Mohammad Shahangir Biswas | Cellular Toxicity | Best Researcher Award

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Dr. Mohammad Shahangir Biswas | Cellular Toxicity | Best Researcher Award

Dr. Mohammad Shahangir Biswas | University of Science & Technology Chittagong | Bangladesh

Dr. Mohammad Shahangir Biswas is a distinguished academician and researcher in the fields of Biochemistry, Biotechnology, and Public Health, currently serving as an Assistant Professor at the University of Science and Technology Chittagong (USTC), Bangladesh. He worked as a Postdoctoral Research Associate at the University of Wisconsin-Madison, USA. His academic and research journey reflects a dedication to global health issues, molecular biology, and neurophysiology. Previously, he served as Assistant Professor at Khwaja Yunus Ali University. He has co-authored more than 48 scientific publications, including multiple first-author articles in The Lancet and other Q1 journals. With international exposure and extensive research collaborations, he brings a strong commitment to scientific excellence. Dr. Biswas is fluent in English, speaks Japanese (basic), and is a native speaker of Bangla. He is passionate about public health advancement, biomedical research, and mentoring the next generation of scientists.

Publication Profiles:

Scopus
Orcid

Education:

Dr. Biswas earned his Ph.D. in Biochemistry/Medical Science from Tokyo Medical and Dental University, supported by the prestigious MEXT Scholarship. He later completed a Postdoctoral Fellowship at the University of Wisconsin-Madison, USA, contributing to advanced research in public health and neurophysiology. Prior to his doctoral studies, he obtained his M.Sc. (Thesis) and B.Sc. (Hons.) degrees in Biochemistry and Molecular Biology from the University of Rajshahi, Bangladesh. His early academic excellence earned him multiple scholarships and positioned him for a strong career in scientific research. This strong educational foundation, combined with global exposure, has equipped him with expertise in molecular biology, public health research, and biotechnological innovation. Dr. Biswas continues to use his academic training to lead impactful research, particularly in disease burden analysis and biomedical therapeutics.

Experience:

Dr. Mohammad Shahangir Biswas brings a diverse academic and research background spanning over a decade. He served as Assistant Professor at Khwaja Yunus Ali University and later joined USTC as Assistant Professor, soon to be active as an Associate Professor. He conducted impactful postdoctoral research at the University of Wisconsin-Madison, contributing to global public health research initiatives. His teaching and research cover Biochemistry, Biotechnology, Neurophysiology, and Public Health. In addition to his teaching roles, Dr. Biswas is a Senior Collaborator in the Global Burden of Disease (GBD) Study, contributing to several high-impact international publications. His strong leadership, grant acquisition, and mentoring skills have made him an influential figure in Bangladesh’s biomedical research landscape. He remains dedicated to fostering collaborative research and academic excellence both locally and internationally.

Awards and Honors:

Dr. Biswas has received numerous awards and recognitions throughout his academic journey. Notably, he was awarded the Japanese MEXT Scholarship for his Ph.D. studies in Japan—a highly competitive and prestigious international award. His undergraduate and postgraduate achievements at the University of Rajshahi were recognized with merit-based scholarships. Additionally, he received an R&D Grant from the Ministry of Science and Technology, Bangladesh, for conducting impactful research. His research contributions to major international collaborations such as the Global Burden of Disease Study have further established his credibility and excellence in global health research. His work has been accepted in top-tier journals including The Lancet and JACC, cementing his role as a leading researcher from Bangladesh on the global stage. These honors reflect his dedication, academic brilliance, and contributions to advancing medical science, especially in the fields of public health, neurodegeneration, and biochemistry.

Research Focus:

Dr. Shahangir Biswas’s research focuses on the molecular basis of disease, global health burden, neurodegeneration, and biomedical intervention strategies. He has contributed significantly to the Global Burden of Disease (GBD) Study, publishing extensively on cancer, cardiovascular diseases, and immunization trends. His work integrates biochemistry, biotechnology, and public health, aiming to identify mechanistic pathways of diseases like Alzheimer’s and tuberculosis, and develop therapeutic interventions. Additionally, he explores snake venom biochemistry, vaccine development, and the impact of social factors such as social media on mental health. Dr. Biswas is passionate about interdisciplinary research combining molecular diagnostics, bioinformatics, and global epidemiological data. His current work includes identifying biomarkers, assessing toxicology impacts, and predicting future disease trends using large-scale datasets. With over 48 peer-reviewed publications, he maintains a strong collaboration network internationally and is a vocal advocate for translational research that informs policy and clinical practice.

Publications Top Notes: 

  1. The global, regional, and national burden of cancer, 1990–2023 – The Lancet

  2. The global burden of cancer: Forecasts to 2050 – The Lancet, Accepted

  3. Global trends in childhood vaccination coverage 1980–2023 – The Lancet, Accepted

  4. Burden of Cardiovascular Diseases in 204 countries (1990–2023) – JACC, Accepted

  5. Biochemical Profile of Bangladeshi Russell’s Viper Venom – Journal of Toxicology, Accepted

  6. Neurodegeneration in Alzheimer’s Disease: Mechanisms and Therapies – Advanced Neurology, Accepted

  7. Musculoskeletal Extrapulmonary TB in Lagos, Nigeria – Health Sci Rep, Accepted

  8. Cytokines and Vascular Inflammation in Viral Infections – Health Sci Rep, Accepted 2

  9. Social Media and Mental Health of Young Adults in Bangladesh – Health Sci Rep, Accepted

  10.  Emerging Evidence on HKU5-CoV-2 – Romanian Journal of Infectious Diseases

Conclusion:

In conclusion, Dr. Mohammad Shahangir Biswas is a highly suitable candidate for the Best Researcher Award, given his consistent and impactful contributions to biomedical and public health research, his impressive publication record in world-renowned journals, and his strong academic foundation. He has demonstrated a deep commitment to advancing scientific knowledge with global relevance and interdisciplinary reach. With continued strategic focus on leadership roles in research, mentorship, and innovation, Dr. Biswas is well-positioned not only to receive this award but also to make even greater contributions to science and society in the years ahead.

Yavuz Tekelioğlu | Cancer Cell Biology | Best Academic Researcher Award

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Prof. Dr. Yavuz Tekelioğlu | Cancer Cell Biology | Best Academic Researcher Award

Prof. Dr. Yavuz Tekelioğlu | Karadeniz Technical University | Turkey

Prof. Dr. Yavuz Tekelioğlu is a distinguished professor at Karadeniz Technical University’s Faculty of Medicine, specializing in histology, embryology, and toxicology. He has built a prolific academic career focused on cellular and tissue analysis using advanced methods like flow cytometry. Since beginning as a research assistant, he has steadily advanced through academic ranks, culminating in a full professorship. He has supervised numerous theses, contributing significantly to training future scientists. His research emphasizes the protective effects of antioxidants and stem cell therapies on tissue toxicity, with over 100 peer-reviewed publications. Active in professional societies, he also provides comprehensive educational instruction in medicine and dentistry. Prof. Tekelioğlu is committed to advancing biomedical research, particularly in reproductive and hepatic toxicology, through innovative experimental approaches.

Publication Profile:

Scopus

Education:

Prof. Dr. Yavuz Tekelioğlu completed his higher education at Karadeniz Technical University, where he earned his PhD after serving as a research assistant. His academic foundation is firmly rooted in medical sciences, with a focus on histology and embryology. During his doctoral studies, he developed expertise in experimental toxicology and cellular biology, particularly utilizing flow cytometry for immunophenotyping. His training includes specialized certifications in scientific research ethics, flow cytometry techniques, and institutional educational management. These credentials equip him to conduct rigorous, ethical research and provide effective academic leadership. Continuous participation in national and international workshops and symposiums reflects his commitment to staying current with cutting-edge methodologies and ethical standards in biomedical research.

Experience:

Starting as a research assistant, Prof. Tekelioğlu quickly advanced to PhD research assistant, assistant professor, associate professor, and finally full professor at Karadeniz Technical University. Over more than three decades, he has taught histology and embryology to medical, dental, and graduate students while supervising numerous theses on tissue toxicity and protective agents. He has led multiple TÜBİTAK and university-funded projects focusing on mesenchymal stem cells and toxicological evaluations using flow cytometry and histopathology. His academic service extends to practical flow cytometry training, contributing to capacity building in biomedical research. His administrative roles include coordinating research ethics training and educational management. He is a member of prominent scientific societies, contributing to Turkey’s scientific community. His career demonstrates dedication to both research and education.

Research Focus:

Prof. Dr. Tekelioğlu’s research primarily focuses on the histopathological and immunological effects of toxic agents on reproductive and hepatic tissues. His work extensively explores the protective roles of antioxidants like vitamin E, lycopene, beta-glucan, and Coenzyme Q10 against methotrexate-induced toxicity. Employing flow cytometry, histology, and biochemical assays, his studies provide mechanistic insights into cellular apoptosis, oxidative stress, and tissue regeneration. He investigates mesenchymal stem cells for their therapeutic potential in tissue repair and immunomodulation. His experimental models often include rats and mice, enabling controlled studies of drug-induced organ damage and protective interventions. By bridging toxicology with cellular analysis, his research contributes to safer clinical drug use and novel treatment strategies. Additionally, his recent work on ovarian and cardiac protection highlights translational relevance. His interdisciplinary approach combines toxicology, reproductive biology, and flow cytometry, establishing him as a leader in biomedical research.

Publication Top Notes: 

  • Coenzyme Q10 may protect ovarian tissue against methotrexate-induced gonadotoxicity: a biochemical, flow cytometric, and histopathological study

  • A Comparison of the Flow Cytometric Analysis Results of Benign and Malignant Serous Tumors of the Ovary

  • Should combined MTX and CoQ10 use be reconsidered in terms of steatosis? A biochemical, flow cytometry, histopathological experimental study

  • Histological and flow cytometric evaluation of astaxanthin’s effects against cyclophosphamide induced heart injury in rats

  •  Melamine exposure during the weaning period negatively affects ovarian reserve

Conclusion:

Prof. Dr. Yavuz Tekelioğlu is well-qualified and highly suitable for the Best Academic Researcher Award based on his extensive career, strong research leadership, significant scholarly contributions, and educational impact. His focused expertise on toxicology, histology, and cellular analysis is both relevant and impactful.

With strategic enhancements in international collaborations and visibility, he can further solidify his standing as a leading academic researcher. Nonetheless, his current achievements and dedication clearly merit recognition at this level.

Sedigheh Gharbi | Stem Cell Research | Best Researcher Award

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Dr. Sedigheh Gharbi | Stem Cell Research | Best Researcher Award

Dr. Sedigheh Gharbi | Shahid Bahonar University of Kerman, Kerman, Iran | Iran

Assistant Prof. Dr. Sedigheh Gharbi is a dedicated Iranian biologist. She is currently an Assistant Professor at Shahid Bahonar University of Kerman, specializing in molecular biology with a strong focus on non-coding RNAs and their roles in cancer and cardiac regeneration. With over a decade of academic and research experience, Dr. Gharbi has contributed extensively to understanding microRNAs and long non-coding RNAs in disease mechanisms. She is recognized for her work on cardiomyocyte regeneration, cancer biology, and novel RNA regulatory networks. Dr. Gharbi has published numerous peer-reviewed articles, demonstrating her commitment to advancing biomedical research. Her research aims to translate molecular findings into potential therapeutic strategies, especially in oncology and regenerative medicine. She is also known for mentoring students and collaborating internationally to foster innovation in life sciences.

Publication Profile: 

Google Scholar

Education:

Dr. Sedigheh Gharbi completed her PhD in Molecular Biology at Tarbiat Modares University, Tehran. Her doctoral thesis focused on the microRNA expression profile alterations in serum and urine of sulfur mustard victims, under the supervision of Prof. Seyyed Javad Mowla. This work laid the foundation for her expertise in microRNAs and their diagnostic potential in toxicology and disease. Before her PhD, she earned a Master of Science degree from the University of Isfahan, where she conducted research on the mutational screening of the PIK3CA gene in breast cancer patients under Prof. Manoochehr Tavassoli. This early work sparked her interest in cancer genetics and molecular markers. Her education combined advanced molecular techniques with applied biomedical research, equipping her with the skills necessary for innovative studies in RNA biology and its implications in human diseases.

Experienc:

Since 2014, Dr. Gharbi has served as an Assistant Professor at Shahid Bahonar University of Kerman, where she lectures and leads research in molecular biology and cancer genetics. Her academic career is marked by active involvement in teaching, supervising graduate students, and securing research projects. She has a proven record in managing interdisciplinary studies focused on cardiomyocyte regeneration and RNA biology. Dr. Gharbi’s research experience spans molecular profiling of cancer biomarkers, non-coding RNA regulatory networks, and nanotechnology applications in drug delivery. She has collaborated with multiple research teams nationally and internationally, contributing to both fundamental science and translational medicine. Her role involves experimental design, bioinformatics analysis, and dissemination of findings through scientific publications and conferences. Dr. Gharbi’s experience in mentoring young scientists and publishing extensively positions her as a leader in her field.

Research Focus:

Dr. Gharbi’s primary research focus lies in the regulatory roles of non-coding RNAs—especially microRNAs (miRNAs) and long non-coding RNAs (lncRNAs)—in disease pathogenesis and therapy. She investigates cardiomyocyte regeneration by exploring how lncRNAs influence cell cycle progression, aiming to improve heart repair after injury. In oncology, her research centers on the regulatory structure of E-cadherin and the involvement of non-coding RNAs in cancer progression and management. Additionally, Dr. Gharbi is dedicated to identifying novel miRNAs and elucidating their functions in cellular processes like apoptosis and proliferation. Her work integrates molecular biology techniques with bioinformatics to uncover RNA-based biomarkers and therapeutic targets. The intersection of nanotechnology and RNA therapeutics is another emerging area in her studies, aiming to optimize cancer treatment delivery systems. Overall, her research contributes to understanding complex gene regulation mechanisms and developing RNA-based precision medicine strategies.

Publications Top Notes: 

  1. Mir-542 As A Potential and Promising Therapeutic Target For HPV-Positive Cervical Cancers

  2. CircPAN3/miR-221/PTEN Axis and Apoptosis in Myocardial Infarction: Quercetin’s Regulatory Effects

  3. Controlled cytotoxicity of Ag-GO nanocomposite biosynthesized using black peel pomegranate extract against MCF-7 cell line

  4. Characterization of the first microRNA in human CDH1 that affects cell cycle and apoptosis and indicates breast cancers progression

  5. Curcumin loaded on graphene nanosheets induced cell death in mammospheres from MCF-7 and primary breast tumor cells

  6. Bioinformatics Prediction of microRNAs Regulating Epithelial-to-Mesenchymal Transition in Cancer Cells

  7. Secondary toxic effect of graphene oxide and graphene quantum dots alters the expression of miR-21 and miR-29a in human cell lines

  8. Statins: Complex outcomes but increasingly helpful treatment options for patients

  9. Synthesis and characterization of d10 transition metal complexes in bulk and nano scales: DNA binding, molecular docking and anticancer activity against MCF-7 cell line

  10.  Quantification of circulating miR-517c-3p and miR-210-3p levels in preeclampsia

Conclusion:

In conclusion, Assistant Prof. Dr. Sedigheh Gharbi is highly suitable for the Best Researcher Award based on her consistent track record of innovative, impactful research and academic contributions. Her focus on molecular biology, especially the regulatory roles of non-coding RNAs in cancer and cardiac regeneration, addresses some of the most challenging issues in contemporary biomedical science. Her extensive publication record in reputable journals reflects the quality and significance of her work. While there are opportunities for further enhancing her international collaborations, funding portfolio, and translational efforts, her current achievements already mark her as a leading researcher with great potential for continued contributions. Awarding her the Best Researcher Award would recognize her scientific excellence and encourage further advancements in her promising research career.

 

Zohreh Bagher | Tissue Engineering Regeneration | Best Researcher Award

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Assoc. Prof. Dr. Zohreh Bagher | Tissue Engineering Regeneration | Best Researcher Award

Assoc. Prof. Dr. Zohreh Bagher | Iran University of Medical Sciences (IUMS) | Iran

Dr. Zohreh Bagher is an Associate Professor at the ENT and Head and Neck Research Center, Five Senses Health Institute, Iran University of Medical Sciences. She is an expert in tissue engineering and regenerative medicine with a strong background in anatomy and radiology. Her interdisciplinary research merges biomaterials, stem cells, and nanotechnology to develop innovative therapies for nerve and tissue repair. She has published extensively in high-impact journals on topics ranging from hydrogel scaffolds to nerve regeneration. With over a decade of experience, Dr. Bagher demonstrates exceptional leadership in biomedical engineering and translational medicine. Her work is pioneering in applying biomaterial science for clinical applications, particularly in wound healing, nerve injury, and tissue scaffolding. She actively collaborates internationally and integrates cutting-edge microfluidic and 3D-printing technologies into her research portfolio. Dr. Bagher’s commitment to science, education, and patient care positions her as a prime candidate for the Best Researcher Award.

Publication Profile: 

Scopus
Google Scholar

Education:

Dr. Bagher completed her Ph.D. in Tissue Engineering at Iran University of Medical Sciences, specializing in the differentiation of Wharton’s Jelly-derived mesenchymal stem cells into motor neuron-like cells using advanced PCL/collagen nanofibrous scaffolds. Her doctoral work emphasized combining biomaterials with stem cell therapy to regenerate nerve tissues, supervised by leading experts Prof. Joghataei and Prof. Mirzadeh. Prior to her Ph.D., she earned a Master’s degree in Anatomy from Qazvin University of Medical Sciences, focusing on bone repair through comparative studies using hydroxyapatite/β-tricalcium phosphate and xenograft scaffolds in animal models, guided by Prof. Rajaei. Her academic journey began with a Bachelor’s degree in Radiology from Tehran University of Medical Sciences, laying a solid foundation in medical imaging and diagnostics. This multi-disciplinary education has empowered her to innovate at the crossroads of biomedical engineering, anatomy, and regenerative medicine.

Experience:

Dr. Bagher holds a faculty position as Associate Professor at the ENT and Head and Neck Research Center, Iran University of Medical Sciences, where she spearheads cutting-edge research on biomaterials and tissue engineering. Over more than a decade, she has cultivated expertise in regenerative medicine, nerve repair, and scaffold fabrication. She has led numerous projects integrating microfluidics, 3D printing, and nanotechnology to engineer functional tissue substitutes. Her collaborative work spans experimental animal models and translational applications, emphasizing practical clinical outcomes. She has supervised multiple graduate students, fostering a research environment focused on innovation and scientific rigor. Dr. Bagher is also active in scientific publishing and peer review, contributing to advancing biomedical knowledge globally. Her interdisciplinary skills in anatomy, radiology, and tissue engineering, combined with leadership at a prestigious research center, make her a prominent figure in medical science and a deserving candidate for the Best Researcher Award.

Research Focus:

Dr. Bagher’s research centers on developing advanced biomaterials and stem cell-based therapies to promote tissue regeneration and nerve repair. Her work combines nanofibrous scaffolds, hydrogels, and bioactive composites designed to mimic natural extracellular matrices for enhanced cell differentiation and functional recovery. Key projects include engineering motor neuron-like cells from mesenchymal stem cells, fabricating injectable microparticles for drug delivery, and creating skin and nerve substitutes using 3D printing and crosslinked hydrogels. She explores the use of bioactive molecules like cannabidiol and copper oxide to stimulate angiogenesis and nerve regeneration. Her research also involves evaluating scaffold biocompatibility and mechanical properties, bridging lab-scale innovation with clinical relevance. By integrating tissue engineering with material science and pharmacology, Dr. Bagher aims to address unmet medical needs in wound healing, scar prevention, and peripheral nerve injury, driving forward personalized and regenerative medicine.

Publications Top Notes: 

  •  Fabrication of injectable dexamethasone-loaded hydrogel microparticle via microfluidic technique for biomedical applications

  •  Effectiveness of the injectable hyaluronic acid-based microparticles loaded with cannabidiol on rat sciatic nerve injury model

  •  Utilizing biomaterials for laryngeal respiratory mucosal tissue repair in an animal model

  •  A cellulose-based skin adhesive hydrogel incorporating N-acetyl-seryl-aspartyl-lysyl-proline peptide for enhanced wound healing and scar prevention in rabbit scar ear model in vivo

  •  Testicular extracellular matrix/gelatin-based scaffold using gas foaming to support spermatogonial stem cells

  •  Engineering of a CuO-Releasing 3D-Printed Bilayer Skin Substitute with Improved Angiogenesis: In Vitro and In Vivo Evaluations

  •  Correction: Graphene-Based Materials Prove to Be a Promising Candidate for Nerve Regeneration Following Peripheral Nerve Injury

  •  Vanadium ferrite-doped mesoporous bioactive glass-ceramics: controlled cisplatin delivery in chemohyperthermia

  • Photo- and thermal-crosslinked GelMA/chitosan hydrogels: A novel approach to enhanced mechanical and biological properties

Conclusion:

Dr. Zohreh Bagher is a highly accomplished researcher whose work sits at the forefront of regenerative medicine and biomaterials for clinical applications. Her multidisciplinary approach, innovative methodologies, and leadership in a specialized medical research center demonstrate exceptional qualifications for the Best Researcher Award. With minor enhancements in translational efforts and international visibility, she stands to further elevate her research impact. She is a deserving candidate who exemplifies excellence in scientific innovation and academic mentorship.

Lin Guo | Plant Cell Biology | Best Researcher Award

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Dr. Lin Guo | Plant Cell Biology | Best Researcher Award

Dr. Lin Guo | Jiangxi Agricultural University | China

Dr. Guo Lin is a dedicated agricultural researcher and lecturer specializing in rice cultivation and nutrient management. She currently serves as a Lecturer at Jiangxi Agricultural University and a Resident Expert at the Shanggao Rice Science and Technology Backyard. Recognized as a “Future Star” by the university, Dr. Guo earned her Ph.D. in Agronomy from China Agricultural University in 2018. Her expertise spans stress physiology, root exudates, and phosphorus efficiency in rice under environmental stresses such as cadmium exposure and low light intensity. She has led and participated in multiple national and provincial research projects and published widely in high-impact journals. Dr. Guo also plays a key role in bilingual education reform and student innovation programs, helping bridge academic research with practical applications in modern agronomy. Her efforts significantly contribute to sustainable rice production and educational excellence.

Publication Profile: 

Scopus

Education:

Dr. Guo Lin’s educational journey reflects a strong interdisciplinary foundation in agronomy and literature. She began her academic career at Shandong Agricultural University, where she pursued a double bachelor’s degree in Agronomy and Literature. She then advanced to China Agricultural University, earning her Ph.D. in Agronomy from the College of Resources and Environment (2013–2018). During her doctoral studies, Dr. Guo expanded her global perspective through two visiting scholar appointments at the Institute of Crop Science, University of Göttingen in Germany. Her academic path has been focused on the intricate interactions between soil, plants, and the environment, laying the groundwork for her current research on rice physiology and sustainable cultivation techniques. This solid educational background has enabled her to lead high-level research projects and integrate modern scientific insights with practical agricultural solutions.

Experience:

Since July 2018, Dr. Guo Lin has served as a Lecturer in Crop Cultivation and Farming Systems at Jiangxi Agricultural University. She is also actively engaged as a Resident Expert at the Shanggao Rice Science and Technology Backyard, promoting knowledge transfer and applied research in rice production. Her experience spans over a decade of academic training and field-based research. In addition to teaching and mentoring, she has been the principal investigator for several national and provincial projects focusing on rice stress resistance, nutrient management, and education reform. Dr. Guo has also guided multiple student innovation and entrepreneurship projects, fostering the next generation of agricultural scientists. Her hands-on experience in both laboratory and field conditions makes her an expert in linking theory with practice. Her work on bilingual course development further demonstrates her commitment to globalizing China’s agricultural education under the “Belt and Road” initiative.

Research Focus:

Dr. Guo Lin’s research primarily focuses on rice cultivation techniques, stress physiology, and nutrient management under challenging environmental conditions. Her work emphasizes the role of light intensity, cadmium stress, and phosphorus availability in rice root development and exudate secretion. By integrating physiological, biochemical, and agronomic approaches, she investigates the mechanisms by which rice adapts to low-phosphorus environments and weak solar radiation. Her research has uncovered novel insights into the interactions between hormone regulation (particularly auxins), carbon allocation, and nutrient uptake. She also explores innovative rice production systems such as water-saving and film-mulched cultivation models to improve yield stability and quality. Through numerous national and provincial projects, Dr. Guo aims to develop sustainable cultivation strategies that balance productivity with environmental responsibility. Her interdisciplinary research blends molecular, ecological, and agricultural perspectives, making meaningful contributions to global food security and climate-resilient agriculture.

Publications Top Notes: 

  1. Several rice root exudates from low-phosphorus tolerant cultivar induced by light intensity could be promising candidates in resisting phosphorus deficiency.

  2. Light intensity modulates phosphorus adaptation strategies in contrasting rice cultivars through photosynthetic carbon allocation.

  3. An indole-3-acetic acid inhibitor mitigated mild cadmium stress by suppressing peroxide formation in rice seedling roots.

  4. Weak Solar Radiation Significantly Decreased Rice Grain Yield and Quality—Simulated Shading Could Be a Foretell for Climate Change.

  5. Changes in the Grain Yield and Quality of Early Indica Rice from 2000 to 2020 in Southern China.

  6. Potassium fertilizer improves drought stress alleviation potential in sesame by enhancing photosynthesis and hormonal regulation.

  7. Innovative water-saving ground cover rice production system increases yield with slight reduction in grain quality.

  8. Yield differences get large with ascendant altitude between traditional paddy and water-saving ground cover rice production system.

  9. Effects of light intensity and phosphorus supply on rice root architecture and secretion metabolism.

  10.  Effects of indole-3-acetic acid inhibitor PPBa on sugar metabolism and hormone content in rice young roots under Cd stress.

Conclusion:

In conclusion, Dr. Guo Lin possesses a strong and balanced research portfolio, combining academic rigor, applied innovation, and teaching excellence. Her focused expertise in rice cultivation, her role in driving provincial and national research, and her contributions to educational reforms make her highly suitable for the Best Researcher Award. While there is scope to further internationalize her research and extend interdisciplinary collaborations, her current achievements already position her as a rising leader in agronomic sciences. Given her track record, ongoing projects, and evident potential, Dr. Guo Lin is a worthy and commendable nominee for the Best Researcher Award.

Mozafar Khazaei | Tissue Engineering Regeneration | Best Researcher Award

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Prof. Mozafar Khazaei | Tissue Engineering Regeneration | Best Researcher Award

Prof. Mozafar Khazaei | Fertility and Infertility Research Center, Health Technology Research Institute, Kermanshah University of Medical Sciences, Kermanshah | Iran

Prof. Mozafar Khazaei is a distinguished Professor of Histology and Embryology at Kermanshah University of Medical Sciences (KUMS), Iran. With over 30 years of academic experience, he has been a pivotal figure in developing the fields of anatomical sciences and reproductive medicine in Iran. As the Head of the Fertility & Infertility Research Center (FIRC) and Tissue Engineering Department, Prof. Khazaei has led major educational and research advancements, including establishing M.Sc. and Ph.D. programs and state-of-the-art laboratories. He completed a fellowship in Cell & Tissue Culture at the University of Toronto, Canada, and has published extensively in leading journals. With an h-index of 31 and over 3700 citations (Scopus), he is globally recognized for his contributions to oxidative stress, fertility, stem cell biology, and tissue engineering. His interdisciplinary expertise, leadership, and dedication make him a standout candidate for the Best Researcher Award.

Publication Profiles: 

Google Scholar
Scopus
Orcid

Education:

Prof. Khazaei holds a Ph.D. in Anatomical Sciences (Histology & Embryology) from Isfahan University of Medical Sciences, where he was a distinguished graduate. He also completed his M.Sc. in Medical Histology from the same university, securing the 1st rank in his cohort. He earned his B.Sc. in Biology from Razi University, Iran. Demonstrating a commitment to advanced biomedical sciences, he completed a prestigious fellowship in Cell & Tissue Culture at Mount Sinai Hospital, University of Toronto, Canada. His continuous education in ART techniques, histological methodologies, and tissue engineering has laid the foundation for his extensive academic and research success. His academic path reflects a consistent record of excellence, innovation, and dedication to medical science education and development.

Experience:

Prof. Khazaei has served as a faculty member at KUMS, contributing extensively to education, research, and academic leadership. He has held key roles including Associate Dean for Basic Sciences, Head of FIRC, and Head of Tissue Engineering Department. His leadership led to the establishment of advanced M.Sc. and Ph.D. programs, labs, and research infrastructures. He played a pivotal role in national educational policy as a board member for the Ministry of Health’s Evaluation Committees. He has also been actively involved in journal editorial boards and was Editor-in-Chief of the Educational Research in Medical Sciences journal. His broad teaching portfolio spans undergraduate to doctoral levels, covering histology, embryology, stem cell biology, tissue engineering, and more. His cross-disciplinary experience, national policy contributions, and lab development initiatives reflect his comprehensive impact on Iran’s medical academic ecosystem.

Awards & Honors:

Prof. Khazaei has received several prestigious recognitions throughout his career. He ranked 1st in his M.Sc. program and was honored as a Distinguished Graduate in his Ph.D. program. His work was awarded Best Clinical Research Paper by the Canadian Fertility & Andrology Society, showcasing international acknowledgment of his research impact. His academic excellence also earned him editorial roles in renowned journals, including Section Editor and Board Member for the International Journal of Fertility & Sterility and Dental Hypotheses Journal. Under his leadership, multiple research and academic programs were established, reflecting his role as a trailblazer in Iranian medical science. These accolades underscore his scientific leadership, innovation, and dedication to advancing education and research on both national and international levels.

Research Focus:

Prof. Khazaei’s research is centered around oxidative stress, stem cell biology, tissue engineering, fertility, and histopathology. He has significantly contributed to understanding the role of reactive oxygen species (ROS) in reproductive and cancer biology, including the Nrf2 pathway. His work explores the use of antioxidants, natural compounds, and nanotechnology in improving tissue health, fertility outcomes, and regenerative medicine applications. Notably, he has investigated the protective roles of Royal Jelly, Falcaria vulgaris, and other herbal extracts in diabetic and oxidative stress-related conditions. His interdisciplinary studies have bridged cellular biology with clinical implications, contributing to both basic science and applied medicine. With over 3700 citations, Prof. Khazaei’s research has influenced fertility science, stem cell therapy, and cancer pharmacology, making him a respected voice in biomedical research globally.

Publications Top Notes: 

  1. Oxidative stress and cancer: the role of Nrf2

  2. Reactive oxygen species generation and use of antioxidants during in vitro maturation of oocytes

  3. Protective effect of Falcaria vulgaris extract on ethanol induced gastric ulcer in rat

  4. New findings on breast cancer stem cells: a review

  5. Antioxidant and protective effects of Royal jelly on histopathological changes in testis of diabetic rats

  6. New findings on biological actions and clinical applications of royal jelly: a review

  7. Improvement in serum biochemical alterations and oxidative stress of liver and pancreas following use of royal jelly in streptozotocin-induced diabetic rats

  8. Intrinsic parameters for the synthesis and tuned properties of amphiphilic chitosan drug delivery nanocarriers

  9. Review on metal-based nanoparticles: role of reactive oxygen species in renal toxicity

  10.  Study of Foeniculum vulgare effect on folliculogenesis in female mice

Conclusion:

In conclusion, Professor Mozafar Khazaei is a distinguished academic and prolific researcher whose contributions have profoundly shaped the fields of histology, embryology, fertility sciences, and tissue engineering in Iran and beyond. His scholarly depth, mentorship of graduate and doctoral students, and institutional leadership make him a highly deserving candidate for the Best Researcher Award. His lifelong commitment to advancing biomedical sciences, combined with his outstanding research output and capacity-building initiatives, firmly align with the core criteria of this prestigious recognition. With continued strategic outreach and cross-disciplinary collaboration, his future impact promises to be even more transformative.

Slesha Tuladhar | Tissue Engineering Regeneration | Best Researcher Award

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Ms. Slesha Tuladhar | Tissue Engineering Regeneration | Best Researcher Award

Ms. Slesha Tuladhar | Paramount Planet Product | United States

Slesha Tuladhar is a dynamic and multidisciplinary researcher specializing in sustainable materials and advanced manufacturing. Currently pursuing a Master of Science in Mechanical Engineering at the University of Maine, she brings a unique blend of technical expertise and creative thinking, thanks to her triple bachelor’s degrees in Sustainable Product Design, Architecture, and Business Administration from Keene State College. Her passion for innovation and sustainability is evident in her groundbreaking work with hydrogels and 3D bioprinting technologies. Slesha has published extensively in peer-reviewed journals and conferences, focusing on optimizing the rheological properties of bio-inks and cellulose-derived materials. She is actively involved in teaching and mentoring, and serves on the University of Maine’s Graduate Sustainability Committee. With numerous accolades, including National Science Foundation travel grants and leadership roles in academic organizations, Slesha stands out as a forward-thinking researcher poised to make significant contributions to the future of sustainable manufacturing.

Publication Profile:

Scopus

Education:

Slesha Tuladhar is currently a Master of Science candidate in Mechanical Engineering at the University of Maine, expecting to graduate . Her thesis focuses on “Free Hanging Hydrogel Droplet Formation for 3D Cell Culturing,” reflecting her deep engagement in biofabrication research. She holds three bachelor’s degrees from Keene State College, each earned with distinction (GPA: 4.0): Bachelor of Science in Sustainable Product Design and Innovation, Bachelor of Science in Architecture, and Bachelor of Science in Business Administration. Her academic path reflects a rare convergence of design, engineering, and business principles, positioning her to lead in both research and applied industry settings. Throughout her education, she has focused on sustainable solutions, material science, and advanced manufacturing technologies, particularly in the field of 3D bioprinting with cellulose-based hydrogels. This well-rounded and rigorous academic background lays the foundation for her impactful research contributions.

Experience:

Slesha has gained extensive hands-on research and teaching experience across both undergraduate and graduate levels. As a Research Assistant at the University of Maine, she investigates cellulose-based hydrogels, optimizing rheological properties for 3D bioprinting. She concurrently serves as a Teaching Assistant, supporting courses in Manufacturing and Materials Engineering. Here, she mentors students in processes including casting, molding, milling, forming, and additive manufacturing. Prior to this, at Keene State College, she led research projects on hybrid hydrogels, culminating in several peer-reviewed publications and conference presentations. Her work explored the integration of Tempo-Mediated Nanofiber Cellulose and Carboxymethyl Cellulose into bio-inks for sustainable manufacturing. Slesha has presented at national conferences, collaborated with faculty on high-level research, and led student organizations, including her role as President of the Society of Manufacturing Engineers. Her experience combines experimental rigor, educational impact, and leadership — all core qualities for a leading researcher.

Honors and Awards:

Slesha Tuladhar’s academic journey has been decorated with numerous honors and awards that reflect her excellence in research, leadership, and service. She is a two-time recipient of the prestigious National Science Foundation (NSF) student travel grant for her work on hydrogel-based bioprinting. At Keene State College, she was awarded the Peter Jenkins Memorial Scholarship Endowment, recognizing her academic distinction and research contributions. Slesha was also supported throughout her undergraduate career by the Little Sister’s Fund (LSF) Scholarship, awarded for outstanding potential and academic commitment. Her work has garnered attention across academic communities and the media, featured in outlets like New Hampshire Business Review, Union Leader, and the EPSCoR Idea Foundation. Additionally, she held leadership positions, including serving as President of the Society of Manufacturing Engineers and Graduate Student Senator at the University of Maine. These accolades underscore her potential as a transformative researcher and emerging leader in sustainable technologies.

Research Focus:

Slesha Tuladhar’s research lies at the intersection of material science, biofabrication, and sustainability. Her work focuses on the formulation and rheological optimization of hydrogel-based bio-inks, with a special emphasis on cellulose-derived polymers like Carboxymethyl Cellulose (CMC) and Tempo-Oxidized Nanofiber Cellulose (TONFC). She investigates how parameters like shear rate, solid content, and fiber integration impact 3D printability and scaffold fidelity, with applications in tissue engineering and sustainable manufacturing. Through her thesis on “Free Hanging Hydrogel Droplet Formation for 3D Cell Culturing,” she explores innovative methods for precision cell placement and viability. Her long-term vision involves developing biocompatible and environmentally sustainable materials that can replace synthetic polymers in biomedical and industrial applications. Her work contributes both theoretical insights (via rheological modeling) and practical methodologies (via extrusion-based bioprinting), making it impactful for academic, clinical, and commercial fields. She integrates engineering precision with ecological responsibility, aiming to reshape future manufacturing practices.

Publications Top Notes:

  1. Tuning Shear Thinning Factors of 3D Bio-Printable Hydrogels Using Short Fiber – Materials

  2. Controlling Rheological Properties of Hybrid Hydrogel Using Short Fiber for Extrusion-Based 3D Bioprinting – ASME MSEC

  3. Developing Hybrid Hydrogels for Full-Scale Scaffold Fabrication Using Extrusion-Based Bioprinting Process – ASME MSEC

  4. Pre-Crosslinked Hybrid Hydrogels for 3D Bio-Printing Process: Rheological Analysis – ASME MSEC

  5. Rheological Analysis of Low Viscosity Hydrogels for 3D Bio-Printing Processes – ASME MSEC

  6. Rheological Study of Highly Thixotropic Hydrogels for 3D Bio-Printing Processes – IIE Conference Proceedings

  7. Modulating Rheological Characteristics of Bio-Ink with Component Weight and Shear Rate for Enhanced Scaffold Fidelity – Bioprinting,  (Link Disabled)

  8. Fine-Tuning Rheological Properties of 3D Bio-Printable Hybrid Hydrogel by Controlling Component Solid Content – Conference Paper,
    (Additional journal titles not provided, assuming 12 total in the record)

Conclusion:

Slesha Tuladhar is an exceptional young researcher whose work stands at the intersection of sustainability, material science, and biofabrication. Her strong academic foundation, innovative research contributions, and proactive engagement in leadership and community roles present her as a well-rounded and highly deserving candidate for the Best Researcher Award. With a forward-thinking approach and dedication to solving real-world challenges through sustainable engineering, Slesha embodies the values and promise of future scientific leadership.

 

 

Sirish Kumar Palle | RNA Biology Function | Best Researcher Award

Published on by Cell Biologist

Dr. Sirish Kumar Palle | RNA Biology Function | Best Researcher Award

Dr. Sirish Kumar Palle | Oklahoma University Health Sciences Center | United States

Dr. Sirish Kumar Palle, MBBS, MD, is an Associate Professor in the Department of Pediatrics at the University of Oklahoma College of Medicine. Specializing in Pediatric Gastroenterology, Hepatology, and Nutrition, he combines clinical expertise with innovative research. With a strong focus on liver diseases in children, Dr. Palle is dedicated to advancing understanding and treatment of metabolic dysfunction-associated steatotic liver disease (MASLD), pediatric autoimmune liver disorders, and cystic fibrosis liver disease. His multidisciplinary approach integrates clinical care and translational research, aiming to improve outcomes for pediatric patients. Dr. Palle is a respected educator and clinician-educator, actively involved in mentoring emerging researchers and contributing extensively to peer-reviewed literature. His work has garnered national recognition through travel awards and presentations at major symposia. Passionate about bridging bench-to-bedside discoveries, Dr. Palle’s contributions have significantly impacted pediatric hepatology research and care standards.

Publication Profile: 

Google Scholar

Education:

Dr. Sirish Kumar Palle earned his MBBS and MD degrees, followed by specialty training in Pediatrics through the Royal College of Pediatrics & Child Health, United Kingdom. He further advanced his clinical skills during his residency at the University of South Alabama’s Department of Pediatrics. Committed to subspecialty expertise, Dr. Palle completed a prestigious fellowship in Pediatric Gastroenterology, Hepatology, and Nutrition at Emory University, Atlanta. This extensive postgraduate training equipped him with advanced knowledge in pediatric liver and gastrointestinal disorders, nutrition, and hepatobiliary diseases. His formal education combined international perspectives, rigorous clinical training, and cutting-edge research methodologies, laying a robust foundation for his academic and clinical career in pediatric gastroenterology and hepatology.

Experience:

Dr. Palle serves as an Associate Professor in the Department of Pediatrics at the University of Oklahoma, where he is a clinician-educator specializing in pediatric gastroenterology and hepatology. His clinical experience includes managing complex pediatric liver diseases such as MASLD, autoimmune hepatitis, and cystic fibrosis-related liver complications. He practices at OU Children’s Physicians, providing expert care to children with chronic liver and pancreatic disorders. Dr. Palle’s research experience spans translational studies on novel serum biomarkers, clinical risk classification, and therapeutic interventions for pediatric liver diseases. He actively participates in national and international collaborations and serves as a mentor for junior researchers and medical trainees. Dr. Palle has presented at numerous professional symposia and contributed extensively to peer-reviewed journals. His role blends clinical practice, research, and education, emphasizing improved diagnostic and treatment strategies in pediatric hepatology.

Awards and Honors:

Dr. Palle has received multiple prestigious awards recognizing his contributions to pediatric hepatology research. Notably, he earned the Cincinnati Children’s Hospital Medical Center Travel  for his work presented at the Pediatric Autoimmune Liver Disease Symposium. Additionally, he was honored with the Frontiers in Pediatric Pancreatology  from NASPGHAN, reflecting his impact in pancreatic and liver research. His ongoing research efforts and clinical expertise have gained national and international recognition. These awards highlight his commitment to advancing pediatric liver disease understanding and treatment. Dr. Palle’s scholarly impact is further validated by his authorship of numerous influential publications and active participation in multi-center studies. His dedication to research excellence and mentorship continues to foster innovation in pediatric gastroenterology.

Research Focus:

Dr. Palle’s research primarily focuses on pediatric liver diseases, with special emphasis on metabolic dysfunction-associated steatotic liver disease (MASLD), autoimmune liver disorders, and cystic fibrosis-related liver complications. His work explores novel serum biomarkers for liver health assessment and the pathophysiology of pediatric liver diseases. He investigates clinical risk stratification models and therapeutic interventions to improve patient outcomes. His translational research bridges molecular mechanisms and clinical applications, contributing to early diagnosis, disease monitoring, and treatment strategies. Dr. Palle also studies lipid metabolism and inflammatory pathways in pediatric liver disease progression. Through collaboration in large, real-world cohorts and clinical trials, he contributes to refining disease nomenclature and improving consensus definitions. His research has enhanced understanding of pediatric hepatology and informed clinical guidelines. Dr. Palle is committed to integrating innovative scientific discoveries into clinical practice, improving the quality of care for children with liver diseases worldwide.

Publications Top Notes: 

  1.  A Comparison of Novel Serum Markers of Liver Health in Adolescents With Metabolic Dysfunction-Associated Steatotic Liver Disease

  2.  Oxidized HDL and LDL in Adolescents with Obesity and Metabolic Dysfunction-Associated Steatotic Liver Disease

  3.  Serum Adropin is Unaltered in Adolescents with Histology-Confirmed Steatotic Liver Disease

  4.  Concordance of MASLD and NAFLD Nomenclature in Youth in the TARGET-NASH Real-World Cohort

  5.  Gly-β-MCA as a Potent Anti-Cholestasis Agent in Mice with Biliary Injury

  6.  Advanced Cystic Fibrosis Liver Disease: Endovascular, Endoscopic, Radiologic, and Surgical Considerations

  7.  Validation of a Clinical Risk-Based Classification System in a Large NAFLD Cohort

  8.  Postprandial Triglycerides and FGF19 as Potential Screening Tools for Pediatric NAFLD

  9.  Pediatric Autoimmune Pancreatitis: A Single-Center Retrospective Case Series

  10.  Gastric Duplication Cyst Case Study in Pediatrics

Conclusion:

Overall, Dr. Sirish Kumar Palle is a highly suitable candidate for the Best Researcher Award based on his substantial and focused contributions to pediatric hepatology research, demonstrated by a strong publication record, leadership in clinical research, and recognition by peer institutions. His work is characterized by clinical relevance and scientific rigor, addressing significant pediatric health issues with an emphasis on liver disease. With targeted enhancements such as increased grant acquisition, broader interdisciplinary collaborations, and further professional visibility, Dr. Palle’s already distinguished research career can achieve even greater impact and recognition. Nonetheless, as it stands, he exemplifies the qualities of a dedicated, productive, and impactful clinician-scientist deserving of such an honor.

Giacomo Masi | Cellular Senescence Aging | Cellular Senescence Award

Published on by Cell Biologist

Dr. Giacomo Masi | Cellular Senescence Aging | Cellular Senescence Award

Dr. Giacomo Masi | VitroScreen | Italy

Giacomo Masi is a Biomedical Engineer with a specialized background in cellular models and tissue engineering. Graduated with a Master’s Degree in Bioengineering from the University of Genoa, he has conducted research in the development and validation of 3D in vitro models to study complex biological processes. His academic and professional trajectory has led him to work on high-impact research themes such as neurodegeneration, tissue perfusion, and cellular senescence. Masi’s dynamic and proactive approach is reflected in his cross-disciplinary skillset, ranging from 3D bioprinting to immunohistochemistry and flow cytometry. He is currently engaged at VitroScreen, Milan, contributing to GLP-compliant preclinical testing using advanced 3D platforms. His ultimate goal is to support precision medicine through biomimetic model development, focusing on aging-related cellular dysfunctions. With two peer-reviewed publications and ongoing collaborations, Masi is steadily building a career dedicated to biomedical innovation and translational research.

Publication Profile: 

Google Scholar

Education:

Giacomo Masi holds a Master’s Degree in Bioengineering from the University of Genoa, where he graduated with a score  and a Bachelor’s Degree in Biomedical Engineering from the Università Politecnica delle Marche . During his academic training, he specialized in tissue engineering, cellular biology, and biomaterials, complementing theoretical knowledge with hands-on experience in cell culture, imaging, and lab instrumentation. His thesis and research projects often intersected with real-world biomedical challenges, such as replicating complex tissue environments for drug testing or studying neurodevelopment in vitro. He also developed a working knowledge of MATLAB, C, and Adobe tools for scientific visualization and data analysis. Masi’s education laid a strong foundation in both engineering principles and life sciences, equipping him with the interdisciplinary mindset necessary for modern biomedical research, particularly in aging, cellular dysfunction, and regenerative technologies.

Experience:

Masi’s professional journey includes a research fellowship at the University of Genoa, where he contributed to the “Smart BioInks” project focusing on 3D bioprinting and hydrogel development. He designed and validated 3D scaffolds and conducted advanced 2D/3D cell culture with iPSCs and neuronal lines. He has been working at VitroScreen (Milan) as a GLP laboratory technician, specializing in 3D in vitro models for studying tissue barriers and cellular responses. His tasks include immunohistological and metabolic characterization, test standardization (SOPs), and cytotoxicity assays like MTT and TEER. His work contributes to regulatory studies aligned with OECD and ISO guidelines, and he also participates in scientific writing and publishing. These experiences reflect Masi’s competence in translational research, where rigorous lab techniques meet biomedical innovation, making him a valuable contributor in the fields of senescence, drug screening, and disease modeling.

Awards & Honors:

While Giacomo Masi has yet to receive formal academic awards, his most significant honors lie in his peer-reviewed publications and institutional recognition through research funding. His selection as a research fellow at the University of Genoa and subsequent employment at VitroScreen, a leader in advanced in vitro models, indicate trust and acknowledgment from the academic and industrial sectors. Moreover, co-authorship in international journals like APL Bioengineering and Organoids demonstrates the scientific value of his contributions. These publications, particularly the one on senescence-related hair loss mechanisms, showcase his direct impact in aging and cellular dysfunction research. His continued involvement in GLP-certified studies and international dissemination of findings (via conference posters and manuscript drafting) is a testament to his growing influence. Masi’s focus on research quality, reproducibility, and clinical relevance positions him for future awards as his career progresses.

Research Focus:

Giacomo Masi’s research is centered around the development of advanced 3D in vitro models to better replicate human tissue physiology and pathophysiology. A key focus is cellular senescence and aging, as seen in his publication on mimicking senescence signals to understand hair follicle regression and hair loss. He leverages bioprinting, hydrogels, and scaffold engineering to create environments where cells exhibit in vivo-like behavior. His models aim to bridge the gap between preclinical testing and clinical outcomes, offering personalized medicine platforms for drug screening and toxicity testing. At VitroScreen, he’s also engaged in barrier models using TEER and metabolic readouts, useful in aging and degenerative studies. His long-term goal is to enable early disease modeling, particularly in neurodegeneration and dermatology, using non-animal, human-relevant systems. Masi’s work is particularly aligned with modern needs for precision medicine, reduction of animal use, and aging research.

Publications Top Notes:

  1.  “Impact of perfusion on neuronal development in human derived neuronal networks” – APL Bioengineering,

  2. “Mimicking Senescence Factors to Characterize the Mechanisms Responsible for Hair Regression and Hair Loss: An In Vitro Study” – Organoids,

Conclusion:

In conclusion, Giacomo Masi is a strong and promising candidate for the Research for Cellular Senescence Award. His combined academic training, technical expertise, and direct contributions to in vitro models mimicking senescence mechanisms position him well within the scope and objectives of the award. With a proactive attitude, a clear research focus on tissue engineering and personalized medicine, and relevant scientific output, he represents the new generation of biomedical researchers pushing the boundaries in aging and disease modeling. Strengthening his international collaborations and deepening the theoretical narrative around senescence in his research would elevate his profile even further. Nonetheless, based on current credentials and output, he is well-suited and deserving of recognition through this award.

 

Wei Ying | Cell-Cell Communication | Best Researcher Award

Published on by Cell Biologist

Dr. Wei Ying | Cell-Cell Communication | Best Researcher Award

Dr. Wei Ying | University of California, San Diego | United States

Dr. Wei Ying is an Associate Professor in the Department of Medicine at the University of California, San Diego (UCSD). A leading scientist in immunometabolism, she has made pioneering contributions to the understanding of how immune cells, particularly macrophages, regulate metabolic diseases such as obesity, insulin resistance, and liver fibrosis. Dr. Ying’s research bridges immunology and endocrinology, uncovering novel intercellular signaling pathways mediated by exosomes and miRNAs. With over 67 peer-reviewed publications and 6,000+ citations, she is widely recognized for her impactful research. She serves as co-corresponding author on several high-impact papers in Cell Metabolism, Science Immunology, and Nature Communications. Dr. Ying’s innovative work continues to shape therapeutic strategies targeting immune-metabolic diseases. In recognition of her outstanding achievements, she is a compelling nominee for the Best Researcher Award. Her leadership, mentorship, and continuous scientific productivity mark her as a standout in biomedical research.

Publication Profiles: 

Google Scholar
Orcid

Education:

Dr. Wei Ying earned her Ph.D. in Immunology and Endocrinology from Texas A&M University, under the mentorship of Drs. Fuller Bazer and Beiyan Zhou. During her Ph.D., she conducted breakthrough work on macrophage polarization and its effects on metabolic disorders, setting the foundation for her lifelong research focus. She received multiple academic honors during her doctoral studies, reflecting her scholarly excellence. Following her Ph.D., she pursued postdoctoral training at UC San Diego, mentored by the renowned Dr. Jerrold Olefsky. There, she expanded her expertise in diabetes and immunometabolism, focusing on novel signaling molecules like exosomal miRNAs in metabolic inflammation. Her educational path reflects a strong interdisciplinary background, integrating reproductive biology, immunology, and metabolic research. This robust academic training laid the groundwork for her current position as Associate Professor at UCSD, where she continues to lead cutting-edge research in metabolism and immune regulation.

Experience:

Dr. Ying’s research journey began as a Ph.D. student at Texas A&M University, where she studied immune-endocrine interactions. As a postdoctoral fellow at UC San Diego, she made pivotal discoveries regarding the role of macrophage-derived exosomal miRNAs in regulating systemic insulin sensitivity. She served as Assistant Professor at UCSD, establishing a successful independent lab investigating immune-metabolic crosstalk. She was promoted to Associate Professor, a testament to her scientific leadership and research impact. Over the years, she has mentored numerous trainees, contributed to 67+ publications, and led collaborative projects with top-tier labs. Her work frequently appears in prestigious journals like Cell Metabolism, Science Immunology, Hepatology, and Nature Communications. Her expertise spans immunology, metabolism, liver disease, and diabetes, and she continues to advance therapeutic research through mechanistic insights into macrophage function and intercellular communication.

Awards and Honors:

Dr. Wei Ying has been recognized with several prestigious awards throughout her career. Early in her academic journey, she received the Larry Ewing Memorial Trainee Travel Fund and the Interdisciplinary Faculty of Reproductive Biology Trainee Travel Award, highlighting her academic promise. She earned second place at Texas A&M University Student Research Week, acknowledging her impactful Ph.D. research. Beyond early-career accolades, her ongoing research excellence is reflected in multiple invited publications in top-tier journals and co-authorship in high-impact collaborative projects. With a cumulative citation count of over 6,000 and rising, her work has earned wide recognition in the fields of immunometabolism and diabetes research. As a co-corresponding and co-first author on many significant papers, she plays a central role in shaping the current landscape of metabolic research. Dr. Ying’s accolades underscore her qualifications for the Best Researcher Award.

Research Focus:

Dr. Ying’s research lies at the nexus of immunology and metabolism, focusing on how immune cells, particularly macrophages, regulate metabolic inflammation, insulin resistance, liver fibrosis, and β-cell function. Her work has unveiled how exosomal microRNAs, bacterial DNA, and iron metabolism contribute to disease progression in obesity and diabetes. She employs multi-disciplinary approaches—ranging from transcriptomics and in vivo mouse models to high-resolution imaging and CRISPR editing—to explore the molecular underpinnings of metabolic disorders. Notably, her studies on macrophage-derived exosomes have opened up therapeutic possibilities for improving insulin sensitivity and combating systemic inflammation. Her ongoing investigations also include the role of Kupffer cells in liver health, microbial DNA in inflammation, and ATF4 in T-cell function, demonstrating a robust expansion of research scope. Dr. Ying’s research continues to drive translational innovations, making her an influential figure in metabolic disease research and a strong candidate for the Best Researcher Award.

Publications Top Notes:

  1. ATF4 drives regulatory T cell functional specification in homeostasis and obesity – Science Immunology

  2. Host metabolic inflammation fueled by bacterial DNA – Trends in Endocrinology & Metabolism

  3. Restoring SRSF3 in Kupffer cells attenuates obesity-related insulin resistance – Hepatology

  4. Aberrant iron distribution via hepatocyte-stellate cell axis drives liver lipogenesis and fibrosis – Cell Metabolism

  5. Accumulation of microbial DNAs promotes islet inflammation and β cell abnormalities – Nature Communications

  6. Immunosuppression of macrophages underlies the cardioprotective effects of Catestatin – Hypertension

  7. miR-690 from M2 macrophages improves insulin sensitivity in obese mice – Cell Metabolism

  8. CRIg+ macrophages prevent microbial DNA-induced tissue inflammation and insulin resistance – Gastroenterology

  9. Hepatocyte exosomes promote insulin sensitivity via miR-3075 – Nature Metabolism

  10. Expansion of islet-resident macrophages affects β cell function in obesity – Cell Metabolism

Conclusion:

In conclusion, Dr. Wei Ying is not only a prolific and highly cited researcher but also a scientific leader whose work has significantly advanced the understanding of immune-metabolic interactions in chronic disease. Her contributions are original, mechanistically insightful, and have meaningful implications for the treatment of metabolic diseases such as obesity, diabetes, and liver fibrosis. Her demonstrated ability to lead high-impact studies, publish consistently in elite journals, and maintain academic excellence through mentoring and innovation makes her highly deserving of the Best Researcher Award. While opportunities exist for expansion into clinical application and broader leadership roles, her trajectory strongly suggests continued excellence and influence in the years ahead. Dr. Ying exemplifies the qualities of a top-tier researcher and stands as a model for interdisciplinary biomedical science.