Md Sohrab Alam | Drug Delivery Systems | Best Researcher Award

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Mr. Md Sohrab Alam | Drug Delivery Systems | Best Researcher Award

Lord Buddha Koshi Pharmacy College | India

Mr. Md Sohrab Alam is an accomplished academic and pharmaceutical professional recognized for his expertise in pharmaceutics, quality assurance, research, and teaching excellence. With a strong educational foundation that includes a Bachelor of Pharmacy and Master of Pharmacy in Pharmaceutics from Jamia Hamdard, followed by continued progress in doctoral research at Monad University, he has developed a comprehensive understanding of drug delivery science, formulation technologies, and pharmaceutical regulatory principles. His early engagement in research led to his notable project Nanostructured Lipid Carrier Based Transdermal Drug Delivery System of Pioglitazone, conducted under distinguished supervision at Jamia Hamdard, which strengthened his interests in targeted and advanced drug delivery systems. Professionally, he has gained diverse experience across academia, hospital pharmacy, and industrial quality assurance, beginning with a role as Quality Assurance Officer at Brawn Laboratories Ltd., followed by several fulfilling years as a pharmacist within the Shamsaa Pharmacy Group in Saudi Arabia, where he contributed to patient care, medication safety, and therapeutic guidance. His transition into academics marked a significant phase of his career, serving first as an Assistant Professor at the Nibha Institute of Pharmaceutical Sciences and later advancing to the position of Associate Professor at Lord Buddha Koshi Pharmacy College, where he continues to mentor budding pharmacists and inspire research-driven learning. His research contributions include the publication Nanostructured Lipid Carriers of Pioglitazone for Transdermal Application: From Experimental Design to Bioactivity Detail in the journal Drug Delivery, and the study Effects of Europinidine-O-Methylated Anthocyanidine on Scopolamine-Induced Memory Impairments by Improving Neurological Expression: An Integrated In-Silico and ADMET Computational Analysis, published in Learning and Motivation. He is also the author of the academic book Guide to Pharmaceutics: As per PCI Syllabus, published by Shaswat Publication, and holds a design patent for the Automatic Rotary Monoblock Bottle Filling Machine. His active participation in national and international conferences, presentations on innovative drug delivery approaches, and recognition with honors such as the Young Scientist Award highlight his growing influence in pharmaceutical sciences. With professional interests spanning teaching, quality assurance, and R&D, along with multilingual proficiency in English, Hindi, Arabic, and Urdu, Mr. Md Sohrab Alam continues to advance in his mission to contribute meaningful innovations and knowledge to the world of pharmacy and drug development.

Profile: Orcid

Featured Publications

Nanostructured lipid carriers of pioglitazone for transdermal application: from experimental design to bioactivity detail

Lorena Garcia Hevia | Drug Delivery Systems | Best Researcher Award

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Dr. Lorena Garcia Hevia | Drug Delivery Systems | Best Researcher Award

Universidade de Vigo | Spain

Dr. Lorena García Hevia is a distinguished researcher recognized for her pioneering work at the intersection of nanomedicine, microbiology, and biotechnology. As a member of the Hybrid Nanomaterials Research Group at the Galicia Sur Health Research Institute (IIS Galicia Sur), she has dedicated her career to advancing innovative nanotechnological solutions that address critical biomedical challenges. Her research focuses primarily on the design and application of nanoscale systems to improve therapeutic delivery, particularly within the context of infectious disease management and antimicrobial resistance.Affiliated with the CINBIO (Biomedical Research Center) and the Universidade de Vigo in Spain, Dr. García Hevia brings an interdisciplinary approach that bridges biochemical, genetic, and immunological insights with advanced materials science. Her scientific vision emphasizes the development of intelligent nanocarriers that enhance drug stability, optimize bioavailability, and enable targeted therapy. Through this approach, she contributes to transforming conventional treatments into highly efficient, patient-specific solutions.In her recent publication Nanomedicine for Phage Therapy: Encapsulation Strategies for Enhanced Antimicrobial Efficacy, Dr. García Hevia and her colleagues explore the integration of nanotechnology with bacteriophage therapy to overcome limitations in traditional antimicrobial strategies. Her work demonstrates how encapsulation methods—such as polymeric nanoparticles, liposomes, hydrogels, and nanofibers—can significantly improve the stability, delivery, and therapeutic impact of bacteriophages. These innovative formulations facilitate localized and sustained release, providing powerful alternatives against multidrug-resistant infections.Dr. García Hevia’s research is marked by creativity, precision, and translational relevance. Her investigations into responsive nanocarriers and inorganic nanoparticles have opened new avenues for targeted phage delivery, aligning with global efforts to combat antibiotic resistance through sustainable and effective biotechnological interventions. Beyond her scientific achievements, she is deeply engaged in academic mentorship and collaborative research initiatives that strengthen the connection between laboratory innovation and clinical application.Her contributions continue to shape the evolving field of nanomedicine, positioning her as a leading figure in the development of next-generation antimicrobial therapies. Through her commitment to excellence and scientific innovation, Dr. Lorena García Hevia exemplifies the transformative potential of nanotechnology in redefining the future of infection control and precision therapeutics.

Profile: Google Scholar

Featured Publications

García‐Hevia, L., Bañobre‐López, M., & Gallo, J. (2019). Recent progress on manganese‐based nanostructures as responsive MRI contrast agents. Chemistry–A European Journal, 25(2), 431–441.

García-Hevia, L., Valiente, R., Martín-Rodríguez, R., Renero-Lecuna, C., et al. (2016). Nano-ZnO leads to tubulin macrotube assembly and actin bundling, triggering cytoskeletal catastrophe and cell necrosis. Nanoscale, 8(21), 10963–10973.

Rodrigues, R. O., Baldi, G., Doumett, S., García-Hevia, L., Gallo, J., et al. (2018). Multifunctional graphene-based magnetic nanocarriers for combined hyperthermia and dual stimuli-responsive drug delivery. Materials Science and Engineering: C, 93, 206–217.

García‐Hevia, L., Villegas, J. C., Fernández, F., Casafont, Í., González, J., et al. (2016). Multiwalled carbon nanotubes inhibit tumor progression in a mouse model. Advanced Healthcare Materials, 5(9), 1080–1087.

García-Hevia, L., Casafont, I., Oliveira, J., Terán, N., Fanarraga, M. L., & Gallo, J. (2022). Magnetic lipid nanovehicles synergize the controlled thermal release of chemotherapeutics with magnetic ablation while enabling non-invasive monitoring by MRI for melanoma. Bioactive Materials, 8, 153–164.

Ahmad Saeed | Drug Delivery Systems | Best Researcher Award

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Mr. Ahmad Saeed | Drug Delivery Systems | Best Researcher Award

University of Education Lahore | Pakistan

Mr. Ahmad Saeed is a dedicated researcher in the field of analytical chemistry with a strong academic and research background. Currently pursuing a Bachelor of Science in Chemistry at the University of Education, Township Campus, Lahore, he has consistently demonstrated academic excellence with a notable CGPA of 3.60. Throughout his academic journey, he has actively participated in multiple research projects, including the development of biodegradable films containing biological macromolecules impregnated with curcumin for food preservation, investigation of the toxic effects of heavy metals in cosmetics on human health, and the advancement of revolutionized electrochemical sensors utilizing 2D materials as sensor electrodes. He has also contributed to innovative environmental projects, such as Clay Eco Filters, aimed at developing metal nanoparticle-impregnated clay tablets for water purification, and Ecofoil, focused on synthesizing biodegradable films for sustainable food packaging solutions.Mr. Ahmad Saeed has enriched his academic experience through hands-on laboratory work as a Graduate Research Assistant, where he worked extensively on projects involving the synthesis of nanomaterials for environmental and analytical applications. As a Teaching Assistant, he contributed to the academic development of students by assisting in atomic spectrophotometry courses, grading assignments, and providing academic guidance. He has participated in major conferences, including the International Conference on Trends and Research in Chemistry and the International Conference on Material Chemistry and Industrial Technologies, serving as both an organizer and a participant, thus gaining exposure to scholarly dialogues and academic networking.His research contributions are reflected in several scholarly publications, including Multivariate Statistical Analysis of Cosmetics Due to Potentially Toxic/Heavy Metal(loid) Contamination: Source Identification for Sustainability and Human Health Risk Assessment published in Sustainability, Structural Development of Curcumin: A Natural Product Arsenal for Diverse Therapeutic Targets – Seizing Opportunities Through Serendipity and Rational Design in the Journal of Molecular Structure, and FDA-Approved Sulfonamides-Containing Molecules: An Insightful Review on the Synthesis Strategy, Medical Indication, and Their Binding Mode under review in Chemistry and Biodiversity. These works highlight his interest in environmental sustainability, analytical chemistry, natural products, and biomedical applications.

Profile: Orcid

Featured Publications

Ahmed, M., Basheer, S., Mughram, M. H. A., Iqbal, D. N., Qamar, S., Saeed, A., Batool, R., Sanaullah, M., Raza, H., & Hussain, R. (2025). Structural development of curcumin: A natural product arsenal for diverse therapeutic targets—Seizing opportunities through serendipity and rational design. Journal of Molecular Structure.

Aslam, A. A., Ahmed, M., Mughram, M. H. A. L., Habib-ur-Rahman Mahmood, M., Basheer, S., Hussain, R., Eiman, E., Sanaullah, M., Raza, H., Saeed, A., et al. (2025). Sulfonamides as a promising scaffold in drug discovery: An insightful review on FDA-approved molecules, synthesis strategy, medical indication, and their binding mode. Chemistry and Biodiversity.

Ahmed, M., Basheer, S., Mughram, M. H. A., Iqbal, D. N., Qamar, S., Saeed, A., Batool, R., Sanaullah, M., Raza, H., & Hussain, R. (2025). Multivariate statistical analysis of cosmetics due to potentially toxic/heavy metal(loid) contamination: Source identification for sustainability and human health risk assessment. Sustainability.

Zhen Jin | Drug Delivery Systems | Best Researcher Award

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Dr. Zhen Jin | Drug Delivery Systems | Best Researcher Award

Assistant Professor at Xinxiang Medical University | China

Dr. Zhen Jin is a distinguished researcher specializing in nanomedicine, controlled drug delivery, and medical micro-nano robots. He completed doctoral and postdoctoral research at the Medical Robotics Research Institute of Chonnam National University, South Korea, before joining Xinxiang Medical College. His innovative work integrates nanodrug design, advanced therapeutic delivery systems, and cancer diagnostics. With more than 30 SCI-indexed publications, including numerous first-author papers, and four granted national invention patents, his contributions continue to influence biomedical science. His pioneering developments in imaging-guided therapy and synergistic nanocomposites highlight his commitment to advancing cancer treatment and medical robotics research globally.

Publication Profile 

Google Scholar

Education 

Dr. Zhen Jin pursued his doctoral degree at the Medical Robotics Research Institute, Chonnam National University, South Korea, where he also completed postdoctoral research. His academic journey provided a strong foundation in interdisciplinary biomedical engineering, robotics, and nanomedicine. During this period, he engaged in multiple national-level projects, honing expertise in medical micro-nano systems and cancer therapy. This rigorous academic training prepared him to advance research in nanodrugs, controlled drug delivery, and medical robotics. Following this, he transitioned to Xinxiang Medical College, where he integrated his educational background into teaching and research to foster innovation in biomedical sciences.

Experience

Dr. Zhen Jin has extensive research and academic experience, beginning with his doctoral and postdoctoral tenure in South Korea, where he contributed to significant national key projects. His expertise spans nanodrug design, micro-nano robotics, and advanced cancer diagnosis and treatment technologies. Currently, he is a faculty member at Xinxiang Medical College, where he leads cutting-edge projects funded by Henan Province. He has successfully published more than 30 SCI papers, authored key innovations, and secured national invention patents. His experience bridges academia and applied research, positioning him as a leader in biomedical nanotechnology and precision therapeutic development.

Awards and Honors

Dr. Zhen Jin has received recognition for his outstanding contributions to biomedical science, particularly in the fields of nanomedicine and cancer therapy. He has successfully participated in national research projects in South Korea and led provincial-level science and technology projects in China. His impactful research has earned him four national invention patents and numerous publications in high-impact SCI journals. His citation index reflects his growing influence in scientific communities, with an h-index of 21. These honors underscore his position as a promising and innovative researcher, making him a strong candidate for the Best Researcher Award.

Research Focus

Dr. Zhen Jin’s research focuses on nanomedicine, controlled drug delivery systems, and micro-nano robotic platforms for cancer therapy. He has developed multifunctional nanocomposites that combine therapeutic delivery with imaging capabilities for precise diagnosis and treatment. His work on DOX-HSP ananotheranostics exemplifies his focus, showcasing biocompatibility, controlled drug release, and imaging-guided multimodal therapy. By integrating photothermal and chemotherapeutic effects, his studies demonstrate enhanced anti-tumor efficacy. His pioneering approach seeks to overcome challenges of premature drug release and tumor-specific targeting, positioning his research at the forefront of personalized medicine, cancer diagnostics, and next-generation biomedical technologies.

Publication Top Notes

Human adipose–derived mesenchymal stem cell–based medical microrobot system for knee cartilage regeneration in vivo

Hybrid-actuating macrophage-based microrobots for active cancer therapy

A magnetically guided self‐rolled microrobot for targeted drug delivery, real‐time X‐Ray imaging, and microrobot retrieval

A thermo-electromagnetically actuated microrobot for the targeted transport of therapeutic agents

A magnetically actuated microscaffold containing mesenchymal stem cells for articular cartilage repair

Multifunctional nanorobot system for active therapeutic delivery and synergistic chemo-photothermal therapy

A hybrid actuated microrobot using an electromagnetic field and flagellated bacteria for tumor‐targeting therapy

A soft-magnet-based drug-delivery module for active locomotive intestinal capsule endoscopy using an electromagnetic actuation system

High-fidelity bioelectronic muscular actuator based on porous carboxylate bacterial cellulose membrane

Dual tumor-targeted multifunctional magnetic hyaluronic acid micelles for enhanced MR imaging and combined photothermal-chemotherapy

Ecofriendly high-performance ionic soft actuators based on graphene-mediated cellulose acetate

Preparation of HIFU-triggered tumor-targeted hyaluronic acid micelles for controlled drug release and enhanced cellular uptake

Feasibility study of dual-targeting paclitaxel-loaded magnetic liposomes using electromagnetic actuation and macrophages

Shape memory alloy–based biopsy device for active locomotive intestinal capsule endoscope

Conclusion

Dr. Zhen Jin pioneering contributions in nanomedicine, micro-nano robots, and controlled drug delivery make him a highly deserving candidate for the Best Researcher Award. His combination of innovative patents, high-impact publications, and cutting-edge theranostic development reflects exceptional promise for shaping the future of biomedical science. With continued emphasis on clinical translation and international engagement, his work is poised to leave a transformative mark on cancer diagnosis and therapy.