., Zhang, J., Chen, R., Zhou, D., Zhang, X., Zhou, N., Yu, X., & Zhang, L. (2024). Intracellularly synthesized artificial exosome treats acute lung injury. ACS Nano, 18(32), 21009–21023.

Guan, X., Xu, X., Tao, Y., Deng, X., He, L., Lin, Z., Chang, J., Huang, J., Zhou, D., Yu, X., Wei, M., & Zhang, L. (2024). Dual targeting and bioresponsive nano-PROTAC induced precise and effective lung cancer therapy. Journal of Nanobiotechnology, 22, 692.

Zhang, L., Lin, Y., Li, S., Guan, X., & Jiang, X. (2023). In situ reprogramming of tumor-associated macrophages with internally and externally engineered exosomes. Angewandte Chemie International Edition, 62(11), e202217089.

Liang, L., Cen, H., Huang, J., Qin, A., Xu, W., Wang, S., Chen, Z., Tan, L., Zhang, Q., Yu, X., Yang, X., & Zhang, L. (2022). The reversion of DNA methylation-induced miRNA silence via biomimetic nanoparticles-mediated gene delivery for efficient lung adenocarcinoma therapy. Molecular Cancer, 21(1), 186.

Zhang, H., Peng, R., Chen, S., Shen, A., Zhao, L., Tang, W., Wang, X., Li, Z., Zha, Z., Yi, M., & Zhang, L. (2022). Versatile nano-PROTAC-induced epigenetic reader degradation for efficient lung cancer therapy. Advanced Science, 9(29), 2202039.

Zhang, L., Wang, L., Xie, Y., Wang, P., Deng, S., Qin, A., Zhang, J., Yu, X., Zheng, W., & Jiang, X. (2019). Triple-targeting delivery of CRISPR/Cas9 to reduce the risk of cardiovascular diseases. Angewandte Chemie International Edition, 58(36), 12404–12408.

Keon-Hyoung Song | Pharmacology, Toxicology and Pharmaceutical Science | Best Researcher Award

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Prof. Dr. Keon-Hyoung Song | Pharmacology, Toxicology and Pharmaceutical Science | Best Researcher Award

Soonchunhyang University | South Korea

Prof. Dr. Keon-Hyoung Song is a distinguished researcher whose work bridges pharmaceutical sciences, drug delivery systems, and pharmacokinetics. With 708 citations, 27 scholarly publications, and an h-index of 13, his research has significantly advanced the understanding of membrane permeation enhancers, drug formulation, and solubilization strategies. His extensive portfolio includes high-impact studies on intestinal absorption mechanisms, cocrystal engineering, and pharmacokinetic optimization, published in reputed journals such as Pharmaceutics, European Journal of Medicinal Chemistry, and Journal of Controlled Release. Prof. Song’s innovations extend beyond academia, with over 25 international patents registered across the U.S., Europe, and Korea, focusing on permeation-enhancing peptides, liposomal carriers, and pharmaceutical formulations. His pioneering patents, including those on mucous membrane permeation peptides (EP 3875103, 2025) and sugar alcohol-based liposome compositions, underscore his role in translating laboratory discoveries into therapeutic applications. Licensed as both a Patent Attorney and a Pharmacist, he effectively integrates regulatory insight with scientific innovation. Prof. Song’s sustained contributions to quantitative drug analysis using LC-MS and formulation optimization have made him a leading figure in advancing next-generation drug delivery technologies and pharmaceutical development.

Profile : Scopus

Featured Publications

Jeong, D.-H., Kim, J.-W., & Song, K.-H. (2025). Improved intestinal permeation of cyclosporin A by FCIGRL-modified tight junction modulator in rats. Pharmaceutics, 17(11), 1395.

Park, G., Galdamez, A., Song, K.-H., Le, M., Kim, K., & Lin, J. H. (2024). Ethnic variation and structure–function analysis of tauopathy-associated PERK alleles. Israel Journal of Chemistry, 64(12).

Song, K.-H. (2024). Effect of tight junction-modulating FCIGRL-modified peptides on the intestinal absorption of doxorubicin in rats. Pharmaceutics, 16(5), 650.

Jiang, F.-L., Jeong, D.-H., Eom, S.-H., Lee, H.-M., Cha, B.-J., Park, J.-S., Kwon, R.-K., Nam, J.-Y., Yu, H.-S., Heo, S.-H., Kim, C.-H., & Song, K.-H. (2024). Effects of enteric-coated formulation of sodium bicarbonate on bicarbonate absorption and gastrointestinal discomfort. Nutrients, 16(5), 744.

Koo, N. R., Yoon, S., Song, K.-H., Baek, M. J., Jeon, S., & Im, J. (2024). Tumor-homing peptide iRGD-conjugate enhances tumor accumulation of camptothecin for colon cancer therapy. European Journal of Medicinal Chemistry, 265, 116050.

Park, G., Xu, K., Chea, L., Kim, K., Safarta, L., Song, K.-H., Wu, J., Park, S., Min, H., Hiramatsu, N., Han, J., & Lin, J. H. (2023). Neurodegeneration risk factor EIF2AK3 (PERK) influences tau protein aggregation. The Journal of Biological Chemistry, 299(2), 102821.

Eom, Y. S., Jeong, D., Ryu, A.-R., Song, K.-H., Im, D. S., & Lee, M.-Y. (2022). Daphne odora exerts depigmenting effects via inhibiting CREB/MITF and activating AKT/ERK-signaling pathways. Current Issues in Molecular Biology, 44(8), 3312–3323.

Kim, H., Song, K.-H., Ambegaonkar, J. P., Chung, S., Jeon, K., Jiang, F. L., Eom, J. J., & Kim, C.-H. (2022). Two-megahertz impedance index prediction equation for appendicular lean mass in Korean older people. BMC Geriatrics, 22(1), 385.

Jiang, F., Tang, S., Eom, J.-J., Song, K.-H., Kim, H., Chung, S., & Kim, C.-H. (2022). Accuracy of estimated bioimpedance parameters with octapolar segmental bioimpedance analysis. Sensors, 22(7), 2681.

Yoon, Y. M., Lee, J. H., Song, K.-H., Noh, H., & Lee, S. H. (2020). Melatonin-stimulated exosomes enhance the regenerative potential of chronic kidney disease-derived mesenchymal stem/stromal cells via cellular prion proteins. Journal of Pineal Research, 68(3), e12632.

Lee, J. H., Yoon, Y. M., Song, K.-H., Noh, H., & Lee, S. H. (2020). Melatonin suppresses senescence-derived mitochondrial dysfunction in mesenchymal stem cells via the HSPA1L-mitophagy pathway. Aging Cell, 19(3), e13111.

Cha, S. J., Choi, H.-J., Kim, H.-J., Choi, E. J., Song, K.-H., Im, D. S., & Kim, K. (2020). Parkin expression reverses mitochondrial dysfunction in fused in sarcoma-induced amyotrophic lateral sclerosis. Insect Molecular Biology, 29(1), 56–65.*

Masroor Badshah | Pharmacology, Toxicology and Pharmaceutical Science | Best Researcher Award

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Dr. Masroor Badshah | Pharmacology, Toxicology and Pharmaceutical Science | Best Researcher Award

Monash University | Australia

Author Profile

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Early Academic Pursuits

Dr. Masroor Badshah’s academic foundation is marked by a rigorous pursuit of medicine and anatomical sciences. Beginning with his degree in Medicine and Surgery, he developed an early research interest in the clinical relevance of anatomy, completing projects on skin diseases and vascular variations. His postgraduate studies at the University of Dundee expanded his expertise into human anatomy, where he defended a dissertation on carotid artery variations. This path led him to Monash University, where he earned his doctorate in medicine, focusing on oxytocin signaling in regulating the myogenic tone of the prostate and bladder. These early endeavors established a solid base for his later contributions to pharmacology and biomedical sciences.

Professional Endeavors

Dr. Badshah’s professional journey spans multiple countries, reflecting both versatility and international recognition. He began his teaching career as a lecturer and assistant professor in human anatomy at medical institutions in Pakistan before moving to Scotland and later Australia. His teaching associate roles at Monash University and research assistantship at the Monash Institute of Pharmaceutical Sciences allowed him to mentor students, design innovative teaching methodologies, and participate in collaborative research. His clinical internships in medicine and surgery also provided him with practical exposure that enriched his academic and research perspectives.

Contributions and Research Focus

At the core of Dr. Badshah’s career lies his dedication to advancing knowledge in pharmacology, toxicology, and pharmaceutical sciences. His doctoral work investigated the pharmacological role of oxytocin receptor antagonists in bladder and prostate function, with implications for overactive bladder treatments. His broader research includes studies in human surface anatomy, craniofacial asymmetry, morphometry of skeletal structures, and the clinical relevance of anatomical variations. By combining anatomical precision with pharmacological inquiry, he bridges the gap between foundational science and therapeutic application.

Accolades and Recognition

Throughout his career, Dr. Badshah has been honored with prestigious awards and scholarships, including the Monash Graduate Scholarship, Faculty International Tuition Scholarship, and the University of Dundee Tuition Scholarship. His academic excellence is reflected in multiple publications in peer-reviewed journals such as Biomedicines, Clinical Anatomy, and the Italian Journal of Anatomy and Embryology. He has also been a frequent presenter at international conferences, where his research findings on oxytocin signaling and anatomical morphometry have received recognition from the scientific community.

Impact and Influence

Dr. Badshah’s influence extends beyond research publications to shaping the next generation of medical and pharmaceutical scientists. His teaching philosophy emphasizes critical thinking, active participation, and evidence-based learning. By integrating innovative methodologies and fostering a collaborative learning environment, he has left a lasting impression on his students across different institutions. His work in surface anatomy and pharmacological sciences contributes to both clinical education and translational research, making his influence both academic and practical.

Legacy and Future Contributions

As a researcher with interdisciplinary expertise, Dr. Badshah’s legacy lies in his ability to merge anatomy with pharmacology for improved clinical outcomes. His ongoing research into bladder and prostate physiology offers potential breakthroughs in addressing urological disorders. Looking ahead, he aims to expand his collaborations globally, secure independent research leadership, and explore translational aspects of his work that could lead to therapeutic innovations. His legacy will continue to inspire young researchers and contribute to the evolution of biomedical sciences.

Publication

Investigating the Pharmacological Impact of Atosiban, an Oxytocin Receptor Antagonist, on Bladder and Prostate Contractions Within Obese and Non-Obese Rats
Authors: Masroor Badshah, Jibriil Ibrahim, Nguok Su, Penny Whiley, Sarah M. Turpin-Nolan, Khaled A. Elnahriry, Ralf Middendorff, Michael Whittaker, Betty Exintaris
Journal: Biomedicines
Year: 2025

Age-Dependent Effects of Oxytocin and Oxytocin Receptor Antagonists on Bladder Contractions: Implications for the Treatment of Overactive Bladder Syndrome
Authors: Masroor Badshah, Jibriil Ibrahim, Nguok Su, Penny Whiley, Ralf Middendorff, Michael Whittaker, Betty Exintaris
Journal: Biomedicines
Year: 2024

The Effects of Age on Prostatic Responses to Oxytocin and the Effects of Antagonists
Authors: Masroor Badshah, Jibriil Ibrahim, Nguok Su, Penny Whiley, Michael Whittaker, Betty Exintaris
Journal: Biomedicines
Year: 2023

Type of Treatment Supporters in Successful Completion of Tuberculosis Treatment: A Retrospective Cohort Study in Pakistan
Authors: Sana Hussain, Jamshed Hasnain, Zareen Hussain, Masroor Badshah, Hafeez Siddique, Christina Fiske, April Pettit
Journal: The Open Infectious Diseases Journal
Year: 2018

Morphology of the Human Hard Palate: A Study on Dry Skulls
Authors: Masroor Badshah, Roger Soames, Muhammad Jaffar Khan, Jamshaid Hasnain
Journal: Italian Journal of Anatomy and Embryology
Year: 2018

Conclusion

Dr. Masroor Badshah exemplifies the qualities of a dedicated academic, skilled researcher, and inspiring mentor. His career trajectory reflects a balance of teaching, research, and clinical exposure, with a focus on advancing pharmacology and anatomical sciences. His publications, conference presentations, and mentoring of students have strengthened his academic influence, while his research contributions offer practical applications in medicine. With a strong foundation and a vision for global collaboration, Dr. Badshah’s journey positions him as a leading figure in biomedical and pharmaceutical research, making his recognition as a distinguished researcher both timely and well-deserved.