Yi Zhang | Tumor Immunology | Best Researcher Award

Published on by Cell Biologist

Prof. Yi Zhang | Tumor Immunology | Best Researcher Award

The First Affiliated Hospital of Zhengzhou University | China

Prof. Yi Zhang is a globally recognized leader in genetically engineered cell therapy and translational immuno-oncology research. Over the past 36 years, he has made pioneering contributions to overcoming major barriers in cell therapy and advancing its clinical applications worldwide. His extensive research has produced 290 SCI-indexed publications, including 11 ESI top 1% highly cited papers, accumulating more than 14,000 citations and an h-index of 66. Prof. Zhang’s groundbreaking innovations include identifying the novel CAR-T therapeutic target CD276 for solid tumors, developing gene-editing technologies to reduce PD-1–mediated immunosuppression, and creating novel cytokines and culture protocols that enhance immune cell stemness and anti-tumor function. He has also led the development of CAR-T cells that normalize tumor vasculature and improve infiltration, significantly enhancing therapeutic efficacy. With 46 invention patents (17 authorized) and over 80 million yuan in technology transfers, his work bridges basic science and clinical application through an integrated “industry-university-research” platform. As principal investigator, he has directed more than 52 clinical trials—29 targeting solid tumors, the highest number globally—resulting in improved outcomes and even clinical cures for advanced cancer patients. His leadership in establishing national standards and safety protocols has also shaped the regulation and global best practices in cell therapy.

Profile: Orcid

Featured Publications:

Gao, Y., Liu, S., Huang, Y., Wang, H., Zhao, Y., Cui, X., Peng, Y., Li, F., & Zhang, Y. (2024, December 3). CAR T cells engineered to secrete IFNκ induce tumor ferroptosis via an IFNAR/STAT1/ACSL4 axis. Cancer Immunology Research.

Huang, Y., Cao, R., Wang, S., Chen, X., Ping, Y., & Zhang, Y. (2025, December 31). In vivo CAR-T cell therapy: New breakthroughs for cell-based tumor immunotherapy. Human Vaccines & Immunotherapeutics.

Li, J., Wang, D., Zhang, Z., Sun, K., Lei, Q., Zhao, X., Huang, J., Wang, L., & Zhang, Y. (2025, June 1). Serum carcinoembryonic antigen levels as a predictive biomarker for cytokine-induced killer cell immunotherapy in patients with colorectal cancer. The Journal of Immunology.

Lian, J., Yue, Y., Yu, W., & Zhang, Y. (2025, March 5). Correction: Immunosenescence: A key player in cancer development. Journal of Hematology & Oncology.

Ping, Y., Fan, Q., & Zhang, Y. (2025, February). Modulating lipid metabolism improves tumor immunotherapy. Journal for ImmunoTherapy of Cancer.

Hu, W., Li, F., Liang, Y., Liu, S., Wang, S., Shen, C., Zhao, Y., Wang, H., & Zhang, Y. (2025, January). Glut3 overexpression improves environmental glucose uptake and antitumor efficacy of CAR-T cells in solid tumors. Journal for ImmunoTherapy of Cancer.

Mohammad reza Atashzar | Cancer stem cell | Best Researcher Award

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Dr. Mohammad reza Atashzar | Cancer stem cell | Best Researcher Award

Dr. Mohammad reza Atashzar, Dep of immunology, Fasa university of medical sciences ( FUMS ), Iran

Dr. Mohammad Reza Atashzar is an Assistant Professor in the Department of Immunology at Fasa University of Medical Sciences (FUMS), Iran. With an enduring passion for tumor immunology, stem cells, vaccine design, and immunotherapy, he has made significant contributions through both basic and translational research. Dr. Atashzar earned his PhD in Immunology from Shahid Beheshti University of Medical Sciences and has since engaged in teaching, mentoring, and publishing extensively in high-impact journals such as The Lancet Oncology, Frontiers in Immunology, and Current Molecular Medicine. His innovative research spans exosome-based therapy, cancer biomarkers, cytokine profiling, and radiogenomics. Dr. Atashzar has also contributed to international collaborations across Germany, Finland, and the UK, showcasing a global outlook in biomedical science. An awardee of the KAI 2022 International Travel Grant and recognized as the Top Researcher at FUMS in 2021, he remains deeply committed to advancing immunological sciences for clinical and therapeutic benefit.

Publication Profile: 

Orcid

Google Scholar

✅ Strengths for the Award:

  1. Extensive Research Contributions
    Dr. Atashzar has authored numerous peer-reviewed publications in reputable journals including The Lancet Oncology, Frontiers in Immunology, Current Molecular Medicine, and Computers in Biology and Medicine. His work spans critical fields like cancer immunology, exosome therapy, stem cell immunomodulation, and vaccine research.

  2. High-Impact Publications
    Several of his papers have significant citation counts—556 for Frontiers in Immunology, 284 for Journal of Cellular Physiology, and 207 for The Lancet Oncology, reflecting strong influence and relevance in the scientific community.

  3. International Recognition and Collaborations
    He has participated in international conferences (UK, China, Korea, Denmark, Spain, Italy) and collaborated with global institutions such as the University of Helsinki, University of Kiel, and GBD Collaborators, demonstrating a global research footprint.

  4. Innovation and Patents
    He has contributed to translational science through a published book on immunopharmacology and a pending patent for a microbiology loop sterilizer device, showing practical application of his research.

  5. Awards and Editorial Involvement
    Recognized with the International Travel Award (KAI 2022) and Top Researcher of FUMS (2021), and serving on editorial boards of scientific journals—further affirming his active role in academic development and peer review.

  6. Interdisciplinary Research Scope
    His research merges clinical immunology, oncology, AI-based prognostic tools, and cellular therapy, making his work not only innovative but also future-oriented.

⚠️ Areas for Improvement:

  1. Increase in First or Senior Author Publications
    While his contributions are numerous, strengthening his authorship role in key studies would amplify his recognition as a principal investigator.

  2. Patent Commercialization & Technology Transfer
    Moving from patent design to real-world implementation or licensing could significantly raise the translational value of his research.

  3. Higher Grant Involvement
    More participation in national/international grant-funded programs or consortiums would enhance the scale and visibility of his research.

  4. Focused Research Niche
    Narrowing focus slightly (e.g., prioritizing tumor immunology or exosome-based therapies) could help build a globally recognized brand in a specialized field.

🎓 Education:

Dr. Atashzar completed his undergraduate and master’s studies in Immunology at Shiraz University of Medical Sciences (SUMS), Shiraz, Iran. Building on his foundational expertise, he pursued his PhD in Immunology at Shahid Beheshti University of Medical Sciences, Tehran. His doctoral thesis—“Investigation of the Effects of B16F10 Derived Exosomes Enriched with miRNA-211 in Induction of Antitumor Response in the Mouse Model of Melanoma”—reflected his early interest in cancer immunotherapy and translational research. Throughout his academic journey, Dr. Atashzar displayed a strong inclination toward exploring novel immune pathways and cell-based therapies. His formal education has laid a robust foundation for his ongoing work in immunological sciences, particularly in relation to tumor microenvironment, cytokine profiling, exosomes, and vaccine innovation. He has also undertaken continuous learning through collaborations and international scientific conferences, allowing him to integrate cutting-edge methodologies into his research and teaching repertoire.

🧪 Professional Experience:

Dr. Mohammad Reza Atashzar currently serves as an Assistant Professor of Immunology at Fasa University of Medical Sciences, with additional teaching responsibilities at Larestan University of Medical Sciences. He has accumulated over a decade of experience in academic instruction and biomedical research. His research portfolio includes multiple funded projects, notably in cancer immunology, cytokine regulation, diabetes-related immune responses, and exosome-based therapeutics. Dr. Atashzar has worked closely with international teams in Germany, Finland, and the UK, facilitating interdisciplinary approaches and innovations in clinical immunology. He is an editorial board member for reputed journals such as The International Journal of Neuroscience and Journal of International Medical Research. In parallel, he actively contributes to conference presentations worldwide, covering topics from cancer stem cells to immune biomarkers. His hands-on laboratory experience, combined with a global research network, enables him to lead and mentor in advanced areas like CAR-T cell therapy and personalized immunotherapy.

🧬 Research Focus:

Dr. Atashzar’s research is centered on tumor immunology, exosome-based therapies, cancer stem cells, CAR-T cell technology, cytokine profiling, and immunopharmacology. He has a keen interest in how immune cells—particularly T cells, NK cells, and regulatory B cells—can be harnessed for cancer therapy. His notable projects have explored the immunomodulatory effects of miRNA-enriched exosomes, the role of TLR4 polymorphisms in diabetes, and cytokine alterations in addiction and radiation-exposed individuals. He is also pioneering in translational research areas such as vaccine design, radiogenomics, and bio-immune device development. Dr. Atashzar integrates bioinformatics and machine learning for predictive modeling, evident in his contributions to COVID-19 prognostic modeling using CT radiomics. His work is driven by the goal of personalized immunotherapy and the identification of novel biomarkers for cancer progression and immune regulation. Through interdisciplinary collaborations, he aims to bridge the gap between immunological research and clinical application.

📚 Publications Top Notes:

  1. 🧬 Cancer stem cells: A review from origin to therapeutic implicationsJournal of Cellular Physiology

  2. 🧪 Tumor‐Derived Exosomes Enriched by miRNA‐211a Promote Antitumor Immune Response in B16F10 Tumor‐Bearing MiceAPMIS

  3. 🔬 The effects of tumor-derived exosomes enriched with miRNA-211a on B16F10 cellsContemporary Oncology

  4. 💉 The effects of type 2 diabetes mellitus on organ metabolism and the immune systemFrontiers in Immunology

  5. 🧠 Pyrin and hematopoietic interferon-inducible nuclear protein domain proteins: innate immune sensors for cytosolic and nuclear DNACritical Reviews in Immunology

  6. 🧪 Reduced levels of T-helper 17-associated cytokines in serum of breast cancer patientsCentral European Journal of Immunology

  7. 🧫 The Role of IL‐6, IL‐10 and CRP in Gastrointestinal CancersCell Biology International

  8. 🌍 The global burden of adolescent and young adult cancer in 2019The Lancet Oncology

  9. 🖥️ COVID-19 prognostic modeling using CT radiomic features and ML algorithmsComputers in Biology and Medicine

  10. 🌡️ Mesenchymal stromal cells in bone marrow niche of multiple myelomaCancer Cell International

📌 Conclusion:

Dr. Mohammad Reza Atashzar is highly suitable for the Best Researcher Award. His body of work reflects a deep commitment to scientific advancement in cancer immunology, immunotherapy, and bio-innovation. He combines strong academic output with international engagement, cross-disciplinary impact, and teaching contributions. With growing influence in both research and translational domains, Dr. Atashzar is poised to further elevate biomedical research in Iran and globally.

Yanlan Wang | Cancer Cell Biology | Best Researcher Award

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Dr. Yanlan Wang | Cancer Cell Biology | Best Researcher Award

Dr. Yanlan Wang, Stanford, United States

Dr. Yanlan Wang is a distinguished postdoctoral research fellow at Stanford University’s Department of Pathology. She works in the esteemed Dr. Gerald Crabtree’s lab, where her research revolves around leveraging molecular glues to reprogram cancer drivers and trigger apoptosis. With a strong background in immuno-oncology, antibody engineering, and small molecule therapeutics, Dr. Wang has made significant contributions to targeted cancer therapies. Her interdisciplinary collaborations, notably with Dr. Nathanael Gray’s group, have explored the role of transcription factor complex-inducing compounds (TCIPs) in MLL-rearranged leukemia. Dr. Wang brings a rich international research experience from China and the U.S., with a career spanning translational medicine, biotechnology innovation, and academic excellence. She is known for her rigorous approach to scientific inquiry, collaborative spirit, and prolific publication record. Her passion for understanding and overcoming the mechanisms of cancer resistance positions her as a future leader in oncology drug development and precision medicine.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. Outstanding Research Focus
    Dr. Wang’s work on molecular glues and transcription factor modulators represents cutting-edge approaches in cancer therapy, especially in targeting previously undruggable pathways.

  2. High Impact Publications
    With multiple first-author and co-corresponding author papers (e.g., J Immunol Methods 2025, Leukemia & Lymphoma 2020, Clin Pharmacol Ther 2021), Dr. Wang has demonstrated a strong track record in both fundamental and translational cancer research.

  3. Innovation & Translational Impact
    Her efforts in bispecific antibody engineering, IL-15 therapeutics, and AKR1C3-targeted prodrugs show clear applications in oncology drug development, bridging the lab and clinic.

  4. Prestigious Collaborations
    Collaborating with renowned researchers such as Dr. Gerald Crabtree and Dr. Nathanael Gray at Stanford indicates high confidence and integration in world-class research circles.

  5. Recognition & Awards
    She has received the Coxe Fellowship at Stanford and multiple merit-based scholarships, highlighting academic excellence and innovation.

  6. Leadership and Multidisciplinary Skills
    Dr. Wang has led several projects, authored high-level papers, and mentored junior researchers, showcasing both technical and leadership capability.

🔄 Areas for Improvement:

  1. Greater International Presentation Exposure
    Although she has strong publication credentials, more visibility through international oral presentations, keynote addresses, or panel roles would amplify her leadership profile.

  2. Independent Grant Record
    While she is currently in a postdoctoral role, seeking independent funding (e.g., K99/R00, early-career PI grants) would position her more competitively for independent investigator status.

  3. Patent or Commercial Translation
    Given the translational nature of her work, pursuit of intellectual property filings or biotech partnerships would further highlight impact.

🎓 Education:

Dr. Yanlan Wang began her academic journey at Xiangya School of Medicine, Central South University, where she earned her MBBS (M.D. equivalent) in June 2012. She continued at The Second Xiangya Hospital for her clinical residency, completing her M.S. in June 2015. Her pursuit of scientific excellence led her to earn a doctorate (M.D. equivalent to PhD) from Sun Yat-sen University in June 2018, with a research focus on microbial immunology and tumor biology. This diverse educational background gave her a solid foundation in both clinical medicine and biomedical research, allowing her to bridge translational gaps in cancer research. Her early training emphasized immunotherapy, molecular biology, and oncology, all of which paved the way for her postdoctoral work in cutting-edge labs. Her education reflects a consistent upward trajectory, marked by prestigious institutions, interdisciplinary training, and a seamless integration of clinical and scientific disciplines.

🔬 Experience:

Dr. Yanlan Wang is currently a postdoctoral research fellow in Dr. Gerald Crabtree’s lab at Stanford University, where she focuses on manipulating cancer cell pathways using molecular glues. Her prior research in China included pivotal roles in biotechnology innovation, including bispecific antibody engineering, prodrug design, and immune-oncology drug development. She has also collaborated extensively with Dr. Nathanael Gray’s lab at Stanford, exploring the therapeutic potential of TCIPs in leukemia. Dr. Wang’s hands-on experience includes multiplex screening platforms, flow cytometry, in vivo tumor models, and translational immunotherapy development. Over the years, she has taken leadership roles in preclinical projects, manuscript authorship, and international scientific presentations. Her diverse roles—from clinical residency to laboratory innovation—reflect her capability to translate complex scientific findings into therapeutic strategies. Dr. Wang has also mentored junior researchers and worked across multiple disciplines, underscoring her adaptability, leadership potential, and deep commitment to cancer research.

🏅 Awards and Honors:

Dr. Yanlan Wang’s excellence has been recognized through several prestigious awards. At Stanford, she received the Coxe Fellowship in 2021, honoring outstanding postdoctoral researchers. During her doctoral training, she earned the Special Award of Merit for the BJ-001 Project at BJ Bioscience Inc. in 2019 for her impactful translational research. Her academic merit was consistently acknowledged through the Bidi Scholarship (2016–2017) and Daxiang Scholarship (2015–2016) at Sun Yat-sen University. These honors underscore her commitment to scientific excellence, innovation, and translational impact in oncology and immunotherapy. Her ability to receive awards across both academic and industrial settings highlights her versatility and the real-world relevance of her work. These distinctions serve as a testament to her leadership in cancer drug development, collaborative effectiveness, and contribution to next-generation therapeutic discoveries.

🔍 Research Focus:

Dr. Yanlan Wang’s research lies at the intersection of cancer biology, molecular pharmacology, and immunotherapy. At Stanford, she investigates how molecular glues can be used to hijack cancer drivers and activate apoptosis, offering a novel route for targeted cancer therapies. Her work involves multiplex molecular glue screening, understanding protein degradation pathways, and designing synthetic lethality strategies. In collaboration with Dr. Nathanael Gray, she is also studying Transcription factor Complex-Inducing Compounds (TCIPs) for the treatment of MLL-rearranged leukemia, a particularly aggressive form of blood cancer. Prior to this, her research focused on bispecific antibodies, prodrugs, and IL-15 based immunotherapeutics, with a vision to decouple efficacy from toxicity. Through a blend of basic science and translational applications, she aims to rewire oncogenic signaling pathways and enhance anti-tumor immunity. Her research combines drug discovery, systems biology, and precision oncology, pushing the boundaries of targeted cancer treatment.

📚 Publications Top Notes:

  1. 🔬 Quantitative flow cytometry using quantitative streptavidin-protein G-biotin beads (qBeads)J Immunol Methods, 2025

  2. 🧬 A Bivalent Molecular Glue Linking Lysine Acetyltransferases to Oncogene-directed Cell DeathCell (revising)

  3. 💉 Enhance IL15 anti-tumor efficacy by inhibiting its negative feedback mechanism(in preparation)

  4. ⚛️ Decouple the toxicity and efficacy of BJ-001, an integrin targeting IL-15AACR Abstract, 2019

  5. 🔄 Decoupling the toxicity and efficacy of immunotherapeuticsSITC Abstract, 2019

  6. 🧪 An AKR1C3-specific prodrug with potent anti-tumor activities against T-ALLLeukemia & Lymphoma, 2020

  7. 🧫 A novel AKR1C3 specific prodrug TH3424 with potent anti-tumor activity in liver cancerClin Pharmacol Ther, 2021

  8. 🧲 A GPC3-targeting Bispecific Antibody, GPC3-S-Fab, with Potent CytotoxicityJ Vis Exp, 2018

  9. 🧠 Identification of anti-CD16a single domain antibodies and their application in bispecific antibodiesCancer Biol Ther, 2020

  10. 🧿 Bp-Bs, a novel T-cell engaging bispecific antibody with biparatopic Her2 bindingMol Ther Oncolytics, 2019

  11. 🧰 A novel multi-functional anti-CEA-IL15 molecule displays potent anti-tumor activitiesDrug Des Devel Ther, 2018

  12. 🧠 A single domain based anti-Her2 antibody has potent anti-tumor activitiesTransl Oncol, 2018

🧾 Conclusion:

Dr. Yanlan Wang is highly deserving of the Best Researcher Award. Her contributions to cancer therapeutics through novel molecular approaches, her collaborations with globally renowned labs, and her publication record reflect a researcher of exceptional caliber and promise. With a deep understanding of tumor biology, a commitment to innovation, and a growing leadership presence in oncology research, she is not only suitable for the award but stands as a strong role model for future biomedical researchers.

Chenlong YANG | Cancer Cell Biology | Best Researcher Award

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Prof. Chenlong YANG | Cancer Cell Biology | Best Researcher Award

Prof. Chenlong YANG, Peking University Third Hospital, China

Dr. Chenlong Yang, M.D., Ph.D., is an accomplished neurosurgeon and research associate professor at the Department of Neurosurgery, Peking University Third Hospital. With over 15 years of clinical and research experience, he specializes in neuro-oncology, spinal neurosurgery, and translational neuroscience. Dr. Yang earned his M.D. from Shandong University and his Ph.D. in Neurological Surgery from Capital Medical University. He has trained and worked in prestigious institutions including Beijing Tiantan Hospital and the State Key Laboratory of Vascular Homeostasis and Remodeling. He has contributed significantly to advancements in brain tumor diagnostics, neuroimmunology, and surgical innovations, with numerous high-impact publications. Recognized internationally, he frequently presents at top neurosurgical conferences such as EANS and the Japan-China Neurosurgery Alliance. His research bridges basic science and clinical neurosurgery, aiming to improve surgical precision and therapeutic outcomes. Dr. Yang is also known for his leadership in collaborative, multidisciplinary research teams.

Publication Profile: 

Google Scholar

✅ Strengths for the Award:

  1. 📚 Robust Academic and Clinical Training

    • Earned an M.D. from Shandong University and a Ph.D. in Neurological Surgery from Capital Medical University.

    • Completed clinical training at Beijing Tiantan Hospital, a top-tier neurosurgical institution in China.

  2. 🔬 Multidisciplinary and Translational Research Excellence

    • His research spans neuro-oncology, neuroimmunology, spinal neurosurgery, and advanced neuroimaging.

    • Conducted preclinical work on Alzheimer’s disease models and neuroprotection, along with current research in immune checkpoint therapy and intraoperative imaging.

  3. 📈 High-Impact Publications

    • Over 20 peer-reviewed publications in journals such as Scientific Reports, J Exp Clin Cancer Res, Neurosurgical Review, and Biophysical Journal.

    • His research on chordomas, gliomas, and spinal tumors has significantly contributed to the field.

  4. 🌍 International Recognition

    • Speaker at major international conferences like EANS 2025 and KSNS 2024.

    • Previously awarded a scholarship by the Turkish Neurosurgical Society.

  5. 🤝 Leadership in Collaboration

    • Plays a key role at the Center for Precision Neurosurgery and Oncology and the State Key Laboratory of Vascular Homeostasis and Remodeling, fostering interdisciplinary collaborations across neurosurgery, imaging, and immunotherapy.

  6. 🎯 Focus on Precision and Innovation

    • Pioneering high-resolution MRI techniques, fluorescent intraoperative navigation, and predictive modeling for neurosurgical outcomes.

🔄 Areas for Improvement:

  1. 📊 Independent Research Lead

    • While he has several corresponding author papers, increasing his share of first-author or sole-PI grants would further elevate his research identity.

  2. 🌐 Global Collaborations

    • Though he has spoken at international conferences, expanding collaborative projects with leading global neuroscience centers could amplify impact.

  3. 💡 Technology Commercialization

    • Given his innovation in imaging and diagnostics, pursuing intellectual property rights or translational funding (e.g., for clinical tools or surgical systems) could be a valuable next step.

  4. 📄 Diversification of Research Outputs

    • A few review articles and meta-analyses would strengthen his role as a thought leader and field synthesizer.

📘 Education:

Dr. Yang pursued his foundational medical education at Shandong University, earning an M.D. in Clinical Medicine (2006–2011). This training provided a solid clinical base and early exposure to neurology and internal medicine. He then advanced to a doctoral program at Capital Medical University, Beijing (2011–2017), earning his Ph.D. in Neurological Surgery. During his Ph.D., he received specialized training in neurosurgical techniques and engaged in cutting-edge research, particularly focusing on neuro-oncology and degenerative neural diseases. As part of his early research career, he also worked at the Institute of Neurobiology, Shandong University, investigating neuroprotective agents and Alzheimer’s disease models. Dr. Yang’s academic journey is characterized by rigorous clinical training and scientific inquiry, equipping him with the knowledge and skills essential for bridging the gap between the lab bench and the operating room. His education laid a strong foundation for his future contributions to precision neurosurgery and translational neuroscience.

💼 Experience:

Dr. Yang has over a decade of diversified experience across top medical and research institutions. He currently serves as a Research Associate Professor and Attending Physician at the Department of Neurosurgery, Peking University Third Hospital (2020–present), where he leads several clinical and translational research projects. Prior to this, he completed a postdoctoral fellowship (2017–2020) in the Department of Orthopedics at the same hospital, emphasizing spinal and neuro-oncologic conditions. From 2011 to 2017, he worked as a resident in Neurosurgery at Beijing Tiantan Hospital, one of China’s premier neurosurgical centers, gaining extensive experience in surgical treatments and neurovascular procedures. His roles span clinical surgery, research coordination, and academic instruction. Additionally, he actively contributes to the Center for Precision Neurosurgery and Oncology and the State Key Laboratory of Vascular Homeostasis and Remodeling, leading initiatives to improve patient outcomes through interdisciplinary innovations in neurosurgical care.

🧠 Research Focus:

Dr. Chenlong Yang’s research integrates neurosurgery, oncology, immunology, and biomedical engineering. His primary focus lies in neuro-oncology, with a strong emphasis on chordoma biology, glioma immunotherapy, and molecular diagnostics. He explores immune checkpoint therapies, tumor microenvironment modulation, and the development of predictive models for neurosurgical complications such as postoperative delirium. Dr. Yang is also deeply involved in technological innovation in neurosurgery, investigating intraoperative fluorescence imaging, high-resolution MRI, and minimally invasive spinal techniques. His work on spatial learning, Alzheimer’s models, and neuroprotection during his early career continues to inform his translational research. He collaborates across disciplines, from molecular biologists to radiologists, aiming to build precision-guided therapeutic frameworks. His research is extensively published in journals like Scientific Reports, J Exp Clin Cancer Res, and Frontiers in Neurology. Through this work, Dr. Yang seeks to advance the standard of care in neurosurgical oncology and promote patient-specific interventions.

📚 Publication Top Notes:

  1. 🧬 SMARCB1 orchestrates cellular plasticity and oncogenic pathways in typical and chondroid chordomas

  2. 🛡️ Cracking Chordoma’s Conundrum: Immune Checkpoints Provide a Potential Modality

  3. 🌱 From glioma gloom to immune bloom: unveiling novel immunotherapeutic paradigms – a review

  4. 💡 Intraoperative fluorescence redefining neurosurgical precision

  5. 🧠 The evolution and integration of technology in spinal neurosurgery: A scoping review

  6. 👁️ Single-cell transcriptomic atlas of aging macaque ocular outflow tissues

  7. 🧮 Risk stratification and predictive modeling of postoperative delirium in chronic subdural hematoma

  8. 📶 Characteristic fingerprint spectrum of α-synuclein mutants on terahertz time-domain spectroscopy

  9. 🐒 Normative profile of retinal nerve fiber layer thickness in cynomolgus monkeys

  10. 🌀 Accurate diagnosis and treatment of sacral meningeal cysts using high-resolution MRI

  11. 🧪 Intraspinal hemangioblastomas: analysis of 92 cases in a single institution

🏁 Conclusion:

Dr. Chenlong Yang exemplifies the ideal profile of a cutting-edge clinician-scientist, merging neurosurgical precision with immunological insight and technological innovation. His commitment to patient-centered research, consistent academic output, and recognition on international platforms underscores his eligibility for the Best Researcher Award. With continued growth in independent leadership and global research impact, Dr. Yang is not only a deserving candidate now but is poised to become a prominent global figure in neurosurgical research in the years to come.

Fani Pantouli | Immunology Cellular Interactions | Best Researcher Award

Published on by Cell Biologist

Dr. Fani Pantouli | Immunology Cellular Interactions | Best Researcher Award

Dr. Fani Pantouli, Cleveland Clinic Florida Research and Innovation Center, United States

Dr. Fani Pantouli is a passionate and results-driven research scientist with deep expertise in neuroscience, pharmacology, immunology, and oncology. A USA permanent resident, she currently serves as a Postdoctoral Fellow at the Cleveland Clinic Florida Research and Innovation Center. Her work bridges cutting-edge vaccine development and cancer therapeutics, contributing significantly to preclinical and translational research. Dr. Pantouli’s scientific approach blends in vivo and in vitro techniques to uncover therapeutic pathways, particularly in head and neck cancer and viral immunology. Her interdisciplinary knowledge is reflected in a growing portfolio of peer-reviewed publications addressing pressing biomedical challenges, from COVID-19 immunity to neuropsychiatric disorders. She is known for her innovative methodologies, collaborative mindset, and unwavering dedication to advancing human health. Dr. Pantouli’s work is making a meaningful impact on personalized medicine and translational therapeutics, positioning her as a rising leader in biomedical research.

Publication Profile: 

Orcid

✅ Strengths for the Award:

  1. Multidisciplinary Expertise
    Dr. Pantouli integrates neuroscience, immunology, pharmacology, and oncology into her research, making her contributions uniquely cross-disciplinary and impactful.

  2. High-Impact Research in Vaccine Development
    Her postdoctoral work on COVID-19 and respiratory viruses, particularly her development of T-cell profiling and viral neutralization assays, directly informs global efforts in personalized vaccine design.

  3. Innovative Cancer Models
    She developed a novel in vivo murine model for head and neck squamous cell carcinoma, advancing drug screening for p53-related targets. This is vital in understanding and treating cancers with p53 mutations.

  4. Robust Publication Record
    Dr. Pantouli has authored or co-authored multiple peer-reviewed articles in reputable journals (e.g., Vaccines, Neuropsychopharmacology), with several under review in top-tier outlets like Science and Journal of Biological Psychiatry.

  5. Focus on Health Equity
    Her research into ethnic differences in immune response underscores a strong commitment to inclusive and equitable healthcare.

  6. Experience in Preclinical & Translational Research
    Her hands-on experience building disease models and testing therapeutic strategies bridges basic science and clinical application—core to translational medicine.

⚠️ Areas for Improvement:

  1. Independent Research Leadership
    While she has made significant contributions as a postdoctoral fellow, moving toward independent investigator roles (e.g., PI on grants) would strengthen her candidacy.

  2. Visibility and Recognition
    Increased presence in international symposia, keynote talks, or award recognitions would help boost her visibility within the scientific community.

  3. Mentorship and Community Involvement
    Involvement in mentoring junior researchers or leading educational outreach initiatives could further showcase her leadership potential.

🎓 Education:

Dr. Pantouli holds a Ph.D. in Neuropharmacology from the University of Surrey and St. George’s University of London, awarded between 2014 and 2017. Her doctoral studies explored neural mechanisms underpinning pharmacological and behavioral outcomes, laying a solid foundation for her current work in translational medicine. Prior to her Ph.D., she completed an MSc in Molecular Neuroscience from the University of Bristol in 2011, where she specialized in neurodevelopmental and degenerative disorders. Her undergraduate studies were completed at the University of Bedfordshire in 2010, where she earned a BSc (Hons) in Biomedical Science. Dr. Pantouli’s academic trajectory reflects a commitment to interdisciplinary learning and a focus on brain and immune system interactions. Her education combines rigorous training in molecular biology, pharmacology, and neuroscience, empowering her to address complex biomedical questions with a systems-level perspective.

🧪 Experience:

Dr. Pantouli is currently a Postdoctoral Fellow in Vaccine Development Research at the Cleveland Clinic Florida Research and Innovation Center (June 2023 – Present), where she investigates T cell immune responses and develops viral neutralization assays for respiratory viruses including SARS-CoV-2. Previously, she was a Postdoctoral Fellow in the Cancer Research Lab at the same institute (January 2022 – June 2023), where she created innovative murine models of head and neck cancer to evaluate therapeutic efficacy targeting mutant p53. Her research integrates advanced in vivo systems and immune profiling to enhance drug discovery and vaccine evaluation. With a decade-long track record across academia and clinical research centers, Dr. Pantouli has developed robust platforms for translational research, immunotherapeutics, and precision medicine. Her skills span experimental design, animal modeling, immunoassays, and bioanalysis, equipping her to tackle critical gaps in infectious disease and oncology treatment strategies.

🔬 Research Focus:

Dr. Pantouli’s research is centered on translational medicine, focusing on vaccine development, immunotherapy, and molecular pharmacology. Her current projects address immune modulation in viral infections, especially COVID-19, and the development of preclinical assays for vaccine and drug evaluation. She also leads research in oncology, particularly targeting p53 mutations in head and neck squamous cell carcinoma using in vivo models. Her earlier academic work examined the neural and behavioral effects of neuropeptides and receptor modulators in models of autism and Fragile X Syndrome, showing a consistent interest in neuroimmune interactions. She employs a multidisciplinary approach—blending pharmacological, molecular, and immunological tools—to explore how targeted therapies can be optimized for diverse populations. Her work is vital for advancing personalized medicine, especially for aging populations and ethnically diverse cohorts, where vaccine efficacy and immune response can differ significantly.

📚 Publications Top Notes:

  • 🧫 Ethnic differences in COVID-19 T cell immunity responses across variants from Wuhan to OmicronAccepted in Vaccines

  • 🧠 Evaluation of SR-17018 and oxycodone in the conditioned place preference paradigm using peanut butter chip vehicleIn preparation, Neuropharmacology

  • 🧬 Generation of antigen-specific paired heavy-light chain antibody sequences using large language modelsSubmitted to Science

  • 💉 COVID-19 Vaccination Enhances the Immunogenicity of Seasonal Influenza Vaccination in the ElderlyVaccines (2025)

  • 🧩 Tilted striatofugal balance and mGluR4 modulation in the Fmr1 mouse model of Fragile X SyndromeUnder review, Journal of Biological Psychiatry

  • 👃 Acute, chronic and conditioned effects of intranasal oxytocin in mu opioid receptor knockout mice: social context mattersNeuropsychopharmacology (2024)

🧾 Conclusion:

Dr. Fani Pantouli is a highly promising and impactful scientist whose research spans some of the most critical health challenges of our time—infectious diseases, cancer, and neurodevelopmental disorders. Her technical expertise, innovative model development, and deep understanding of immune and neural systems make her an excellent nominee for the Best Researcher Award.