Philipp Stenzel | Uropathology | Best Researcher Award

Dr. Philipp Stenzel | Uropathology | Best  Researcher Award

 Facharzt Fur Pathologie at Institut für Pathologie, Uniklinik Mainz/Frankfurt, Germany

Dr. Philipp Stenzel is a Consultant Pathologist at the Institute of Pathology, University Hospital Frankfurt. With a strong background in medical research and diagnostics, he specializes in uropathology and biomarker identification for renal cell carcinoma (RCC) and penile carcinoma. His research focuses on tumor microenvironments, immunotherapy, and predictive biomarkers. Over the years, he has contributed five first-author publications and developed an in-vitro tissue slice culture model to predict individual patient responses to immunotherapy. As a member of the German Society of Pathology and the International Academy of Pathology, Dr. Stenzel actively participates in advancing cancer pathology. His dedication to oncological research and precision medicine has established him as a rising expert in pathology.

Professional Profiles📖

Education 🎓📚

Dr. Stenzel pursued his medical degree at Charité University Hospital, Berlin, where his thesis explored transcription factors involved in monocyte inflammatory reactions. He later advanced his training in pathology at the University Medical Center Mainz, shifting his research focus to clear cell renal cell carcinoma (ccRCC). His academic journey has been marked by a deep commitment to understanding cancer pathology and identifying prognostic biomarkers. His education equipped him with expertise in tumor biology, histopathology, and translational research. His studies laid a solid foundation for his current research on renal cell tumors and predictive biomarkers, positioning him as a key contributor in oncopathology.

Experience 🏥🔍

Dr. Stenzel has accumulated years of experience in pathology research and diagnostics. As a Consultant at the Dr. Senckenberg Institute of Pathology, he specializes in renal and penile carcinoma pathology, focusing on biomarker discovery. He has completed five research projects as a first author and is actively involved in three ongoing studies. His contributions to tumor microenvironment research have provided valuable insights into cancer progression and immunotherapy response. His expertise includes histopathological evaluation, molecular pathology, and translational oncology. In addition, he plays a key role in teaching and mentoring medical researchers, further strengthening the next generation of pathologists and oncologists.

Awards & Honors 🏆🎖️

  • Best Research Paper Award – Recognized for outstanding contributions to renal cell carcinoma biomarker research.

  • German Society of Pathology Recognition – Acknowledged for his involvement in uropathology advancements.

  • International Academy of Pathology Membership – A prestigious recognition for his scientific contributions in pathology.

  • Young Investigator Award Nominee – For his innovative research in tumor microenvironments and predictive biomarkers.

  • Research Excellence Certificate – Honored for his significant work in prognostic factors in ccRCC and penile carcinoma.

Research Focus 🔬🧪

Dr. Stenzel’s research is centered on cancer pathology, with a focus on:

  • Renal cell carcinoma (RCC) 🩸 – Investigating predictive biomarkers for disease progression and treatment response.

  • Tumor microenvironment 🌱 – Studying immune cell interactions and their impact on cancer survival rates.

  • Immunotherapy advancements 💉 – Developing methods to predict patient responses to checkpoint inhibitors.

  • Penile carcinoma 🔍 – Identifying tumor-infiltrating plasma cells as prognostic factors.

  • In-vitro tissue slice culture model 🧬 – A novel technique to test personalized treatment responses in RCC patients.

Skills 🛠️📊

Dr. Philipp Stenzel possesses a diverse skill set in oncology research and pathology, making significant contributions to cancer diagnostics and biomarker identification. His expertise in histopathology and diagnostic pathology allows him to conduct detailed cancer tissue analysis, aiding in precise disease characterization. With a strong foundation in molecular pathology, he has a deep understanding of the genomic and immunological mechanisms of cancer progression. His work in biomarker identification has led to important prognostic and predictive discoveries, particularly in renal and penile carcinoma pathology. Additionally, Dr. Stenzel has developed an innovative in-vitro tissue slice culture model, a groundbreaking technique that enhances personalized treatment research. He is highly skilled i data analysis and biostatistics, utilizing these tools to interpret complex research findings. His ability to write and publish high-impact scientific papers showcases his strength in academic research and dissemination. Furthermore, he is actively engaged in teaching and mentorship, guiding young researchers and pathology students to excel in the field.

Publications Top Notes📚

 

1️⃣ Publication: RCC-Ma loss predicts poor survival and metastatic risk in clear cell renal cell carcinoma
📅 Year: 2025
📑 Citations: N/A (New Publication)

2️⃣ Publication: Tumor-infiltrating plasma cells are a prognostic factor in penile squamous cell carcinoma
📅 Year: 2025
📑 Citations: N/A (New Publication)

3️⃣ Publication: N-cadherin: A diagnostic marker to help discriminate primary liver carcinomas from extrahepatic carcinomas
📅 Year: 2024
📑 Citations: N/A (Recent Publication)

4️⃣ Publication: CD15 Is a Risk Predictor and a Novel Target in Clear Cell Renal Cell Carcinoma
📅 Year: 2023
📑 Citations: N/A (Recent Publication)

5️⃣ Publication: Value of c-MET and Associated Signaling Elements for Predicting Outcomes and Targeted Therapy in Penile Cancer
📅 Year: 2022
📑 Citations: ~15

6️⃣ Publication: Multimodal Deep Learning for Prognosis Prediction in Renal Cancer
📅 Year: 2021
📑 Citations: ~20

7️⃣ Publication: Nivolumab Reduces PD1 Expression and Alters Density and Proliferation of Tumor Infiltrating Immune Cells in a Tissue Slice Culture Model of Renal Cell Carcinoma
📅 Year: 2021
📑 Citations: ~18

8️⃣ Publication: Assessment of PI3K/mTOR/AKT Pathway Elements to Serve as Biomarkers and Therapeutic Targets in Penile Cancer
📅 Year: 2021
📑 Citations: ~25

9️⃣ Publication: Promyelocytic leukemia protein promotes the phenotypic switch of smooth muscle cells in atherosclerotic plaques of human coronary arteries
📅 Year: 2021
📑 Citations: ~10

🔟 Publication: Deep Learning Predicts Molecular Subtype of Muscle-invasive Bladder Cancer from Conventional Histopathological Slides
📅 Year: 2020
📑 Citations: ~30

1️⃣1️⃣ Publication: In Vitro Characterization of a Novel Type of Radiopaque Doxorubicin-Loaded Microsphere
📅 Year: 2020
📑 Citations: ~10

1️⃣2️⃣ Publication: Prognostic and Predictive Value of Tumor-infiltrating Leukocytes and of Immune Checkpoint Molecules PD1 and PDL1 in Clear Cell Renal Cell Carcinoma
📅 Year: 2019
📑 Citations: ~40

1️⃣3️⃣ Publication: Lamin-B1 is a senescence-associated biomarker in clear-cell renal cell carcinoma
📅 Year: 2019
📑 Citations: ~35

1️⃣4️⃣ Publication: ZNF580 – a brake on Interleukin-6
📅 Year: 2018
📑 Citations: ~22

1️⃣5️⃣ Publication: Prognostic relevance of androgen receptor expression in renal cell carcinomas
📅 Year: 2017
📑 Citations: ~50

1️⃣6️⃣ Publication: Cyclin K dependent regulation of Aurora B affects apoptosis and proliferation by induction of mitotic catastrophe in prostate cancer
📅 Year: 2017
📑 Citations: ~45

Charles Sprouse III | Integral Ecology | Best Faculty Award

Assoc. Prof. Dr. Charles Sprouse III | Integral Ecology | Best Faculty Award

Doctor at Benedictine College, United States

Dr. Charles Edward Sprouse III is an accomplished academician and researcher specializing in mechanical engineering and physics. With expertise in sustainability, life cycle assessment, and integral ecology, he has significantly contributed to environmental stewardship and emissions reduction technologies. His research in low-temperature power cycles and organic Rankine cycles has gained widespread recognition, influencing academia and industry. As a dedicated educator, Dr. Sprouse has mentored 21 student research projects, some of which have won prestigious awards. His professional affiliations include ASME, ASEE, and SAE, reflecting his deep engagement with the engineering community. With 21 peer-reviewed journal publications and 46 completed research projects, he continues to advance engineering solutions for energy efficiency and environmental impact reduction. Dr. Sprouse’s commitment to integrating technology with sustainability principles makes him a leading figure in mechanical and environmental engineering research.

Professional Profiles📖

Education  🎓

Dr. Sprouse holds advanced degrees in Physics and Mechanical Engineering, equipping him with a strong interdisciplinary foundation for addressing complex engineering challenges. His academic journey includes rigorous training in thermodynamics, fluid mechanics, and sustainable energy systems. Throughout his studies, he developed expertise in waste heat recovery, emissions control, and renewable energy technologies. His research explored environmental impacts in energy applications, leading to groundbreaking innovations in organic Rankine cycles. Dr. Sprouse actively participated in academic societies, earning memberships in Pi Tau Sigma (ΠΤΣ) and Tau Beta Pi (ΤΒΠ), prestigious engineering honor societies. His education has laid the foundation for his impactful career in both academia and industry, blending theoretical knowledge with practical applications. His commitment to lifelong learning is reflected in his continuous contributions to engineering research, education, and sustainability initiatives.

Experience 🏢

With a diverse and impactful career, Dr. Sprouse has made significant contributions as a researcher, educator, and consultant. At Benedictine College, he has taught 21 engineering courses, covering fundamental and advanced topics in mechanical engineering. His mentorship of 21 student research projects has led to award-winning work in sustainability and environmental stewardship.

Dr. Sprouse’s research has focused on waste heat recovery, emissions abatement, and energy-efficient power cycles, leading to 21 journal publications and over 46 research projects. His consultancy experience spans life cycle assessment, sustainability planning, and thermofluidic system monitoring. Industry collaborations have allowed him to bridge academic research with real-world applications, particularly in solar energy, geothermal energy, and automotive emissions reduction.

His commitment to engineering education and research innovation has earned him recognition in professional societies like ASME, ASEE, and SAE. Through his experience, he continues to drive advancements in energy efficiency and environmental responsibility.

Awards & Honors 🏆

Dr. Sprouse’s excellence in research, teaching, and environmental innovation has been recognized through multiple awards and honors. He has guided two student projects that won the Dr. Wangari Maathai Discovery Awards for outstanding contributions to sustainability, environmental justice, and women’s equality.

His co-authored research on waste heat recovery using organic Rankine cycles was the most downloaded article in mechanical engineering in 2013, among approximately 20,000 eligible works. This recognition highlights the significance of his contributions to energy efficiency and emissions control.

Dr. Sprouse’s professional impact is further acknowledged through memberships in Pi Tau Sigma (ΠΤΣ), Tau Beta Pi (ΤΒΠ), ASME, ASEE, and SAE, reflecting his influence in mechanical engineering and academia. His work continues to shape sustainability-focused engineering practices, bridging research with industry innovation.

Skills💡

Dr. Sprouse possesses a diverse skill set that seamlessly integrates engineering expertise, sustainability analysis, and academic mentorship. His technical proficiency spans thermodynamics and heat transfer, with a specialization in waste heat recovery and low-temperature power cycles. He is well-versed in life cycle assessment (LCA), allowing him to evaluate the environmental impact of energy and industrial systems. His expertise in computational modeling and simulation enables him to conduct in-depth energy efficiency analyses, while his knowledge of renewable energy systems encompasses solar, geothermal, and alternative energy applications. Additionally, he is highly skilled in sustainability planning, providing consultancy on eco-friendly designs and emissions reduction strategies. Beyond his technical acumen, Dr. Sprouse excels in academic and research-oriented skills, including technical writing and publishing, with 21 peer-reviewed journal articles to his credit. He is also a dedicated mentor and educator, guiding students in research projects and engineering concepts. His industry collaborations further highlight his ability to bridge academic research with real-world applications, driving engineering solutions for a more sustainable future.

Research Focus🔬

Dr. Sprouse’s research is centered on sustainability, waste heat recovery, and energy-efficient power cycles. His expertise in low-temperature power cycles, particularly organic Rankine cycles (ORCs), has led to significant advancements in thermal pollution reduction and natural refrigerant applications.

His work in environmental impact assessment integrates life cycle analysis (LCA) to ensure long-term sustainability in renewable energy systems, deep geothermal energy, and MW-scale solar arrays. He also explores integral ecology and emissions abatement, developing technologies to minimize the environmental footprint of energy production.

A key focus of his research is automotive and industrial emissions reduction, where he has introduced an aftertreatment device that filters particulate matter while recovering heat for supplementary power generation. His findings have been widely cited and have influenced an increase in commercial ORC technology applications.

Dr. Sprouse remains committed to bridging engineering innovations with environmental responsibility, driving research that contributes to clean energy solutions.

Conclusion✅

Publications Top Notes📚

“Integral Ecology Approach to Life Cycle Assessment of Solar Arrays”

Journal: Solar Compass

Publication Date: March 2025

DOI: 10.1016/j.solcom.2024.100104

Citations: As of April 2, 2025, specific citation metrics are not available.

“Review of Organic Rankine Cycles for Internal Combustion Engine Waste Heat Recovery: Latest Decade in Review”

Journal: Sustainability

Publication Date: February 26, 2024

DOI: 10.3390/su16051924

Citations: As of April 2, 2025, specific citation metrics are not available.

“A Critical Survey of Environmental Content in United States Undergraduate Mechanical Engineering Curricula”

Journal: Sustainability

Publication Date: June 21, 2021

DOI: 10.3390/su13126961​​

Citations: As of April 2, 2025, specific citation metrics are not available.

“Advancing Pervious Pavements through Nomenclature, Standards, and Holistic Green Design”

Journal: Sustainability

Publication Date: September 2020

DOI: 10.3390/su12187422

Citations: As of April 2, 2025, specific citation metrics are not available.

Ahmet Canan | Optimization | Best Researcher Award

Dr. Ahmet Canan | Optimization | Best Researcher Award

Academician at Karabuk University, Turkey

Asst. Prof. Dr. Ahmet CANAN is a distinguished academic and researcher in Energy Systems Engineering, specializing in renewable energy technologies. He has dedicated his career to advancing sustainable energy solutions, with expertise in wind, solar, and biomass energy systems. Currently serving at Karabük University, he has made significant contributions to the field through research, mentoring, and industry collaborations. His work focuses on optimizing energy efficiency and developing alternative fuels for cleaner energy production. With multiple high-impact publications and involvement in various research projects, Dr. CANAN continues to shape the future of sustainable energy. His commitment to academic excellence and applied research has earned him recognition in both academia and the industry.

Professional Profiles📖

ORCID

Education 🎓

Dr. Ahmet CANAN pursued his academic journey in engineering, earning his undergraduate degree in Mechanical Engineering from Karadeniz Technical University (2007-2012). He then completed his postgraduate studies at Karabük University in Energy Systems Engineering (2014-2017). His doctoral research at the same institution (2017-2021) focused on optimizing energy conversion systems, leading to innovative solutions in biofuels and alternative energy sources. With a strong academic foundation in renewable energy, thermodynamics, and engineering applications, his education has laid the groundwork for his research contributions. His interdisciplinary approach integrates engineering principles with environmental sustainability, positioning him as a key figure in the energy research domain.

Skills💡

Dr. CANAN possesses a diverse skill set in energy systems engineering, computational modeling, and experimental research. He has expertise in simulation software, renewable energy integration, and optimization techniques. His proficiency in data analysis, project management, and industrial collaborations enables him to deliver impactful research. He is also skilled in academic writing, grant writing, and mentorship. His ability to bridge theoretical concepts with practical applications makes him a valuable asset in energy research and development.

Research Focus 🔬

Dr. CANAN’s research primarily revolves around renewable energy systems, focusing on biodiesel production, anaerobic digestion, and energy efficiency optimization. His studies on wind and solar energy potential aim to enhance clean energy adoption. His work also explores the integration of waste materials into biofuel production, contributing to sustainable development. By leveraging computational models and experimental validation, he provides innovative solutions for reducing carbon emissions. His interdisciplinary approach combines mechanical engineering principles with environmental science, addressing real-world energy challenges. His research is geared toward advancing energy sustainability through technological innovations.

Publications Top Notes📚

Enrichment of 3rd Generation Biodiesel/Diesel Blends with Optimum Boron Oxide for Cleaner Diesel Emissions by Multi-Objective Optimization Using RSM 🛢️

Environmental Research (2025)

Citations: Not available yet

Study the Characteristics of Kinetic Model of Drying Freeze-Dried Rosehip (Rosa Canina) 🌿

J. Int. Environmental Application & Science (2021)

Citations: Not available

Investigation of the Effects of Blast Furnace Slag Ratio, Total Solid, and pH on Anaerobic Digestion: Modeling and Optimization by Using Response Surface Methodology 🔬

Biomass Conversion and Biorefinery (2021)

Citations: Available via Crossref

Investigation of the Effects of Different Slags as Accelerant on Anaerobic Digestion and Methane Yield ♻️

Biomass Conversion and Biorefinery (2021)

Citations: Available via Crossref

Glory Adebayo | Parasitology | Best Researcher Award

Ms. Glory Adebayo | Parasitology | Best Researcher Award

Research Associate at Nigerian Institute of Medical Research, Nigeria

Glory Pipeloluwa Adebayo is a dedicated biomedical researcher specializing in molecular biology, bioinformatics, and malaria drug discovery. She is currently a Research Fellow at the Nigerian Institute of Medical Research (NIMR), where she leads studies on Plasmodium falciparum resistance and antimalarial therapeutics. With extensive expertise in molecular diagnostics, immunology, and in vitro drug assays, she has contributed significantly to infectious disease research. Her work has resulted in multiple high-impact publications, and she has trained several young scientists in laboratory techniques. She has also participated in international research collaborations, including training at the Swiss Tropical and Public Health Institute. Her contributions to malaria research extend to both computational and laboratory-based studies, making her a prominent figure in the field. She aspires to develop innovative treatment strategies for infectious diseases through interdisciplinary research and technological advancements.

Professional Profiles📖

Scopus

Education 🎓

Glory is a dedicated researcher with a strong academic background in biological sciences. She earned her B.Sc. (Hons) in Biochemistry from the University of Lagos, Nigeria, with a commendable GPA of 4.08/5.00. She then pursued an M.Sc. in Cell Biology and Genetics at the same institution, graduating with a stellar GPA of 4.29/5.00. Currently, she is completing her Ph.D. in Biology at Covenant University, where her research is centered on antimalarial drug discovery. Her work integrates both computational and laboratory-based approaches to experimental drug development, positioning her at the forefront of innovative biomedical research. Beyond her academic achievements, Glory has gained valuable hands-on experience, including her service at the Abia State Hospital and Diagnostic Centre during her National Youth Service Corps (NYSC) year. She has honed her expertise in molecular techniques, bioinformatics, and pharmaceutical research, contributing to international collaborations, conference presentations, and high-impact scientific publications. With a passion for advancing global health through cutting-edge research, she remains committed to making significant contributions to drug discovery and disease treatment.

Awards and Honors 🏆

Glory’s dedication to research, international collaboration, and academic excellence in biomedical sciences is evident through her numerous prestigious awards and fellowships. In 2024, she was awarded a Research Fellowship at the Nigerian Institute of Medical Research (NIMR), recognizing her contributions to malaria therapeutic efficacy studies and molecular diagnostics. Her commitment to global health research was further acknowledged in 2022 when she received the Swiss TPH Training Fellowship at the Swiss Tropical and Public Health Institute, where she honed her expertise in Plasmodium falciparum drug assays and mammalian cell culture techniques. Earlier in her career, Glory was recognized as the Best Graduate Research Intern at NIMR in 2019 for her outstanding work in molecular diagnosis and Plasmodium resistance studies. Her academic excellence was also celebrated at the University of Lagos, where she received the Academic Excellence Award in 2016. These accolades highlight her passion for scientific discovery, her ability to excel in competitive research environments, and her ongoing contributions to biomedical science and infectious disease research.

Work Experience💼

Glory’s research experience spans academia, public health institutions, and international research centers, showcasing her interdisciplinary expertise in infectious disease research. Currently serving as a Research Fellow at the Nigerian Institute of Medical Research (NIMR), she leads malaria therapeutic efficacy studies, molecular diagnostics, and ELISA-based immunological assessments. Prior to this, she worked as a Research Assistant at Covenant University’s Bioinformatics Research Unit, where she conducted Plasmodium and mammalian cell cultures, toxicity assays, and molecular docking analyses. Her commitment to advancing malaria research led her to the Swiss Tropical & Public Health Institute in 2022, where she received specialized training in Plasmodium falciparum drug assays and mammalian cell culture techniques. She also gained hands-on experience as a Graduate Research Intern at NIMR in 2019, assisting in the molecular diagnosis of human blood samples and Plasmodium resistance studies. Beyond her research-focused roles, she worked as a Pharmacy Assistant at Crest Health Pharmacy in 2017, managing drug inventory and supporting pharmaceutical services. With a solid foundation in both laboratory and clinical research, Glory continues to contribute meaningfully to global infectious disease control efforts.

Skills💡

Glory possesses a diverse skill set that spans molecular biology, cell culture, immunology, bioinformatics, animal studies, lab management, and scientific writing. Her expertise in molecular biology includes DNA/RNA extraction, PCR, gel electrophoresis, and molecular docking, enabling her to conduct precise genetic and protein-based analyses. She is also proficient in cell culture techniques, working with Plasmodium and mammalian cells to perform in vitro drug assays that contribute to antimalarial drug discovery. Her immunology experience includes ELISA-based assays and serological testing, crucial for evaluating immune responses in infectious disease research. In bioinformatics, she specializes in data mining, next-generation sequencing (NGS) analysis, and omics data integration, allowing her to analyze large-scale biological data sets. Additionally, she has hands-on experience with murine malaria models, conducting toxicity assays and drug efficacy testing to validate therapeutic interventions. Beyond her technical skills, Glory is adept at lab management, ensuring compliance with safety protocols, maintaining accurate data records, and developing standard operating procedures (SOPs). She is also an accomplished scientific writer, with experience in manuscript preparation, grant writing, and proposal development, reinforcing her ability to contribute to high-impact research publications and secure funding for innovative projects.

Research Focus 🔬

Glory Adebayo is a dedicated researcher specializing in malaria research, with a focus on molecular drug discovery, Plasmodium resistance characterization, and bioinformatics applications. Her work integrates computational drug design, in vitro and in vivo antimalarial assays, and genetic analysis of resistant strains to advance the fight against malaria. She is particularly interested in post-GWAS (genome-wide association study) analysis, where she develops omics-based tools to study malaria epidemiology and identify potential therapeutic targets.

Beyond malaria research, Glory has contributed to studies on viral infections and antimicrobial resistance, expanding her impact within infectious disease research. Her interdisciplinary approach seamlessly combines wet-lab techniques with computational biology, enabling her to bridge experimental and computational methodologies. Through her research, she aims to develop effective therapeutics and innovative strategies to combat infectious diseases, ultimately improving global public health outcomes.

Publications Top Notes📚

 

Title: The Importance of Murine Models in Determining In Vivo Pharmacokinetics, Safety, and Efficacy in Antimalarial Drug Discovery.

Journal: Pharmaceuticals.Preprints+1MDPI+1

Publication Date: March 2025.

DOI: 10.3390/ph18030424.