Patrycja Anna Glogowski | Biotechnology | Research Excellence Award

Published on by TOT Awards

Mrs. Patrycja Anna Glogowski | Biotechnology | Research Excellence Award

IRCCS Institute of Neurological Sciences of Bologna | Italy

Mrs. Patrycja Anna Glogowski is a biomedical researcher specializing in mitochondrial biology, cardiometabolic disorders, and molecular mechanisms underlying cardiovascular and metabolic diseases. Her research focuses on the role of mitochondrial respiratory complexes, bioenergetic dysfunction, and supramolecular organization in conditions such as hypertension-related stroke, cardiac hypertrophy, hypoxia/reoxygenation injury, and mitral valve degeneration. She has developed strong expertise in molecular biology and mitochondrial physiology, working extensively with advanced techniques including nucleic acid extraction, PCR-based methods, next-generation sequencing, proteomics, mitochondrial isolation, and cellular bioenergetic profiling. Her scientific contributions emphasize the translational relevance of mitochondrial dysfunction in complex human diseases, with particular interest in how alterations in oxidative phosphorylation and ATP synthase activity influence disease susceptibility and progression. In addition to cardiovascular research, she has contributed to molecular parasitology studies, demonstrating interdisciplinary competence. Her work supports the development of new therapeutic targets aimed at improving mitochondrial performance and cellular resilience under pathological stress. She has presented her findings in international scientific forums and continues to contribute to high-impact, collaborative research initiatives. According to Scopus, her research impact includes 5 documents, 11 citations, and an h-index of 3, while Google Scholar records 11 citing documents reflecting growing recognition of her work within the scientific community. Her consistent contributions to mitochondrial medicine and molecular pathology demonstrate strong potential for a Research Excellence Award, reflecting both innovation and scientific rigor.

Publication Profile

Scopus 

Featured Publications

  • Cugliari, A., Algieri, C., Glogowski, P. A., Granata, S., Cotugno, M., Bernardini, C., Lopa, C., Litterio, M., Pietrangelo, D., Trombetti, F., Fabbri, M., Rubattu, S., & Nesci, S. (2025). The function and supramolecular assembly of the mitochondrial respiratory complexes underlie hypertension-related stroke susceptibility in a model of complex human disease. Biofactors.

  • Algieri, C., Bernardini, C., Cugliari, A., Granata, S., Trombetti, F., Glogowski, P. A., Fabbri, M., Morciano, G., Pedriali, G., Pinton, P., & Nesci, S. (2024). Melatonin rescues cell respiration impaired by hypoxia/reoxygenation in aortic endothelial cells and affects the mitochondrial bioenergetics targeting the F1FO-ATPase.

  • Granata, S., Bernardini, C., Glogowski, P. A., Romito, G., Salaroli, R., Algieri, C., Cugliari, A., Fabbri, M., Trombetti, F., Zannoni, A., & Nesci, S. (2024). Mitochondrial bioenergetic dysfunction linked to myxomatous mitral valve degeneration explored by PBMCs metabolism analysis.

  • Algieri, C., Cugliari, A., Glogowski, P. A., Granata, S., Fabbri, M., Trombetti, F., Bacci, M. L., & Nesci, S. (2025). Inside-out submitochondrial particles affect the mitochondrial permeability transition pore opening under conditions of mitochondrial dysfunction.

  • Caffara, M., Tedesco, P., Davidovich, N., Rubini, S., Luci, V., Cantori, A., Glogowski, P. A., Fioravanti, M. L., & Gustinelli, A. (2023). Molecular and morphological studies on Contracaecum rudolphii A and Contracaecum rudolphii B in great cormorants (Phalacrocorax carbo sinensis) from Italy and Israel.

Alemayehu Hido Gedo | Biological Sciences | Academic Excellence Teacher Award

Published on by TOT Awards

Mr. Alemayehu Hido Gedo | Biological Sciences | Academic Excellence Teacher Award

Wolaita Sodo University | Ethiopia 

Academic Background

Mr. Alemayehu Hido Gedo holds a Master of Science degree in Production Forestry and a Bachelor of Science degree in Forest Management and Utilization. His academic training has provided him with a solid foundation in sustainable forest management, biodiversity conservation, agroforestry systems, forest policy, and advanced research methodologies. He has undergone extensive professional training in proposal writing for international grants, statistical analysis, experimental design, and scientific report writing. Alemayehu’s research contributions are recognized internationally, with 72 citations, an h-index of 5, and an i10-index of three on Google Scholar, reflecting the quality and impact of his scholarly work in forestry and natural resource management. His publications are also indexed in Scopus, demonstrating the relevance of his research in global academic discourse.

Research Focus

Mr. Alemayehu Hido Gedo research primarily investigates the biophysical impacts of forest management, disturbances, and the sustainable utilization of forest resources. His work explores non-timber forest products, bamboo production, agroforestry practices, and the socio-economic aspects of forest resource management, integrating ecological and community perspectives to inform sustainable forestry interventions.

Work Experience

Mr. Alemayehu Hido Gedo has served as a lecturer and researcher at Wolaita Sodo University, delivering undergraduate courses in sustainable forest management, agroforestry systems, biodiversity conservation, and research methods. He has supervised student research projects and coordinated practical and laboratory training. Prior to his current role, he contributed as an assistant researcher at both the Ethiopian Environment and Forest Research Institute and the Southern Agricultural Research Institute, where he led research teams, developed scientific proposals, trained agricultural experts, and analyzed data for forest conservation and management initiatives. His early professional experience includes providing training and extension services in natural resource management for local communities.

Key Contributions

Mr. Alemayehu Hido Gedo has significantly advanced forestry research through the evaluation of non-timber forest products, bamboo production systems, and the socio-economic impacts of forest utilization. He has actively reviewed national and international research proposals, contributed to scientific capacity building, and published studies that inform policy and practice in sustainable forest management. His expertise bridges academic research, community engagement, and applied forestry, creating a tangible impact on environmental conservation and resource governance.

Awards & Recognition

Mr. Alemayehu Hido Gedo has been acknowledged for his academic excellence and teaching proficiency, receiving awards that highlight his dedication to higher education and his contributions to research and community service. His recognition extends to reviewing scholarly work and supporting university development through research mentorship.

Professional Roles & Memberships

Mr. Alemayehu Hido Gedo has served in leadership and coordination roles within research centers and academic institutions, including acting as a representative for forestry and agroforestry teams. Alemayehu is an active member of professional forestry and environmental networks, contributing to knowledge exchange and collaborative research initiatives.

Profile : 

Orcid | Google Scholar

Featured Publications

Alemayehu, A., & Hido, A. (2023). Determinants and governance of bamboo production and marketing in Ethiopia: A critical review. Advances in Bamboo Science, 5, 100047.

Hido, A. (2018). Population Status and Resin Quality of Frankincense Boswellia neglecta Growing in South Omo, Southwestern Ethiopia. Hawassa University, Wondo Genet College of Forestry and Natural Resources.

Gebremedhin, A. T., Hido, A. H., & Edo, G. Y. (2020). Evaluation of multi-functional fodder tree and shrub species in mid-altitudes of South Omo Zone, Southern Ethiopia. Journal of Horticulture and Forestry, 12(1), 27-34.

Hido, A., Teka, A., & Alemayehu, A. (2023). Analysis of Charcoal Producers Perceptions of Its Production, Forest Degradation, and Governance in Wolaita, Southern Ethiopia’s Dry Afromontane Forests. International Journal of Forestry Research, 2023, 3352702.

Hido, A., & Alemayehu, A. (2022). The social and economic significance of natural gum and resin in the Woodlands of South Omo Zone, Southern Ethiopia. International Journal of Forestry Research, 2022, 8742823.

Impact Statement / Vision

Mr. Alemayehu Hido Gedoenvisions advancing sustainable forest management practices through research that integrates ecological, socio-economic, and policy dimensions. His goal is to generate knowledge that informs conservation strategies, supports community livelihoods, and strengthens the scientific foundation for resilient forest ecosystems.

Muhammad Nawaz | Life Sciences | Best Research Article Award

Published on by TOT Awards

Dr. Muhammad Nawaz | Life Sciences | Best Research Article Award

University of Queensland | Australia

Academic Background

Dr. Muhammad Nawaz holds a PhD in Weed Biological Control from the University of Queensland, Australia, where his research centered on the classical biological control of Acacia auriculiformis in collaboration with USDA, CSIRO, and the University of Queensland. He also earned his M.Sc. (Hons.) and B.Sc. (Hons.) degrees in Agricultural Entomology from leading agricultural universities in Pakistan. His academic journey has provided him with a strong foundation in weed management, entomology, and plant-insect interactions. Dr. Nawaz’s scholarly contributions have been recognized globally, with 65 citations (50 since 2020), an h-index of 5, and an i10-index of 3 according to Google Scholar, reflecting the growing impact of his research within the scientific community. His publications are also indexed in Scopus, further validating the international recognition of his academic work.

Research Focus

Dr. Muhammad Nawaz research primarily focuses on weed biological control, insect-plant interactions, and integrated pest management. His work combines classical taxonomy, molecular techniques, and field ecology to enhance the sustainability of agricultural systems through environmentally sound pest and weed management strategies.

Work Experience

Currently serving as a Research Officer in Weed Biological Control at the Department of Primary Industries (DPI), New South Wales, Australia, Dr. Muhammad Nawaz leads initiatives aimed at identifying and managing invasive weed species using biological agents. Previously, he contributed to several research projects at the University of Queensland, including molecular screening and identification of insect herbivores, population genetics, and host-specificity studies for biocontrol candidates. His earlier professional career in Pakistan involved extensive work in agricultural research, development, and extension, where he trained agricultural officers and farmers in pest management and sustainable production techniques.

Key Contributions

Dr. Muhammad Nawaz has played a pivotal role in the identification and prioritization of biological control agents against invasive weeds, integrating molecular tools to improve the accuracy of host specificity testing. His collaborative work has contributed to advancing the understanding of phylogeographic patterns in plant-insect systems, influencing biocontrol strategies worldwide. His applied research has significantly supported Australian biosecurity efforts by introducing new biocontrol candidates and improving management protocols for invasive species.

Awards & Recognition

Dr. Muhammad Nawaz has received multiple honors including the Outstanding Reviewer Recognition from Entomologia Experimentalis et Applicata (Wiley) and several prestigious research travel awards from CSIRO and UQ. He was also a recipient of the Australian Postgraduate Award and various international research grants. His Best Research Article Award highlights his exceptional contributions to agricultural science and biological control innovation.

Professional Roles & Memberships

Dr. Muhammad Nawaz is affiliated with the Department of Primary Industries (NSW), and he maintains active collaborations with CSIRO and international research networks focused on biological control. He has also served as a trainer for capacity-building programs in pest management and integrated crop protection.

Profile: 

Google Scholar | Orcid

Featured Publications

McCulloch, G. A., Madeira, P. T., Makinson, J. R., Dutoit, L., Blair, Z., Walter, G. H., & Nawaz, M. (2021). Phylogenomics resolves the invasion history of Acacia auriculiformis in Florida. Journal of Biogeography, 48(2), 453–464.

Nawaz, M., Brookes, D. R., McCulloch, G. A., & Walter, G. H. (2022). Significant genetic structure in Macrobathra moths feeding on Acacia auriculiformis: Implications for prioritising biological control agents. Biological Control, 172, 104969.

Nawaz, M., McCulloch, G. A., Brookes, D. R., Zonneveld, R., & Walter, G. H. (2021). Native range surveys for host-specific Acacia auriculiformis biocontrol agents: A role for DNA barcoding. Biological Control, 158, 104594.

Nawaz, M., Ashfaq, M., & Amjad, A. (2008). Studies on improvement of artificial diet and its effect on biological characters of Chrysoperla carnea. Pakistan Journal of Entomology, 30(1), 73–76.

Nawaz, M., Ali, S., & Abbas, Q. (2016). High pressure water spray technique for controlling mustard aphid (Lipaphis erysimi) on Brassica crop. American-Eurasian Journal of Agricultural & Environmental Sciences, 16(2), 224–228.*

Impact Statement / Vision

Dr. Muhammad Nawaz envisions strengthening sustainable agriculture through innovative biological control research that reduces chemical dependency and enhances ecological balance. His goal is to advance global weed and pest management strategies by integrating molecular and field-based biocontrol approaches to ensure food security and environmental safety.

Inês Clarissa | Biotechnology | Best Researcher Award

Published on by TOT Awards

Mrs. Inês Clarissa | Biotechnology | Best Researcher Award

Federal University of Viçosa | Brazil

Mrs. Inês Clarissa Gomes Sousa is a highly motivated researcher and Master’s student in Food Science and Technology at the Federal University of Viçosa (UFV), holding a bachelor’s degree in Food Technology from the State University of Pará (UEPA) and specializations in Food Safety, Sanitary Surveillance, and Food Quality; her academic excellence is reflected in top distinctions such as first place in the Best Undergraduate Thesis Award  for her study on sanitary aspects of fish commercialization in Pará and third place for Best Academic Performance at UEPA ; professionally, she has contributed as a research volunteer, scholarship holder, and intern across multiple projects related to food safety, innovative product development, hygienic practices, labeling evaluation, and sanitary inspection, including consultancy roles with QualiNorte Consultoria Alimentar e Ambiental, which strengthened her applied expertise; her research interests span food technology, active and intelligent packaging, sustainable extraction of biopolymers, valorization of residues, and innovations in food systems, leading to publications in journals such as Revista do Instituto de Laticínios Cândido Tostes, Revista Alimentos, and Brazilian Journal of Development, alongside participation in collaborative projects focused on biodegradable packaging and by-product utilization; beyond publications, she has pursued extensive professional training through courses and certifications from EMBRAPA, SENAR, IICA, ENAP, and international institutions such as LMU (Germany), demonstrating her commitment to continuous learning; her key strengths include strong academic performance, recognition through awards, research productivity, and the ability to integrate scientific knowledge with real-world applications, particularly in food safety and sustainability, though areas for growth remain in enhancing international research exposure, expanding contributions to high-impact journals, and engaging in larger-scale industry collaborations; looking ahead, her future research potential is significant, as she is well-positioned to advance innovation in sustainable food packaging, safety standards, and technological solutions for global food systems, with clear capacity to impact both academic and industrial domains; overall, Mrs. Sousa’s blend of academic merit, practical expertise, and innovative vision makes her a strong candidate for the Best Researcher Award, with a promising trajectory toward becoming a leading figure in food science and technology.

Profile: Orcid

Featured Publications

Conde, M. B. M., Sousa, G. R. de, Sousa, I. C. G., Vieira, A. C. P., Silva, J. F. da, & Seixas, V. N. C. (2022). Perfil do consumidor de aplicativos de comida delivery no município de Marabá-PA. Research, Society and Development, 11(1), e25211125252.

James Kim | Stemcells | Best Researcher Award

Published on by TOT Awards

Dr.James Kim | Stemcells | Best Researcher Award

Bioprocess Scientist at PBS Biotech Inc, United States.

Dr. James Kim is a distinguished bioprocess scientist specializing in chemical and biomolecular engineering. Currently serving at PBS Biotech Inc., he focuses on advancing bioprocessing techniques, downstream analytics, and stem cell research. His expertise extends from his postdoctoral research at the University of Washington, where he pioneered exosome analysis for cancer diagnostics using nano-flow cytometry. During his Ph.D. at Ohio State University, he explored magnetic cell separation for clinical applications and studied hydrodynamic stress in bioreactors. Dr. Kim has collaborated with prestigious institutions, including the NIH, and has made significant contributions to regenerative medicine and biomanufacturing. His research seamlessly integrates fundamental scientific principles with industrial applications, reinforcing his reputation as a leading expert in biomedical engineering.

professional profiles📖

ORCID

Education 🎓

Dr. Kim earned his Ph.D. in Chemical and Biomolecular Engineering from Ohio State University (2015–2020) under the mentorship of Dr. Jeffrey Chalmers. His doctoral research focused on developing magnetic separation techniques for clinical applications and analyzing the impact of hydrodynamic stress on cell cultures in bioreactors. Before his doctoral studies, he completed a Bachelor of Science in Engineering (B.S.E.) in Chemical Engineering from the University of Michigan (2009–2015), graduating with cum laude honors. His undergraduate studies emphasized fluidics, flow cytometry, and bioprocess engineering, providing a solid foundation for his later research in cell separation, microfluidics, and assay development. Throughout his academic career, Dr. Kim demonstrated an interdisciplinary approach, integrating principles from engineering and biomedical sciences to drive innovation in biotechnology.

work Experience💼

With a diverse background in bioprocessing and analytical development, Dr. Kim currently works as a Bioprocess Scientist at PBS Biotech Inc., where he leads efforts in process scale-up, analytics development, and product testing for stem cell biomanufacturing. Prior to this, he conducted postdoctoral research at the University of Washington (2020–2023), where he played a pivotal role in advancing nano-flow cytometry for exosome-based cancer diagnostics while collaborating with leading industry partners like Beckman Coulter and the NIH. His Ph.D. research at Ohio State University (2015–2020) involved pioneering work in magnetic separation for anemia and cancer diagnostics, as well as characterizing hydrodynamic stress in bioreactors. His extensive experience bridges fundamental research with industrial applications, making significant contributions to the fields of regenerative medicine, precision diagnostics, and biomanufacturing.

Research Focus

Dr. Kim’s research centers on advancing bioprocessing strategies, optimizing bioreactor performance, and developing innovative cell separation techniques. His work in bioprocessing and bioreactor optimization includes modeling oxygen transfer for stem cell culture to improve scalability in regenerative medicine. He has significantly contributed to flow cytometry and exosome characterization, focusing on the standardization of single-molecule flow cytometry techniques for early-stage cancer diagnostics. Additionally, his expertise in magnetic cell separation has led to novel applications in anemia, sickle cell disease, and cancer diagnostics. His interdisciplinary research aims to bridge the gap between laboratory discoveries and scalable biomanufacturing, facilitating advancements in cell therapy, regenerative medicine, and precision diagnostics.

Awards & Honors🏆 

Dr. Kim has received numerous accolades throughout his career, including a Poster Presentation Scholarship at the prestigious ECI: Cell Culture Engineering XVIII Conference in 2023, which awarded him $2,000 for his research contributions. In 2016, he earned another Poster Presentation Scholarship ($500) at the International Advanced Course on Regenerative Medicine Manufacturing. He has actively presented his work at multiple AIChE Annual Meetings between 2017 and 2019, receiving recognition for his oral and poster presentations. His collaborative research efforts with the NIH and industry leaders in the field of exosome flow cytometry have also been acknowledged, further solidifying his standing as an expert in bioprocess engineering and regenerative medicine..

Conclusion✅

Dr. James Kim is a strong candidate for the Best Researcher Award, given his significant contributions to bioprocess engineering and biomedical diagnostics. His work bridges fundamental science and industrial applications, demonstrating innovation in process and instrumentation development. While he excels in research output and industry collaboration, additional focus on patenting, professional memberships, and increasing citation impact could further strengthen his profile. Overall, he is a well-qualified contender for this award.

Publications to Noted 📚

Measurement of Oxygen Transfer Rate and Specific Oxygen Uptake Rate of h-iPSC Aggregates in Vertical Wheel Bioreactors to Predict Maximum Cell Density Before Oxygen Limitation (2025)
Authors: James Kim, Omokhowa Agbojo, Sunghoon Jung, Matt Croughan
Citations: Not available

Comparison of EV Characterization by Commercial High‐Sensitivity Flow Cytometers and a Custom Single‐Molecule Flow Cytometer (2024)
Authors: James Kim, Shihan Xu, Seung‐Ryoung Jung, Alya Nguyen, Yuanhua Cheng, Mengxia Zhao, Bryant S. Fujimoto, Wyatt Nelson, Perry Schiro, Jeffrey L. Franklin, et al.
Citations: Not available

Intrinsically Magnetic Susceptibility in Human Blood and Its Potential Impact on Cell Separation: Non-Classical and Intermediate Monocytes Have the Strongest Magnetic Behavior in Fresh Human Blood (2021)
Authors: J. Gómez-Pastora, J. Kim, V. Multanen, M. Weigand, N.A. Walters, E. Reátegui, A.F. Palmer, M.H. Yazer, M. Zborowski, J.J. Chalmers
Citations: Not available

Magnetophoretic and Spectral Characterization of Oxyhemoglobin and Deoxyhemoglobin: Chemical Versus Enzymatic Processes (2021)
Authors: M.R.H. Weigand, J. Gómez-Pastora, J. Kim, M.T. Kurek, R.J. Hickey, D.C. Irwin, P.W. Buehler, M. Zborowski, A.F. Palmer, J.J. Chalmers
Citations: Not available

Hyperferritinemia in Critically Ill COVID-19 Patients – Is Ferritin the Product of Inflammation or a Pathogenic Mediator? (2020)
Authors: J. Gómez-Pastora, M. Weigand, J. Kim, X. Wu, J. Strayer, A.F. Palmer, M. Zborowski, M. Yazer, J.J. Chalmers
Citations: Not available

Quantification of the Mean and Distribution of Hemoglobin Content in Normal Human Blood Using Cell Tracking Velocimetry (2020)
Authors: James Kim, Jenifer Gómez-Pastora, Christopher J. Gilbert, Mitchell Weigand, Nicole A. Walters, Eduardo Reátegui, Andre F. Palmer, Mark Yazer, Maciej Zborowski, Jeffrey J. Chalmers
Citations: Not available

Single Cell Analysis of Aged RBCs: Quantitative Analysis of the Aged Cells and Byproducts (2019)
Authors: J. Kim, M. Weigand, A.F. Palmer, M. Zborowski, M.H. Yazer, J.J. Chalmers
Citations: Not available

Quantitative Characterization of the Regulation of Iron Metabolism in Glioblastoma Stem‐Like Cells Using Magnetophoresis (2019)
Authors: Kyoung‐Joo J. Park, James Kim, Thomas Testoff, Joseph Adams, Miranda Poklar, Maciej Zborowski, Monica Venere, Jeffrey J. Chalmers
Citations: Not available

A Subpopulation of Monocytes in Normal Human Blood Has Significant Magnetic Susceptibility: Quantification and Potential Implications (2019)
Authors: James Kim, Jenifer Gómez‐Pastora, Mitchell Weigand, Marnie Potgieter, Nicole A. Walters, Eduardo Reátegui, Andre F. Palmer, Mark Yazer, Maciej Zborowski, Jeffrey J. Chalmers
Citations: Not available

Correlation of Simulation/Finite Element Analysis to the Separation of Intrinsically Magnetic Spores and Red Blood Cells Using a Microfluidic Magnetic Deposition System (2018)
Authors: J. Sun, L. Moore, W. Xue, J. Kim, M. Zborowski, J.J. Chalmers
Citations: Not available