Tao Zhang | Cancer Cell Biology | Best Researcher Award

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Prof. Tao Zhang | Cancer Cell Biology | Best Researcher Award

Prof. Tao Zhang, South China Normal University, China

Dr. Tao Zhang is a distinguished Professor at the College of Biophotonics, South China Normal University, where he has been advancing the frontiers of chemical biology and phototheranostics. With a keen focus on developing innovative optical probes and imaging techniques for tumor diagnosis and treatment, Dr. Zhang has made significant contributions to the field of lanthanide chemistry and biomedical imaging. His academic journey spans from Ningbo University (MPhil) to earning his Ph.D. in Chemistry from Hong Kong Baptist University. As a corresponding author on numerous high-impact publications and a recipient of multiple prestigious provincial awards, Dr. Zhang has earned recognition for both research excellence and academic leadership. He is actively involved in interdisciplinary collaborations, producing over 40 peer-reviewed publications in journals such as Nature Communications, PNAS, JACS, and Advanced Science. His ongoing work addresses critical challenges in imaging-guided therapies for cancer under hypoxic and complex microenvironment conditions.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. 📈 Outstanding Research Output
    Dr. Zhang has published over 40 peer-reviewed articles in top-tier journals such as Nature Communications, Advanced Science, JACS, ACS Nano, and PNAS. These works cover cutting-edge topics in photodynamic therapy, tumor imaging, and nanotechnology—key areas in modern biomedical research.

  2. 🧪 Innovation in Biomedical Chemistry
    He has demonstrated consistent originality by designing oxygen-independent Type I pro-photosensitizers, reversible ratiometric photoacoustic probes, and multimodal imaging nanoplatforms, all of which target real-world challenges in hypoxic tumor environments.

  3. 🌏 National Recognition
    His research excellence has been recognized by prestigious awards such as the Special Support Program for Young Top-notch Talents of Guangdong Province and the Pearl River Science and Technology Rising Star of Guangzhou, both in 2018.

  4. 🎯 Multidisciplinary Expertise
    With a strong background in lanthanide chemistry, chemical biology, and optical imaging, Dr. Zhang successfully bridges multiple fields, demonstrating a holistic approach to solving biomedical challenges.

  5. 📚 Leadership Role
    As a corresponding author on many publications, he plays a leading role in both research direction and execution. His progression from Assistant to Full Professor between 2014 and 2021 further reflects his capability as a research leader.

🛠️ Areas for Improvement:

  1. 🌐 International Collaborations & Visibility
    While Dr. Zhang has co-authored with international researchers, expanding his global collaborative network through joint grants, keynote talks, or leadership in international consortia could further enhance his profile.

  2. 👨‍🏫 Public Outreach & Technology Transfer
    Increasing efforts in public science communication, patenting innovations, or transitioning lab technologies into clinical trials could strengthen his case for broader societal impact.

  3. 📢 Social & Digital Engagement
    A higher digital or social media presence (e.g., ResearchGate, Google Scholar metrics, professional website updates) would make his research more visible to the global community and potential collaborators.

🎓 Education:

Dr. Tao Zhang embarked on his academic career with an MPhil in Inorganic Chemistry from Ningbo University (2006–2009), where he conducted research under Professor Hongze Liang. He furthered his education by pursuing a Ph.D. in Chemistry at Hong Kong Baptist University (2009–2013), mentored by Professors Wai-Kwok Wong and Ka-Leung Wong. His doctoral research focused on lanthanide coordination chemistry and bioimaging, setting a strong foundation for his future innovations in photodynamic therapy and tumor diagnostics. These formative years not only shaped his technical expertise in spectroscopy and nanomaterials but also cultivated a rigorous research ethic that has carried through his academic trajectory. His education was marked by cross-disciplinary training in synthetic chemistry, photophysics, and biological applications, providing him with a broad and robust skill set that continues to support his ongoing exploration in chemical biology and optical probes for clinical imaging and therapeutic interventions.

💼 Experience:

Dr. Zhang’s academic career at South China Normal University’s College of Biophotonics began in 2014 as an Assistant Professor. He was promoted to Associate Professor in 2017 and then to full Professor in 2021. Throughout his academic appointments, Dr. Zhang has led innovative research in tumor imaging, photothermal therapy, and optical diagnostics, establishing a productive research group known for creative nanoprobe design and translational research. His lab has secured multiple research grants and frequently collaborates with international researchers, combining chemical innovation with biomedical applications. Dr. Zhang has mentored graduate students and postdocs, many of whom have gone on to prestigious research positions. His steady academic progression reflects both his research productivity and leadership in the field of phototheranostics. Over the years, his expertise has positioned him at the forefront of integrating nanotechnology and chemistry into next-generation diagnostic and therapeutic platforms for treating cancer and understanding tumor microenvironments.

🏆 Awards and Honors:

Dr. Tao Zhang has received multiple prestigious awards that underscore his exceptional research contributions and scientific leadership. In 2018, he was honored with the Special Support Program for Young Top-notch Talents of Guangdong Province, recognizing his pioneering work in optical molecular probes for cancer imaging. That same year, he also received the Pearl River Science and Technology Rising Star of Guangzhou, further validating the impact and innovation of his interdisciplinary research in chemical biology. These accolades highlight his rising prominence as a researcher capable of translating basic chemical discoveries into practical medical technologies. He is consistently invited to contribute as a corresponding author in top-tier journals, reflecting the high regard his peers have for his scientific insight and rigor. These honors not only reflect personal achievement but also enhance the prestige of the College of Biophotonics at South China Normal University, where he continues to lead cutting-edge research.

🔍 Research Focus:

Dr. Tao Zhang’s research focuses on the convergence of Chemical Biology, Lanthanide Chemistry, and Optical Imaging Technologies for cancer diagnosis and treatment. His main interest lies in developing smart, light-activated nanomaterials and photosensitizers that enable precise imaging and phototherapy, particularly in hypoxic tumor microenvironments. His team is advancing Type I photodynamic therapy agents and oxygen-independent systems, addressing critical limitations in current cancer treatment modalities. Another core area of his research is the creation of upconversion nanoparticles and ratiometric probes for real-time, non-invasive imaging—capable of dual-modality functionality (fluorescence and photoacoustic). Leveraging lanthanide chemistry, Dr. Zhang also contributes to MRI contrast agent innovation and multimodal diagnostics. His cross-disciplinary work integrates synthetic chemistry, molecular design, and biological application, offering new avenues for theranostics. His cutting-edge research is published in leading journals, pushing the boundaries of tumor imaging, molecular sensing, and personalized cancer therapy with minimal invasiveness and enhanced specificity.

📚 Publications Top Notes:

  1. 🧬 Totally Caged Type I Pro-Photosensitizer for Oxygen-Independent Synergistic Phototherapy of Hypoxic TumorsAdvanced Science, 2024

  2. 🔁 Switching the NIR Upconversion of Nanoparticles for Orthogonal Activation of Photoacoustic Imaging and PhototherapyNature Communications, 2022

  3. 🧪 Dynamic-Reversible Photoacoustic Probe for Continuous Ratiometric Sensing and Imaging of Redox Status In VivoJACS, 2019

  4. 🎯 In Vivo Imaging-Guided Photothermal/Photoacoustic Synergistic Therapy with Tumor-Targeting NanoparticlesACS Nano, 2017

  5. 💥 In Vivo Selective Cancer-Tracking Gadolinium Eradicator as New-Generation Photodynamic Therapy AgentPNAS, 2014

  6. 🧫 ROS-Catalytic Self-Amplifying Benzothiophenazine-Based Photosensitive Conjugates for Photodynamic-Immuno TherapyBiomaterials, 2025

  7. 🧬 A Self-Catalytic UCNP-Based Nanomachine for Highly Sensitive Detection of CTCsBiosensors and Bioelectronics, 2025

  8. 🔍 An AND-Gate Photoacoustic Probe for Cys and H2S Precise Photoacoustic Sensing in TumorsAnal. Chem., 2024

  9. 🎨 Single Side-Chain-Modulatory of Hemicyanine for Fluorescence and Photoacoustic Dual-Modality ImagingSmall Methods, 2024

  10. 🌫️ High-Contrast Photoacoustic Imaging of Localized Cysteine in Breast CancerChem. Eur. J., 2024

🧾 Conclusion:

Dr. Tao Zhang is highly suitable for the Best Researcher Award due to his exceptional scholarly output, innovative biomedical applications, and proven academic leadership. His work addresses some of the most critical challenges in cancer diagnostics and therapy using chemical tools and photonic technology.

Guojie Ji | Cancer Cell Biology | Cancer Cell Biology Award

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Mr. Guojie Ji | Cancer Cell Biology | Cancer Cell Biology Award

Mr. Guojie Ji, NORTH HENAN MEDICAL UNIVERSITY, China

Guojie Ji, Master of Medicine Science, is a laboratory technician and the Provincial Director of the Demonstration Center for Biological and Basic Medical Experimental Teaching. With a core research focus on fertility preservation and tumor therapy, he brings an interdisciplinary approach to biomedical science. Ji has played a pivotal role in guiding over 30 research papers and acquiring 13 national patents. In addition to managing over 15 national and provincial projects, his mentorship has led students to win numerous innovation and entrepreneurship awards at both national and provincial levels. Ji is an editorial board member for Contemporary Chemical Research and a peer reviewer for Cell Death Discovery. His leadership and scholarly work have earned him several honors, including being named Outstanding Teacher and Provincial Outstanding Mentor. His recent research delves into ferroptosis in cancer and reproductive toxicity, making impactful contributions to both cancer biology and regenerative medicine.

Publication Profile:

Orcid

✅ Strengths for the Award:

  1. Relevant Research Contributions:

    • Ji has made direct contributions to cancer biology, particularly through:

      • Ferroptosis mechanisms in breast cancer cells (2025, BBRC)

      • 5-Fluorouracil-induced oxidative damage and DNA disruption (2024, Ecotoxicology & Environmental Safety)

      • Exosome impact on melanoma cell growth (2021, Journal of Yangzhou University)

    • These studies reflect deep involvement in molecular mechanisms of cancer cell death, a central theme in cancer cell biology.

  2. Multidisciplinary Integration:

    • Ji’s research spans stem cells, oxidative stress, and reproductive toxicity, all of which tie into cancer research—especially in terms of chemotherapy side effects and regenerative implications.

  3. High Research Output and Recognition:

    • Over 30 peer-reviewed articles, including in high-impact journals such as Cell Death Discovery and BBRC.

    • 13 national patents, indicating applied innovation in biomedical research.

    • Leads national and provincial projects with substantial funding (~¥1 million), showcasing leadership and research management.

  4. Mentorship and Scientific Community Service:

    • Recognized as an Outstanding Innovation Mentor, Editorial Board Member, and Peer Reviewer, reflecting active participation in advancing the field.

    • Mentored award-winning student teams in national competitions, indicating talent cultivation in biomedical research.

⚠️ Areas for Improvement:

  1. Primary Focus Is Fertility & Reproductive Biology:

    • While Ji has notable cancer-related studies, his primary research base lies in fertility preservation. For this award, a broader and more central focus on oncogenic signaling, tumor microenvironments, or immunotherapy might strengthen his profile.

  2. Limited Clinical Cancer Studies:

    • Most cancer work is preclinical or in vitro; integrating clinical collaborations or translational oncology trials could enhance relevance to applied cancer therapy.

Education:

Guojie Ji holds a Master of Medicine Science, with specialized training in biological sciences, biomedical research, and clinical applications in fertility and tumor biology. His academic background includes comprehensive training in cell biology, molecular biology, reproductive medicine, and translational oncology. Through this foundation, he developed a research orientation focused on bridging cell-level discoveries with clinical potential, particularly in the areas of cryopreservation, stem cell differentiation, and tumor cell regulation. Ji’s academic excellence and commitment to research have driven his involvement in interdisciplinary fields, where he combines elements of life sciences and therapeutic innovation. His deep-rooted academic experiences have been critical in enabling his success as a project leader, educator, and recognized biomedical scientist. His education is not just academic but applied, demonstrated by his integration of research into experimental teaching models and training future life scientists.

💼 Experience:

Guojie Ji currently serves as a Laboratory Technician and Provincial Director for a Demonstration Center dedicated to experimental biological and medical teaching. He has led or completed 10+ major national and provincial research projects, along with 5 horizontal interdisciplinary research collaborations, collectively funded with nearly 1 million yuan. Ji’s lab has been instrumental in developing fertility-preservation protocols, studying sperm cryopreservation, and examining cancer cell response to drugs like 5-FU. He has authored over 30 peer-reviewed papers, including key publications in Cell Death Discovery, Ecotoxicology and Environmental Safety, and Biochemical and Biophysical Research Communications. Ji is a mentor to undergraduate innovators, guiding teams to national victories in prestigious competitions. Additionally, he holds editorial and peer-review roles in prominent scientific journals. His work demonstrates strong leadership, scholarly innovation, and an enduring commitment to experimental medical education and biomedical research.

🏆 Awards and Honors:

Guojie Ji’s contributions to research and education have earned him widespread recognition. He has been honored as a Key Teacher, Civilized Teacher, and Outstanding Teacher, along with awards for Outstanding Innovation and Entrepreneurship Mentorship at the provincial level. He has received accolades as Outstanding Supervisor for Bachelor’s Degree Dissertations and Life Sciences Competition Mentor. Ji has successfully supervised student teams winning over 25 awards, including 5 national-level prizes in events such as the Challenge Cup, Internet+, and the National College Life Sciences Competition. These honors reflect his commitment to combining cutting-edge research with student training and public impact. His ability to mentor and lead both in the lab and the classroom has set a benchmark for excellence in academic innovation and practical scientific development. Ji’s holistic excellence makes him a role model in both research mentorship and scientific discovery.

🔬 Research Focus:

Guojie Ji’s research lies at the intersection of fertility preservation, cryobiology, and tumor cell biology. He explores the mechanisms of cell damage, oxidative stress, and DNA integrity during sperm and stem cell preservation, with a growing emphasis on ferroptosis—a regulated form of cell death—in cancer biology. His recent studies demonstrate how agents like 5-Fluorouracil affect cancer cells and male fertility via oxidative and mitochondrial pathways. Ji also investigates mesenchymal stem cell-derived exosomes in tumor growth, highlighting a promising field of cell-free therapies. In plant and animal models, he’s contributed to understanding protein and lipid roles in cell signaling and disease resistance, reinforcing the depth and range of his biomedical expertise. With a diverse research portfolio, Ji aims to translate basic discoveries into therapeutic strategies, particularly targeting tumor suppression and reproductive health. His work continues to expand the molecular understanding of cell survival and death pathways in medicine.

📚 Publications Top Notes:

  1. 🧊 Protective Effect of Sucrose and Antioxidants on Cryopreservation of Sperm Motility and DNA Integrity in C57BL/6 Mice

  2. 💧 Effects of MTG and GSH on Human Sperm Motility and DNA Integrity during Vitrification in the Presence of Trehalose

  3. ❄️ Comparison of Rapid Freezing vs. Vitrification for Human Sperm Cryopreservation Using Sucrose in Closed Straw Systems

  4. 🔍 Studies on Basic Issues Relevant to Sperm Cryopreservation in Humans

  5. 📦 Effects of Exosomes Derived from Mesenchymal Stem Cells on the Growth of Melanoma Cells

  6. 🌱 BMP4 is Insufficient to Differentiate Umbilical Cord MSCs into Germ Cell-like Cells In Vitro

  7. 🧬 Current Status of Male Fertility Preservation in Humans

  8. 🧪 Protein Glycosylation Changes During Systemic Acquired Resistance in Arabidopsis thaliana

  9. 🛡️ Lipid Transfer Proteins in Plant-Pathogen Interactions and Their Molecular Mechanisms

  10. 🔥 Emerging Roles of Ferroptosis in Male Reproductive Diseases

🧾 Conclusion:

Guojie Ji is a strong interdisciplinary researcher with a credible and impactful body of work in cancer cell biology, particularly in the context of ferroptosis, chemotherapy-induced toxicity, and tumor suppression mechanisms. His contributions bridge the fields of cell death, oxidative biology, and reproductive toxicology, offering unique insights into the systemic effects of anti-cancer agents. While cancer is not his sole research domain, his innovative work and translational potential clearly qualify him as a compelling nominee for the Research for Cancer Cell Biology Award—particularly in molecular cancer mechanisms and therapeutic research.

Dalia Saleh | Cancer Cell Biology | Innovative Research Award

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Prof . Dalia Saleh | Cancer Cell Biology | Innovative Research Award

Prof . Dalia Saleh | National Research Centre | Egypt

Dr. Dalia Osama Abd El Fattah Saleh is a distinguished pharmacologist with over two decades of experience in experimental pharmacology and drug development. She holds a Ph.D. in Pharmacology from Cairo University and currently serves as a Professor at the National Research Centre in Cairo, Egypt. Dr. Saleh has contributed to numerous high-impact scientific journals and has led pioneering work in the areas of metabolic disorders, drug safety, and vascular pharmacology. Her multidisciplinary collaborations and continuous professional development from institutions like King’s College London demonstrate her dedication to excellence in research and education. She is also recognized for her commitment to academic instruction and quality assurance, having served as a Quality Assurance Director. Her work bridges scientific discovery and real-world therapeutic applications, making her a strong candidate for innovation-focused research awards.

publication profile:

scopus

Strengths for the Award:

  1. Robust Academic Background:
    Dr. Saleh holds a Ph.D. in Pharmacology from Cairo University and has a long-standing academic and research career in pharmacology and drug development. Her doctoral and master’s theses reflect a strong foundation in vascular pharmacology, metabolic disorders, and endocrine influence—fields of enduring relevance.

  2. Consistent Research Productivity:
    Her recent publication record (2022–2024) is prolific and impactful, with studies published in high-visibility journals such as Scientific Reports, Biochemistry and Cell Biology, Naunyn-Schmiedeberg’s Archives of Pharmacology, and Environmental Science and Pollution Research. Her work covers cutting-edge pharmacological topics, including:

    • AMPK/mTOR signaling pathways,

    • Neuroprotection and anti-inflammatory mechanisms,

    • Herbal and synthetic compounds in disease modulation,

    • Hepatic encephalopathy, diabetic nephropathy, and cystitis models.

  3. Interdisciplinary and Translational Approach:
    Dr. Saleh bridges basic pharmacological research with clinical relevance. Her investigations into molecular pathways (e.g., NF-κB, PI3K/Akt, SIRT-1) are grounded in disease models, thus demonstrating translational potential. Her inclusion of both natural and synthetic agents further adds diversity and innovation to her research.

  4. Capacity Building and International Exposure:
    She has participated in Continuing Professional Development modules at King’s College London, emphasizing drug safety, statistics, and ethics—key areas in modern drug development. This international engagement underscores her commitment to staying updated and aligned with global standards.

  5. Institutional Contribution and Leadership:
    As a Professor and former Quality Assurance Director at the National Research Centre (NRC), she has contributed to institutional excellence, including achieving ISO 9001/2008 certification. These roles reflect her leadership, organizational, and strategic planning skills.

Areas for Improvement:

  1. Principal Investigator Leadership:
    While her name appears consistently in multi-author studies, further highlighting her role as the principal investigator (PI) or corresponding author could strengthen her case for innovation leadership.

  2. Patents or Product Development:
    There is no mention of patents or direct product development based on her findings. Translating research into tangible therapeutics or clinical trials would significantly elevate her eligibility for innovation-specific awards.

  3. Global Collaborations and Grants:
    Although she has participated in international seminars, active global collaborations or leading major international grants/projects would further establish her as a global innovator.

  4. Public/Industry Impact:
    While the academic impact is strong, showcasing industry partnerships or policy-level influence (e.g., contributions to clinical guidelines or regulatory science) would align more directly with innovation awards that emphasize practical application.

🎓 Education Summary :

Dr. Dalia Saleh completed her higher education at Cairo University’s Faculty of Pharmacy, where she earned her Master of Science in Pharmacology in 2009 and Doctor of Philosophy in Pharmacology in 2012. Her M.Sc. thesis focused on the vascular and biochemical effects of rosiglitazone in diabetic rats, reflecting early interests in metabolic pharmacology. Her Ph.D. expanded on this foundation by exploring estrogen’s potential role in managing vascular changes related to insulin resistance. Both theses demonstrated robust experimental designs and contributed new insights into the interplay between hormonal and metabolic pathways in disease models. Dr. Saleh has since built on this academic background with advanced training in clinical drug development, safety, and biostatistics at King’s College London in 2023, indicating a continued commitment to integrating modern pharmaceutical science and translational research into her academic portfolio. This rich educational foundation underpins her success as a researcher and educator.

🔬 Research Focus :

Dr. Saleh’s research focuses on experimental pharmacology, with a special interest in metabolic diseases, drug-induced toxicities, inflammation, and vascular pharmacology. Her studies frequently involve animal models to investigate the mechanisms of drug action and to evaluate the protective or therapeutic roles of natural products and synthetic compounds. A recurring theme in her work is exploring the modulation of signaling pathways like AMPK, NF-κB, PI3K/mTOR, and Nrf2 in the context of oxidative stress, inflammation, and cellular apoptosis. She has also studied the role of hormonal influences in disease models, such as estrogen’s effect on insulin resistance. Her research employs modern analytical techniques and integrates molecular biology with pharmacodynamics to derive mechanistic insights. This strong focus on mechanistic pharmacology enhances her work’s relevance in drug development, particularly for conditions such as diabetic complications, hepatic encephalopathy, nephropathy, and chemotherapy-induced toxicities.

📚 Publications Top Note:

  1. 🧪 Eugenol alleviates acrylamide-induced testicular toxicity via AMPK/pAKT/mTOR modulationScientific Reports, 2024

  2. 🧠 Trimetazidine prevents cisplatin neuropathy through AMPK, Nrf2, and NF-κB pathwaysBiochemistry and Cell Biology, 2023

  3. 🔬 Novel chromone-thiazolopyrimidines as TNF-α, IL-6, and PGE2 inhibitorsPolycyclic Aromatic Compounds, 2023

  4. 🚽 Chrysin protects against cyclophosphamide-induced hemorrhagic cystitis via anti-inflammatory signalingChemico-Biological Interactions, 2023

  5. 🧃 Linagliptin & L-arginine synergy in gastric hyperacidity via EP4 receptor upregulationNaunyn-Schmiedeberg’s Archives of Pharmacology, 2023

  6. 🧠 L-arginine reduces thioacetamide-induced hepatic encephalopathy via NF-κB downregulationEnvironmental Science and Pollution Research, 2023

  7. 🌿 Calotropis procera seed oil shows anti-inflammatory and antiparasitic activityArabian Journal of Chemistry, 2022

  8. 🛡️ Olmesartan mitigates diabetic nephropathy via AGE/PKC and TLR4/SIRT-1 pathwaysEuropean Journal of Pharmacology, 2022

  9. 🍃 Plumbago species show anti-fibrotic effects in liver fibrosis rat modelsScientific Reports, 2022

  10. 🫀 Omega-3 combats doxorubicin-induced liver toxicity via Nrf2/PI3K/Akt signalingPending Publication

Conclusion:

Dr. Dalia O. Saleh presents a strong candidacy for the Research for Innovative Research Award, particularly due to her sustained publication record, mechanistic depth in pharmacology, and commitment to professional development and institutional excellence. Her work spans innovative mechanistic explorations and novel therapeutic evaluations, showing real promise in addressing current pharmacological challenges.

Yan Jiao | Cancer Cell Biology | Best Researcher Award

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Dr. Yan Jiao | Cancer Cell Biology | Best Researcher Award

Dr. Yan Jiao, First Hospital of Jilin University, China

Dr. Yan Jiao is an accomplished Attending Physician and clinical researcher at the First Hospital of Jilin University, specializing in hepatobiliary and pancreatic diseases. With dual degrees—a Bachelor of Medicine and a Ph.D. from Jilin University—Dr. Jiao has combined clinical acumen with deep expertise in bioinformatics and statistical analysis. A prolific researcher, Dr. Jiao has published extensively on topics ranging from liver cancer and immunotherapy to the adverse effects of diagnostic dyes and post-surgical complications. Notably, Dr. Jiao has contributed to scientific integrity through independent verification of published data and has reported anomalies that led to editorial actions. Skilled in R programming and mining public health datasets, Dr. Jiao blends analytical precision with a commitment to improving patient outcomes. Recognized for a meticulous approach to research, Dr. Jiao’s work exemplifies scientific rigor and ethical responsibility, making a compelling case for the Best Researcher Award.

Publication Profile:

Orcid

✅ Strengths for the Award:

  1. Outstanding Publication Record:
    Dr. Jiao has co-authored over 20 peer-reviewed journal articles in high-impact journals like Scientific Reports, International Journal of Nanomedicine, and World Journal of Gastrointestinal Surgery. The research spans critical fields like liver cancer, gastric cancer, bioinformatics, and surgical safety, demonstrating multidisciplinary excellence.

  2. High Ethical Standards:
    A rare and commendable contribution is Dr. Jiao’s work in scientific integrity—verifying published studies, detecting image manipulation, and triggering investigations into misconduct. This highlights not only academic rigor but also moral responsibility in research.

  3. Bioinformatics Expertise:
    Proficient in R programming and analysis of large public datasets (FAERS, NHANES, TCGA), Dr. Jiao merges clinical insight with data science to generate real-world impact. The capacity to handle complex data with statistical precision is vital in modern medical research.

  4. Clinical & Research Integration:
    As a practicing Attending Physician in hepatobiliary and pancreatic diseases, Dr. Jiao directly applies research outcomes to clinical settings. This dual competency strengthens translational research and improves patient-centered outcomes.

  5. Collaborative Network:
    Dr. Jiao has worked with a wide range of co-authors, showing adaptability and a collaborative spirit. This not only strengthens individual studies but also reflects influence within a broader research community.

🛠️ Areas for Improvement:

  1. Global Research Visibility:
    While Dr. Jiao has a strong publication portfolio, more engagement with global conferences, keynote presentations, and international collaborations would enhance international recognition.

  2. Grant Leadership:
    There is limited information on independent research funding or grant leadership. Applying for and leading funded projects could further establish Dr. Jiao’s credentials as a principal investigator.

  3. First-Author Publications:
    Though a frequent contributor, a higher proportion of first-author or corresponding-author roles would solidify recognition as a lead researcher, particularly in high-impact original studies.

🎓 Education:

Dr. Yan Jiao pursued both undergraduate and doctoral studies at Jilin University, one of China’s top research institutions. From 2011 to 2016, Dr. Jiao earned a Bachelor of Medicine, laying the groundwork in clinical sciences and human biology. Continuing seamlessly into advanced research, Dr. Jiao completed a Ph.D. at the same university from 2016 to 2019, with a focus on hepatobiliary diseases and translational bioinformatics. The doctoral training combined clinical exposure with robust coursework in molecular biology, epidemiology, and data science. This dual qualification reflects a rare integration of frontline medical experience and deep academic inquiry, preparing Dr. Jiao for a career at the intersection of medicine, research, and technological innovation. Throughout academic training, Dr. Jiao demonstrated a strong aptitude for evidence-based medicine and statistical modeling, gaining recognition for a disciplined and inquisitive approach. The education path reflects a trajectory of consistent excellence and interdisciplinary competence.

💼 Professional Experience:

Dr. Yan Jiao currently serves as an Attending Physician at the First Hospital of Jilin University, where the clinical focus lies in hepatobiliary and pancreatic diseases. In this role, Dr. Jiao combines patient care with research initiatives, particularly in liver cancer. Beyond clinical duties, Dr. Jiao is actively engaged in bioinformatics research, utilizing datasets like FAERS, TCGA, and NHANES to uncover patterns in disease and treatment outcomes. With expert-level proficiency in R programming, Dr. Jiao conducts complex statistical analyses and visualizations. A distinct part of Dr. Jiao’s experience involves auditing the scientific literature for data anomalies and image manipulation, contributing anonymously to investigations into research misconduct. This dual role as a clinician and data scientist uniquely positions Dr. Jiao to address both practical and theoretical challenges in healthcare. Dr. Jiao’s professional journey underscores a rare blend of technical skills, ethical vigilance, and medical expertise, reinforcing eligibility for prestigious research awards.

🔬 Research Focus:

Dr. Yan Jiao’s research is deeply rooted in hepatobiliary oncology, with a specific focus on liver cancer diagnosis, treatment strategies, and prognosis modeling. Integrating clinical insights with computational analysis, Dr. Jiao utilizes large public datasets like TCGA, FAERS, and NHANES to examine treatment efficacy, drug safety, and genetic risk factors. A significant thrust of the research lies in immunotherapy, chemoembolization techniques, and the safety of diagnostic agents like Indocyanine Green. Dr. Jiao also explores post-operative complications and gastrointestinal disorders, broadening the scope of clinical relevance. Equally important is the investigation into scientific integrity, where Dr. Jiao’s efforts in identifying manipulated data and statistical inconsistencies have led to editorial scrutiny in major journals. By bridging bioinformatics with hands-on medical practice, the research offers both theoretical advancements and actionable clinical solutions. Dr. Jiao’s focus is future-facing, centered on personalized treatment and real-world data analysis to optimize patient outcomes.

📚 Publications Top Notes:

  1. 📉 Obesity-Surgery is not the end.

  2. 💉 Landscape of transarterial chemoembolization for hepatocellular carcinoma.

  3. 🧬 Immunotherapy for metastatic gastric cancer.

  4. ⚠️ Exploring the dark side of diagnostic dyes – Indocyanine green.

  5. 🧬 Long non-coding RNA HOTAIR in liver cancer cell behavior.

  6. 🧪 Abraxane-related adverse events – FAERS decade-long analysis.

  7. 🧬 Personalized treatment of perihilar cholangiocarcinoma.

  8. 💊 Impact of immunotherapy on liver metastasis.

  9. 🏥 Incisional hernia after laparoscopic colorectal surgery.

  10. 🔍 Intestinal Behçet’s disease: Diagnosis and treatment.

🧾 Conclusion:

Dr. Yan Jiao is a highly qualified and deserving candidate for the Best Researcher Award. With an exceptional combination of clinical experience, research productivity, ethical vigilance, and bioinformatics expertise, Dr. Jiao stands out as a well-rounded and impactful medical scientist. While there is room to further elevate global visibility and leadership in grant-funded research, the current portfolio already reflects excellence in translational science and data-driven healthcare. In conclusion, Dr. Jiao’s contributions are not only prolific but principled—making this nomination both timely and justified.

Dalia Saleh | Cancer Cell Biology | Innovative Research Award

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Prof. Dalia Saleh | Cancer Cell Biology | Innovative Research Award

Prof. Dalia Saleh, National Research Centre, Egypt

Dr. Dalia Osama Abd El Fattah Saleh is a distinguished pharmacologist and professor at the National Research Centre, Cairo, Egypt. With a career spanning over two decades in academic and pharmaceutical research, she specializes in molecular pharmacology, experimental therapeutics, and drug development. She earned her Ph.D. and M.Sc. in Pharmacology from Cairo University, where she also completed her undergraduate pharmacy degree with honors. Dr. Saleh’s prolific contributions to science are reflected in her extensive publication record, focusing on novel therapeutic strategies against various toxicological, metabolic, and inflammatory disorders. Her collaborative efforts have led to advancements in drug signaling pathways, phytochemical pharmacology, and nanotechnology-based delivery systems. Recognized nationally for her innovation, she has received several prestigious awards. Dr. Saleh continues to shape pharmacological research through her dedication to translational science, mentorship, and participation in international seminars and training programs.

Publication Profile: 

Google Scholar

✅ Strengths for the Award:

  • Extensive Academic Background: Holds a Ph.D., M.Sc., and B.Sc. in Pharmacology from Cairo University, with a clear focus on endocrine and vascular pharmacology from early in her career.

  • Distinguished Research Record: Authored over 25+ high-impact publications in peer-reviewed journals including Scientific Reports, Toxicology Reports, Biochemistry and Cell Biology, and Environmental Science and Pollution Research.

  • Novel Scientific Contributions:

    • Explores molecular pharmacology through cutting-edge therapeutic approaches like AMPK/mTOR signaling, Nrf2/NF-κB modulation, and natural compound pharmacodynamics.

    • Studies involve both synthetic and phytochemical-based interventions, representing a hybrid and innovative research style.

  • Awards and Recognition:

    • National recognition for her research quality and productivity by the National Research Centre, with awards received in 2015 and 2020.

    • Ranked 24th in the institution for publication volume in 2014—an indicator of sustained output.

  • Global Exposure: Participated in professional training programs at King’s College London, enhancing her knowledge in clinical drug development and data management—an asset for interdisciplinary and translational research.

  • Leadership and Longevity: Promoted through all academic ranks at NRC, from Research Assistant to Professor, demonstrating not only competence but leadership and mentorship over time.

Areas for Improvement:

  • Clinical Translation: While the preclinical research is extensive, initiating clinical trials or translational studies would further strengthen the real-world applicability of her findings.

  • Global Visibility: Although trained internationally, more international speaking engagements, keynote invitations, or editorial roles could enhance global recognition.

  • Interdisciplinary Projects: Expanding collaborations across fields such as bioinformatics or biotechnology could amplify the innovation aspect of her work.

🎓 Education:

Dr. Dalia Saleh obtained all her academic degrees from Cairo University’s esteemed Faculty of Pharmacy. She was awarded her Ph.D. in Pharmacology in 2012 for her thesis examining estrogen’s vascular effects in insulin-resistant, ovariectomized rats. Earlier, she earned her M.Sc. in 2009 with research on rosiglitazone’s effects in streptozotocin-induced vascular changes. Her academic journey began with a B.Sc. in Pharmacy in 2002, graduating with distinction and honors. Her strong educational foundation laid the groundwork for her innovative and interdisciplinary research spanning molecular pharmacology, toxicology, and metabolic disorders. Through continuous professional development, including modules at King’s College London, Dr. Saleh stays aligned with global standards in pharmacological science and clinical drug development. Her educational background combines academic excellence with practical research expertise, making her well-equipped to address complex biomedical challenges.

👩‍🔬 Experience:

Dr. Dalia Saleh has built a progressive research career at Egypt’s National Research Centre, beginning as a Research Assistant in 2003. Over the years, she rose through the ranks to become a Professor in 2022. She previously held positions as Researcher (2012–2017) and Assistant Professor (2017–2022). Throughout her tenure, she has actively contributed to preclinical pharmacology research, focusing on inflammation, neuroprotection, metabolic diseases, and organ toxicity. Her interdisciplinary approach integrates pharmacodynamics, molecular signaling, and therapeutic intervention studies using both synthetic and natural compounds. She has led numerous studies that explore drug mechanisms at cellular and systemic levels, often employing rodent disease models. Dr. Saleh’s active participation in international training (e.g., at King’s College London) highlights her global engagement and commitment to continuous learning. Her career reflects not only research productivity but also leadership in collaborative scientific initiatives and mentoring of emerging researchers.

🏆 Awards & Honors:

Dr. Dalia Saleh has received multiple accolades that underscore her impact in the field of pharmacology. She was honored with the 2020 Scientific Pioneers Award and the 2015 Scientific Encouragement Award from Egypt’s National Research Centre (NRC), recognizing her outstanding research contributions. In 2014, she received institutional recognition for both her high publication output (ranked 24th NRC-wide) and for publishing in a high-impact journal (impact factor 4.067). These achievements highlight her consistent scientific productivity and influence in biomedical research. Dr. Saleh’s awards reflect a career driven by innovation, rigor, and dedication to solving pressing health issues. Her work continues to be widely cited and applied in translational pharmacology, securing her reputation as a leading figure in her discipline. She remains an inspiration to peers and students alike, with a legacy of both scientific excellence and mentorship.

🔬 Research Focus:

Dr. Dalia Saleh’s research is rooted in experimental pharmacology, with an emphasis on cell signaling pathways, drug discovery, and natural compound pharmacodynamics. She investigates molecular mechanisms underlying chronic diseases such as diabetes, hepatic and renal injury, neurodegeneration, and inflammatory disorders. A recurring theme in her work is the modulation of key signaling axes (e.g., AMPK/mTOR, NF-κB, PI3K/Akt) in mitigating organ toxicity and disease progression. Her recent studies explore the pharmacological potential of phytochemicals, drug hybrids, and nanoformulations in preclinical models. Dr. Saleh also examines gender-specific pathophysiology, as seen in her Ph.D. research on estrogen’s role in vascular dysfunction. She actively integrates biochemical, histological, and behavioral endpoints to ensure translational relevance. By bridging traditional medicine and molecular pharmacology, her work contributes to next-generation therapeutics and precision medicine. Her research has both national and global impact, frequently published in high-tier journals and cited in clinical research discussions.

📚 Publications Top Notes:

  1. 🧬 Eugenol alleviates acrylamide-induced testicular toxicity via AMPK/pAKT/mTOR signalingScientific Reports, 2024

  2. 💊 Trimetazidine protects against cisplatin-induced neuropathy via AMPK and Nrf2 pathwaysBiochemistry and Cell Biology, 2023

  3. 🧪 Chromone-thiazolopyrimidine hybrids inhibit TNF-α, IL-6, and PGE2Polycyclic Aromatic Compounds, 2023

  4. 🧻 Chrysin counters cyclophosphamide-induced cystitis via STAT-3 and NF-κB inhibitionChemico-Biological Interactions, 2023

  5. 🩺 Linagliptin and L-arginine synergize in hyperacidity via EP4 upregulationNaunyn-Schmiedeberg’s Archives of Pharmacology, 2023

  6. 🧠 L-arginine protects against hepatic encephalopathy via anti-apoptotic mechanismsEnvironmental Science and Pollution Research, 2023

  7. 🌿 Calotropis procera seed oil shows anti-inflammatory and antiparasitic activityArabian Journal of Chemistry, 2022

  8. 🧫 Olmesartan mitigates diabetic nephropathy through TLR4/P38-MAPK modulationEuropean Journal of Pharmacology, 2022

  9. 🌱 Anti-fibrotic activities of Plumbago species in liver fibrosis modelsScientific Reports, 2022

  10. 🐟 Omega-3 fatty acids protect against doxorubicin-induced liver damageSaudi Journal of Biological Sciences, 2022

Conclusion:

Dr. Dalia O. Saleh is highly suitable for the Best Researcher Award based on her prolific scientific contributions, consistent academic progression, and commitment to impactful pharmacological research. Her strength lies in combining rigorous mechanistic studies with applied therapeutic exploration, especially in inflammation, oxidative stress, and natural product pharmacology.

wenhao chen | Cancer Cell Biology | Best Researcher Award

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Prof. wenhao chen | Cancer Cell Biology | Best Researcher Award

Prof. wenhao chen , Zhejiang University School of Medicine Children’s Hospital National Clinical Research Center for Child Health , China

Dr. Wenhao Chen, a leading orthopedic surgeon and researcher, currently serves as the Head of the Department of Orthopedics at the Children’s Hospital, Zhejiang University School of Medicine. At 38, he has made substantial contributions to pediatric orthopedics, bone oncology, and regenerative medicine. Dr. Chen obtained his MD from Peking University and completed a prestigious postdoctoral fellowship at Massachusetts General Hospital. Known for integrating clinical expertise with biomedical research, he has authored over 17 high-impact papers, applying advanced techniques such as machine learning, gene profiling, and CRISPR screening in orthopedic studies. His work spans rare skeletal diseases, cancer metastasis, and spinal cord repair. Recognized internationally, he continues to mentor young researchers and lead translational projects. With a vision toward improving musculoskeletal health in children, his multidisciplinary approach positions him as a strong contender for the Best Researcher Award.

Publication Profile:

Orcid

✅ Strengths for the Award:

  1. Outstanding Research Productivity:
    Dr. Chen has authored over 18 high-impact, peer-reviewed publications in prestigious journals such as FASEB Journal, QJM, Journal of Translational Medicine, and Journal of Orthopaedic Research. His work spans orthopedics, oncology, regenerative medicine, and computational biology.

  2. Interdisciplinary Expertise:
    He integrates molecular biology, AI, proteomics, CRISPR screening, and clinical research, particularly in osteosarcoma, Ewing sarcoma, spinal cord repair, and rare pediatric skeletal diseases.

  3. Clinical and Academic Leadership:
    As Head of the Department of Orthopedics at a leading children’s hospital and faculty member at Zhejiang University, he demonstrates clinical leadership and research excellence.

  4. International Experience:
    His postdoctoral fellowship at Massachusetts General Hospital, USA, reflects global research exposure and cross-cultural collaboration.

  5. Translational Impact:
    Dr. Chen’s research shows a clear clinical application, such as prognosis prediction models, radiotherapy effectiveness evaluation, and gene therapy strategies for rare disorders and cancer.

🔧 Areas for Improvement:

  1. Visibility in Global Academic Forums:
    While his research is impactful, increased participation in international conferences, workshops, and symposiums could enhance visibility and networking.

  2. First-/Last-Author Publications:
    While present, a greater proportion of senior authorship could strengthen his recognition as a principal investigator or thought leader in major studies.

  3. Grant Leadership & Patent Output:
    There’s limited publicly shared information on research grants led or intellectual property (e.g., patents), which could further validate his innovation and translational output.

🎓 Education:

Dr. Wenhao Chen began his medical journey in 2004 at Peking University, one of China’s most prestigious institutions, where he completed his MD program over eight years (2004–2012). This comprehensive training gave him a robust foundation in clinical medicine and surgical practice. As part of his pursuit of global excellence, Dr. Chen was selected for a postdoctoral research position at Massachusetts General Hospital (2019–2020), affiliated with Harvard Medical School. During this international fellowship, he engaged in advanced research in orthopedics, including joint reconstruction, stem cell applications, and musculoskeletal oncology. His education reflects not only academic brilliance but also an openness to cross-border scientific collaboration. Dr. Chen’s diverse educational background enables him to merge Eastern clinical insights with Western research innovations, which he continues to apply in developing pediatric orthopedic interventions and understanding skeletal disorders on a molecular level.

💼 Experience:

With over a decade of experience in clinical orthopedics and research, Dr. Wenhao Chen leads the Department of Orthopedics at the Children’s Hospital of Zhejiang University School of Medicine. His career began in top-tier clinical hospitals in China and expanded to the U.S. during his postdoctoral fellowship at Massachusetts General Hospital, where he worked on joint reconstruction and bone oncology. In his current leadership role, he spearheads surgical treatment strategies, oversees translational research projects, and mentors medical trainees. Dr. Chen’s experience spans pediatric orthopedic deformities, osteosarcoma, Ewing sarcoma, and regenerative therapies. He’s an expert in the application of genomics, CRISPR screens, and AI in musculoskeletal disorders. His multidisciplinary projects have led to multiple grants and collaborations. Dr. Chen’s leadership extends beyond the hospital into academia, where he regularly publishes in peer-reviewed journals and reviews manuscripts. His balance of surgical excellence and innovation defines his professional experience.

🔬 Research Focus:

Dr. Wenhao Chen’s research centers on pediatric orthopedics, bone tumors (especially osteosarcoma and Ewing sarcoma), regenerative medicine, and translational oncology. He focuses on unraveling the molecular mechanisms of musculoskeletal disorders through multi-omics profiling, CRISPR screening, and machine learning. A significant part of his work addresses prognostic modeling using genomic and metabolic markers. He has also pioneered studies on gene therapy using viral vectors for spinal cord repair and the application of stem cells in congenital skeletal diseases like mucopolysaccharidosis IVA. Additionally, he investigates inflammation and autophagy signaling pathways, notably the PI3K/AKT/GSK3β axis in bone homeostasis. His translational research aims to convert biological findings into targeted clinical therapies. Dr. Chen’s work is consistently published in top-tier journals and has influenced diagnostic and therapeutic protocols in orthopedics. His blend of computational biology, clinical acumen, and lab innovation defines his impactful and forward-looking research portfolio.

📚 Publications Top Notes:

  1. 🧬 Diminished GALNS activity in iPSCs of MPS IVA caused by compound mutationsQJM, 2024

  2. 🧪 LARS as essential gene for osteosarcoma proliferation via CRISPR screeningJ Transl Med, 2022

  3. 🌬️ Itraconazole mitigates lung fibrosis via SPP1/C3 signalingJ Transl Med, 2024

  4. 🔬 Chaperone-mediated autophagy protects bone formation via PI3K/AKT pathwayFASEB J, 2024

  5. 🧠 Predicting metastasis and radiotherapy effectiveness in metastatic osteosarcomaJ Cancer Res Clin Oncol, 2023

  6. 🤖 Machine learning predicts prognosis in Ewing sarcoma patientsJ Orthop Res, 2021

  7. Glycolysis-related gene score predicts osteosarcoma survivalJ Orthop Res, 2022

  8. 🧫 Candidate proteins for astrocyte-to-neuron conversion via proteomicsNeural Regen Res, 2021

  9. 🦴 Surgery ± radiotherapy for malignant giant cell tumor of bone/soft tissueJ Orthop Res, 2020

  10. 🧠 NeuroD1 gene promotes glial-to-neuron conversion post-spinal cord injuryBrain Res Bull, 2017

🧾 Conclusion:

Dr. Wenhao Chen is a highly accomplished orthopedic surgeon-scientist whose interdisciplinary research portfolio, leadership in pediatric musculoskeletal science, and international collaborations make him an exceptional candidate for the Best Researcher Award. His extensive body of work, blending molecular biology with clinical application, showcases both depth and innovation, especially in addressing complex skeletal disorders and musculoskeletal oncology. With a few enhancements in international visibility and grant leadership, he is well on the path to becoming a global leader in orthopedic research.

Mingkun Yu | Cancer Cell Biology | Best Researcher Award

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Dr. Mingkun Yu | Cancer Cell Biology | Best Researcher Award

Dr. Mingkun Yu , Binzhou Medical College Affiliated Traditional Chinese Medicine Hospital(Binzhou Traditional Chinese Medicine Hospital) , China

Dr. Mingkun Yu is an Associate Chief Physician at Binzhou Traditional Chinese Medicine Hospital, affiliated with Binzhou Medical College, China. He is an expert in integrating evidence-based medicine with traditional Chinese and Western medical practices, especially within oncology and ophthalmology. With over five years of clinical experience, Dr. Yu has made significant contributions to the field through impactful clinical research, trial designs, and methodological innovation. He is the recipient of a National Natural Science Foundation of China project and has led the development of national-level guidelines. Dr. Yu’s publications have gained high visibility, with citations and downloads from prestigious journals like BMJ. He collaborates with renowned experts worldwide and actively contributes as a peer reviewer for SCI journals. Known for his meticulous clinical approach and research rigor, Dr. Yu is a rising star in integrative medical science, particularly in addressing patient compliance and advancing myopia-related research strategies.

Publication Profile:

Orcid

✅ Strengths for the Award:

  1. Academic Excellence
    Dr. Yu has earned advanced degrees from top-tier traditional Chinese medicine institutions in China, culminating in a PhD focused on integrated clinical medicine—a rare and interdisciplinary specialty.

  2. Proven Research Record

    • Published 7 SCI-indexed papers (including in BMJ and Therapeutic Advances in Gastroenterology) and 5 Chinese core journal papers.

    • First/corresponding author impact factor: 18.3; co-author cumulative impact factor: 112.

    • One article with 9248 downloads, another cited 66 times—demonstrating strong academic reach and relevance.

  3. Research Leadership

    • Designed and led multiple RCTs, cohort studies, and cluster RCTs.

    • Principal investigator of a National Natural Science Foundation of China project.

    • Spearheaded the national-level guideline on myopia—a major public health concern in Asia.

  4. Innovative Contributions

    • Introduced target value analysis and conducted extensive patient compliance research in clinical trials.

    • Integrated evidence-based methods with traditional Chinese medicine, a cutting-edge niche in global medical research.

  5. Collaborations & Peer Review

    • Collaborates with global leaders such as Paul Little, Gordon Guyatt, and Lehana Thabane.

    • Reviewer for top SCI journals including European Journal of Integrative Medicine and BMC Geriatrics.

⚙️ Areas for Improvement:

  1. Global Dissemination & Outreach

    • Dr. Yu could further enhance his profile by increasing international speaking engagements, attending more global medical symposia, and joining international research societies.

  2. Books or Monographs

    • No books published yet. Authoring clinical reference books or practitioner guides would boost both practical impact and professional visibility.

  3. Translational Research and Patents

    • With only one published patent, there is scope to convert more research findings into innovative tools, treatments, or technologies for broader clinical application.

  4. Professional Memberships

    • Active memberships in professional research or clinical bodies could enhance his professional network and visibility in award circuits.

📚 Education:

Dr. Yu earned his Master’s degree in Evidence-Based Medicine (Oncology) from Beijing University of Traditional Chinese Medicine in 2021. His academic journey culminated in a PhD in Clinical Medicine (Integrated Traditional Chinese and Western Medicine) from Shandong University of Traditional Chinese Medicine in 2024. Throughout his education, Dr. Yu focused on bridging the gap between traditional Chinese therapeutic principles and contemporary Western medical methodologies. His doctoral research emphasized designing clinical trials, evaluating treatment efficacy using systematic review and meta-analysis, and developing methodologies for improving patient outcomes. His educational background also provided him with comprehensive knowledge in oncology, ophthalmology, acupuncture, and behavioral health, preparing him to implement innovative, integrative solutions in clinical practice. He was mentored by leading figures in evidence-based medicine and engaged in collaborative studies with international researchers, further enriching his global research perspective.

🩺 Experience:

With more than 5 years of experience in clinical medicine, Dr. Mingkun Yu has become a prominent practitioner and researcher in integrated traditional Chinese and Western medical care. As an Associate Chief Physician at Binzhou Traditional Chinese Medicine Hospital, he leads and participates in high-level clinical research projects, including randomized controlled trials and cohort studies. He has contributed to over 7 national-level research projects and served as principal investigator in hospital-based clinical studies. Dr. Yu’s areas of expertise include patient compliance strategies in oncology, evidence synthesis in myopia prevention, and methodological development for clinical trials. He is a frequent presenter at national and international conferences and has served as a reviewer for SCI-indexed journals. Dr. Yu is also involved in writing clinical practice guidelines and has been recognized for his scientific contributions through research awards and publications in high-impact journals.

🔬 Research Focus:

Dr. Mingkun Yu’s research lies at the intersection of evidence-based medicine and integrated Chinese and Western clinical practices. His key focus areas include patient compliance in oncology, risk factor identification and prevention strategies for myopia, and designing robust clinical trials like RCTs, cohort, and cluster studies. He actively develops and applies systematic review methodologies, meta-analyses, and guideline development processes to ensure high-impact clinical outcomes. Dr. Yu has innovated in the area of patient compliance by applying qualitative synthesis and target value analysis, improving retention and adherence in clinical trials. He is particularly invested in the development of guidelines for myopia in children and adolescents and has published widely in SCI journals. His collaboration with global experts such as Paul Little, Gordon Guyatt, and Lehana Thabane strengthens the international relevance of his work. Through this multifaceted research approach, Dr. Yu aims to bridge traditional wisdom with modern scientific rigor.

📝 Publications Top Notes:

📄 Pseudomyopia as an independent risk factor for myopia onset: a prospective cohort study among school-aged childrenBritish Journal of Ophthalmology, 2024
📘 The Process factors and improvement strategies of patient compliance and retention in clinical trials: a synthesis of qualitative researchInplasy Report, 2021
📚 Berberine for diarrhea in children and adults: a systematic review and meta-analysisTherapeutic Advances in Gastroenterology, 2020

🧾 Conclusion:

Dr. Mingkun Yu stands out as a highly deserving candidate for the Best Researcher Award due to his cross-disciplinary research integrating traditional Chinese and Western medicine, his leadership in national clinical trials, impactful publications, and commitment to clinical innovation. His scholarly output is not only substantial but also highly cited and widely read, reflecting real-world influence and academic excellence.

With a growing international research presence, a unique focus on culturally integrated methodologies, and an impressive trajectory of innovation and collaboration, Dr. Yu clearly embodies the ideals of a next-generation clinical research leader.

Sen Wang | Cancer Cell Biology | Best Researcher Award

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Ms. Sen Wang | Cancer Cell Biology | Best Researcher Award

Ms. Sen Wang , Affiliated Hospital of Jining Medical College , China

Dr. Wang Sen is an accomplished researcher and Deputy Chief Technician at the Affiliated Hospital of Jining Medical University. With a Ph.D. in Pharmaceutical Engineering and a postdoctoral fellowship at Shandong University of Traditional Chinese Medicine, he has developed deep expertise in molecular oncology, tumor microenvironments, and translational medicine. His career spans over a decade, marked by significant research in gastrointestinal and renal cancers, exploring mechanisms of autophagy, endothelial dysfunction, and tumor angiogenesis. Dr. Wang has led and contributed to several prestigious research projects, including National Natural Science Foundation grants. He has published in high-impact journals and holds patents that support translational applications in oncology. Recognized by peers and institutions alike, he received the Shandong Medical Association Youth Science and Technology Award. His work continues to push boundaries in cancer research, demonstrating strong scientific leadership and a commitment to improving therapeutic strategies.

Publication Profile: 

Scopus

✅ Strengths for the Award

  1. Extensive Research Background
    Dr. Wang has demonstrated a consistent and deep involvement in cutting-edge cancer research, especially focusing on tumor microenvironment regulation, autophagy, and angiogenesis—key areas in translational oncology.

  2. Prolific Publication Record
    He is the sole first author of several papers published in high-impact journals like British Journal of Cancer, Cell Death & Disease, and Scientific Reports. These contributions indicate scientific independence and strong writing and experimental skills.

  3. Leadership in Funded Projects
    He has served as Principal Investigator (PI) on multiple prestigious projects, including the NSFC Youth Fund and China Postdoctoral Foundation grants, which testifies to his research leadership and capability in securing competitive funding.

  4. Innovative Impact through Patents
    Dr. Wang is a co-inventor of three Chinese patents, including a novel therapeutic application of MT1G in renal cancer—highlighting a strong translational component in his research.

  5. Academic Awards and Recognition
    His receipt of the Shandong Medical Association Youth Science and Technology Award (Second Prize) in 2024 is an external validation of his scientific excellence at the provincial level.

  6. Collaborative and Interdisciplinary Approach
    His co-authorship with experts across molecular biology, pharmacology, and clinical research demonstrates a collaborative nature crucial for multidisciplinary medical advancements.

📈 Areas for Improvement

  1. International Recognition
    While Dr. Wang’s work is commendable within China, increasing collaboration or recognition on an international level (e.g., international conferences, global research networks) would further elevate his research visibility.

  2. Citations and Real-world Applications
    Some of his recent papers have not yet garnered citations. Continued dissemination, follow-up studies, and clinical application testing will help boost impact.

  3. Expanded Mentorship Role
    There is limited information on his mentorship of young scientists or PhD students. Strengthening academic mentorship could broaden his influence within the scientific community.

🎓 Education:

Dr. Wang Sen has pursued a comprehensive academic path in life sciences and medical research. He earned his Ph.D. in Pharmaceutical Engineering from Chongqing Medical University (2016–2019), following a Master’s degree in Biochemistry and Molecular Biology at the same institution (2013–2016). His foundational training began with a Bachelor’s degree in Biological Engineering from Jining University (2009–2013), where he laid the groundwork for his interest in molecular biology and drug development. His doctoral and master’s work focused on cancer biology, signaling pathways, and translational medicine—preparing him for cutting-edge postdoctoral research at Shandong University of Traditional Chinese Medicine (2022–2024). This academic journey has equipped him with strong theoretical and experimental skills that he applies in both clinical and laboratory settings.

🧪 Experience:

Dr. Wang Sen currently serves as Deputy Chief Technician at the Affiliated Hospital of Jining Medical University (since Nov 2024). Prior to this, he held the role of Chief Technician (2019–2024) at the same hospital, where he led several translational cancer research projects. His responsibilities include designing experimental protocols, overseeing clinical collaboration, and mentoring junior researchers. His postdoctoral research (2022–2024) at Shandong University of Traditional Chinese Medicine focused on tumor angiogenesis and metabolic regulation. Throughout his academic and professional journey, he has shown a keen interest in understanding cancer cell signaling, tumor-endothelial interactions, and the development of therapeutic targets. His multidisciplinary expertise makes him a vital contributor to collaborative projects in molecular medicine and drug discovery.

🏆 Awards and Honors:

Dr. Wang Sen’s contributions to medical research have earned him notable recognition. In 2024, he received the Shandong Medical Association Youth Science and Technology Award (Second Prize), celebrating his innovative work in cancer biology. He is also a co-inventor on three Chinese patents, including the application of MT1G protein inhibitors for renal cancer and methods related to small molecule metabolite ligands and exosome preparation. These patents demonstrate his commitment to translational research and innovation in therapeutic development. Additionally, his participation in collaborative high-impact publications and national grants has solidified his reputation as a rising leader in biomedical sciences. His academic integrity, technical depth, and consistent contributions to cutting-edge research make him an ideal candidate for recognition through prestigious awards like the Best Researcher Award.

🔬 Research Focus:

Dr. Wang Sen’s research centers on tumor microenvironment regulation, angiogenesis, autophagy, and tumor stem cell interactions, with a strong focus on gastrointestinal and renal cancers. His work often integrates cellular signaling, exosome biology, and gene expression regulation to understand cancer progression and metastasis. Key interests include pathways involving INSR/FGF5/ADRB2, ALDOC, and MT1G, which he investigates for their roles in tumor metabolism and vascular dynamics. Dr. Wang combines clinical relevance with basic science, aiming to translate molecular findings into diagnostic tools or therapeutic targets. His innovative studies on betulinic acid, p53-mediated pathways, and epigenetic modifications contribute to the broader field of precision oncology. His interdisciplinary approach—bridging pharmacology, molecular biology, and clinical application—positions him as a dynamic researcher capable of advancing medical science.

📚 Publications Top Notes:

  1. 📘 MT1G induces lipid droplet accumulation through H3K14 trimethylation in renal cancer, British Journal of Cancer, 2024 – 🥇 Sole First Author

  2. 📗 p53-mediated autophagy protects against betulinic acid-induced apoptosis in colorectal cancer, Cell Death & Disease, 2017 – 🥇 Sole First Author

  3. 📕 FOXS1 is regulated by GLI1/miR-125a-5p, promotes proliferation and EMT in gastric cancer, Scientific Reports, 2019 – 🥇 Sole First Author

  4. 📙 Identification of the human HAS3 promoter region, Biochemical and Biophysical Research Communications, 2015 – 🥇 Sole First Author

  5. 📓 Betulinic acid induces G2/M arrest via MT1G in colon cancer cells, Heliyon, 2024 – 👥 Co-First Author

  6. 📔 PCDH17 induces colorectal cancer metastasis by disrupting vascular barriers, Cell Death and Disease, 2025 – 🧬 Contributor

  7. 📒 OX40 activation drives tumor escape via S1P/YAP angiogenesis, Journal of Clinical Investigation, 2025 – 🧬 Contributor

🧾 Conclusion:

Dr. Wang Sen is a highly qualified and worthy candidate for the Best Researcher Award. His impressive portfolio—spanning publications, funded projects, patents, and recognized awards—shows that he is not only producing important knowledge but also moving toward real-world application in cancer therapeutics. With continued focus on global engagement and translational outcomes, he is poised to become a leading figure in molecular oncology. His scientific rigor, innovation, and leadership embody the spirit of this award.

Weifen Zhang | Cancer Cell Biology | Best Researcher Award

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Prof. Weifen Zhang | Cancer Cell Biology | Best Researcher Award

Prof. Weifen Zhang , Shandong Second Medical University , China

Professor Weifen Zhang is a renowned scientist in pharmaceutical sciences, serving as a Professor at the School of Pharmacy, Shandong Second Medical University. She also directs the Shandong Engineering Research Center for Intelligent Materials and Regenerative Medicine and the Pharmaceutical Experimental Teaching Center. With over 50 SCI-indexed publications and 27 national and international patents, her contributions have significantly influenced the development of targeted drug delivery systems and smart biomaterials. A recipient of the State Council Special Allowance and recognized as a Shandong Provincial Outstanding Expert, Professor Zhang combines academic excellence with practical innovation. She has led and collaborated on numerous national-level research projects, focusing on novel therapeutic strategies for cancer, regenerative medicine, and nano-drug technologies. Additionally, she plays a prominent role in scientific publishing as a guest editor and reviewer for leading journals. Her dedication to interdisciplinary research continues to shape the future of pharmaceutical technology.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. 📚 High Research Productivity: Over 50 SCI-indexed publications in high-impact journals such as ACS Applied Materials & Interfaces, Journal of Biomedical Nanotechnology, and Science China Materials.

  2. 💡 Innovation & Intellectual Property: Holds 27 national and international patents, showing a strong translation of academic work into real-world applications.

  3. 🔬 Research Focus & Impact: Cutting-edge work in targeted drug delivery systems, intelligent biomaterials, and regenerative medicine, especially impactful in oncology.

  4. 🎯 Project Leadership: Principal Investigator for multiple nationally funded projects, managing significant funding amounts and driving original discoveries.

  5. 🌐 Academic Influence: Serves as a guest editor and reviewer for leading scientific journals, contributing to quality control and peer knowledge advancement.

  6. 📖 Educational Impact: Contributions to national-level textbooks like Pharmaceutics and Pharmaceutical English highlight her role in shaping future pharmaceutical education.

  7. 🤝 Industry Collaboration: Active collaborations with companies like NOIMAIER (Shandong) Medical Technology Co., Ltd, demonstrating practical application and outreach.

⚠️ Areas for Improvement:

  1. 🌍 Global Outreach: While her influence is strong nationally, increased participation in international conferences, collaborations, and global visibility would further elevate her stature.

  2. 🎙️ Public Engagement: Enhanced involvement in science communication, including talks, public articles, or media, could broaden her societal impact.

  3. 🌐 Online Presence: A more visible online research profile (e.g., Google Scholar, ResearchGate, LinkedIn) could help in networking and research dissemination globally.

🎓 Education:

Professor Weifen Zhang received comprehensive training in pharmaceutical sciences, culminating in a doctorate in pharmacy or a related biomedical field (specific degree and institution not provided in the current profile). Her academic journey has been deeply rooted in advancing applied pharmaceutical research, especially in the field of drug delivery and intelligent materials. Her educational background laid the foundation for her specialization in nanoformulations, regenerative medicine, and drug resistance reversal. Professor Zhang has supplemented her academic credentials with continued professional development through her work with major national science foundations and governmental innovation programs. Her commitment to combining traditional pharmaceutical training with cutting-edge material science has enabled her to become a leader in translational research. Although the detailed degrees and institutions are not specified, her track record in high-impact research, publications, and academic leadership reflects a strong and diverse educational background.

🧪 Experience:

Professor Zhang brings over two decades of experience in pharmaceutical sciences, nanomedicine, and biomaterial engineering. She has served in multiple leadership roles, including Director of both the Shandong Engineering Research Center for Intelligent Materials and Regenerative Medicine and the Pharmaceutical Experimental Teaching Center at Shandong Second Medical University. As Principal Investigator on numerous high-profile projects funded by the National Natural Science Foundation of China and regional innovation programs, she has demonstrated excellence in both basic and translational research. Her industrial collaborations and consultancy projects, such as those with NOIMAIER Medical Technology, reflect her ability to translate scientific innovation into practical solutions. Her experience is also reflected in her active editorial and peer review contributions to top-tier journals, as well as her involvement in educational contributions through national textbook projects. Her academic, industrial, and clinical translational experiences make her a uniquely qualified and impactful researcher.

🔬 Research Focus:

Professor Weifen Zhang’s research is at the forefront of targeted drug delivery, intelligent biomaterials, and regenerative medicine. Her primary scientific focus involves developing novel nanoparticle-based platforms to improve therapeutic outcomes in diseases such as non-small cell lung cancer. She has led pioneering studies in dual-drug synergistic delivery, utilizing agents like quercetin and paclitaxel, aimed at overcoming drug resistance. Her lab also explores smart, biodegradable materials, such as Bletilla striata polysaccharide microneedles, for innovative therapeutic applications including hair regrowth and skin regeneration. In regenerative medicine, she is advancing bionic materials, such as mineralized collagen scaffolds, for orthopedic and dental use. Additionally, she works on plant-derived compounds, contributing to both pharmaceutical and agricultural solutions. Through interdisciplinary approaches, including nanotechnology, immunology, and pharmacokinetics, Professor Zhang’s work is positioned to influence both academic research and clinical practice. Her vision continues to shape the field of personalized and precision medicine.

📚 Publications Top Notes:

  1. 📌 Bletilla striata polysaccharide-based dissolving microneedle patch integrated with nanoparticles for promoting hair regrowth

  2. 🧱 Composite scaffolds based on egg membrane and eggshell-derived inorganic particles promote soft and hard tissue repair

  3. 💉 Efficient chemo-immunotherapy leveraging minimalist electrostatic complex nanoparticle as “in situ” vaccine integrated tumor ICD and immunoagonist

  4. 🌿 A Chinese drug-compatibility-based approach to purslane hydrogels for acute eczema therapy

  5. 🔬 Dynamic Covalent Bond-Based Nanoassembly of Curcumin to Enhance the Selective Photothermal Therapy for Tumor Treatment

  6. 🧵 Multifunctional Nanofiber Membranes Constructed by Microfluidic Blow-Spinning to Inhibit Scar Formation at Early Intervention Stage

  7. 📄 Corrigendum to “Synergistically enhanced cancer immunotherapy by combining protamine-based nanovaccine with PD-L1 gene silence nanoparticle”

  8. 💉 Minimalist “in situ” tumor vaccine leveraging versatile dendrimer nanoplatform coordinated ICD and immunoagonist for boosted chemoimmunotherapy

  9. 🧬 A minimalist cancer cell membrane-shielded biomimetic nanoparticle for nasopharyngeal carcinoma active-targeting therapy

  10. ⚗️ Biodegradable Manganese-Containing Mesoporous Silica Nanoparticles for Precisely Controlled Quercetin Delivery

 

📌 Conclusion:

Professor Weifen Zhang demonstrates exceptional qualifications for the Best Researcher Award. Her deep scientific contributions, robust patent portfolio, influential publications, and national leadership in pharmaceutical innovation mark her as a leader in biomedical research. With a few enhancements in global visibility and science communication, her already impressive profile could reach even greater heights.

Huizheng Hu | Cancer Cell Biology | Best Researcher Award

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Ms. Huizheng Hu | Cancer Cell Biology | Best Researcher Award

Ms. Huizheng Hu , Nuclear Industry 215 Hospital of Shaanxi Province , China

Dr. Huizheng Hu is a distinguished medical scientist and Director of the Laboratory Department at the Nuclear Industry 215 Hospital of Shaanxi Province, China. As an Associate Professor, Dr. Hu has made significant strides in the fields of tumor cell biology and microbial drug resistance. With a strong foundation in pathogenic microbiology and translational medicine, he integrates clinical practice with cutting-edge laboratory research. He has published six SCI-indexed papers and received numerous accolades, including multiple awards from the Xianyang Science and Technology Progress Committee and recognition as an “Outstanding Individual of Shaanxi Province.” His leadership in research projects on papillary thyroid carcinoma (PTC) and ongoing collaborations with Northwest University further reflect his dedication to scientific advancement. Known for his innovation, expertise, and commitment to healthcare, Dr. Hu is a leading figure bridging oncology and infectious disease research.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. Research Excellence:
    Dr. Hu has published six peer-reviewed SCI-indexed papers in the fields of oncology and microbiology—two globally significant research domains.

  2. Leadership in Research Projects:
    Currently leading three active research projects on papillary thyroid carcinoma (PTC) and has successfully secured six competitive research grants, reflecting his project management and funding acquisition capabilities.

  3. Innovative Interdisciplinary Work:
    His translational research bridges tumor biology and infectious diseases, an emerging and impactful cross-disciplinary niche in medical science.

  4. Recognized Expertise:
    Awarded multiple prestigious honors including:

    • Third Prize from the Nuclear Industry Geological Exploration Bureau

    • Seven awards from the Xianyang Science and Technology Progress Committee

    • Named a “Three-Five Talent” and “Outstanding Individual of Shaanxi Province”

  5. Academic Collaborations:
    Active collaboration with Professor Li Zheng’s team at Northwest University, showcasing a commitment to scientific cooperation.

🔧 Areas for Improvement:

  1. Global Visibility:
    While regionally recognized, Dr. Hu’s international presence could be enhanced by:

    • Publishing in higher-impact global journals

    • Participating in global scientific conferences or forums

  2. Editorial and Membership Roles:
    Expanding into editorial boards or joining professional organizations would further validate and amplify his professional stature in the scientific community.

  3. Digital/Research Profiles:
    Maintaining updated digital research profiles (e.g., Google Scholar, ResearchGate) and citation metrics would strengthen the transparency and accessibility of his academic output.

🎓 Education:

Dr. Huizheng Hu holds an advanced academic background specializing in medical sciences with a focus on tumor biology and microbiology. He earned his medical degree and pursued postgraduate training in pathogenic microbiology, acquiring both clinical and research experience. His academic training includes a strong emphasis on experimental design, molecular biology, and translational research. Dr. Hu further refined his expertise during specialized programs and workshops that focused on cancer biology, microbial resistance mechanisms, and diagnostic laboratory technologies. This rigorous educational foundation enabled him to become an expert in handling infectious disease diagnostics and tumor pathology. His education was also complemented by institutional mentorships and collaborations that contributed to his development as an academic and professional leader in his field. As an academic, he continues to integrate his theoretical training into real-world clinical scenarios, enhancing both patient outcomes and scientific understanding.

💼 Professional Experience:

With over a decade of experience in clinical and laboratory medicine, Dr. Huizheng Hu currently serves as the Director of the Laboratory Department at Nuclear Industry 215 Hospital in Shaanxi Province. As an Associate Professor, he has led various research initiatives and clinical programs, particularly in oncology and microbiology. His role involves overseeing diagnostics, laboratory quality control, and supervising research staff. Dr. Hu has been a key figure in managing multidisciplinary projects focused on tumor biology and microbial resistance. He has secured six competitive research grants and is actively involved in national and regional research programs. His accolades include multiple awards for scientific innovation and academic leadership, such as the “Leading Talent in Scientific and Technological Innovation” title. Dr. Hu has also been recognized for his contributions to public health and research excellence through provincial honors. His practical experience strengthens his role as both a healthcare provider and scientific innovator.

🔬 Research Focus:

Dr. Huizheng Hu’s research focuses on two core areas: tumor cell biology and microbial drug resistance mechanisms. His studies aim to understand the cellular and molecular dynamics of cancers, especially papillary thyroid carcinoma (PTC), and how microbial pathogens adapt to drugs in clinical settings. His translational research bridges oncology with infectious disease treatment, offering new perspectives on personalized medicine. Currently, Dr. Hu is leading three major projects targeting PTC progression and diagnostics. Additionally, he collaborates with Professor Li Zheng’s team at Northwest University to explore mechanisms of microbial resistance, with a particular emphasis on hospital-acquired infections. His work integrates clinical microbiology, molecular biology, and pathology, aiming to develop targeted therapies and improve diagnostic accuracy. Through extensive laboratory work, real-world clinical application, and collaborative research, Dr. Hu is actively contributing to both cancer and infectious disease innovation, striving for improved patient care outcomes and global health advancements.

📚 Publications Top Notes:

  • 🦠📊 Analysis of infection indicators and risk factors for influenza A after the COVID-19 pandemic – New Microbiologica, 2024

  • 🔬🧬 Molecular pathways in papillary thyroid carcinoma: A focus on tumor microenvironment interactions

  • 💊🧫 Mechanisms of microbial resistance to last-line antibiotics in hospital pathogens

  • 🧪👨‍⚕️ Diagnostic advancements in thyroid cancer: A laboratory-based approach

  • 🧻⚗️ The interplay between microbiota and immune modulation in cancer patients

  • 🧬🧪 Comparative study of PTC biomarkers using immunohistochemical techniques

🧾 Conclusion:

Dr. Huizheng Hu is a highly suitable candidate for the Best Researcher Award. His leadership in research, strong publication record, and numerous regional accolades demonstrate sustained excellence in scientific innovation. While expanding international engagement could further elevate his profile, his ongoing contributions to cancer and microbiology research already reflect a distinguished career deserving of recognition at a global level.