Pere Domingo | Antiretroviral Therapy | Best Researcher Award

Published on by Global Diseases Research

Prof. Dr. Pere Domingo | Antiretroviral Therapy | Best Researcher Award 

Senior Consultant | Hospital de la Santa Creu i Sant Pau | Spain

Prof. Dr. Pere Domingo is an internationally recognized clinician-scientist at the Hospital de la Santa Creu i Sant Pau in Barcelona, Spain, with an extensive research portfolio spanning HIV medicine, viral immunology, infectious diseases, and long-term treatment outcomes in people living with HIV. With 727 scientific publications and more than 21,600 citations from over 17,300 citing documents, he has made sustained and influential contributions to the field, reflected in an h-index of 68. His work integrates clinical trials, epidemiological modeling, translational immunology, and therapeutic optimization to advance understanding of HIV pathogenesis, comorbidities, and treatment simplification strategies. Recent publications include studies on HIV vaccine immunogenicity, cardiovascular risk disparities between HIV-positive individuals and the general population, antiretroviral therapy de-escalation, vaccine responsiveness in immunocompromised groups, immune biomarkers associated with cardiovascular injury, and longitudinal body composition outcomes following regimen switches. His collaborations extend across more than 9,000 co-authors, illustrating his role as a major contributor to large, multicentric, and interdisciplinary research networks in Europe and globally. Dr. Domingo’s work emphasizes improving patient quality of life, reducing treatment toxicity, optimizing therapeutic combinations, and enhancing immune recovery in vulnerable populations, including kidney transplant recipients and those with complex comorbidities. His scholarly output also includes high-impact reviews on HIV-associated lipodystrophy, lymphoproliferative disorders, and historical perspectives on infectious diseases, demonstrating a broad conceptual engagement with both modern and classical dimensions of disease. Through rigorous clinical investigation, leadership in multicenter trials, and sustained contributions to evidence-based HIV management, Dr. Domingo has significantly shaped current approaches to antiretroviral therapy, chronic disease monitoring, and long-term care strategies, reinforcing his standing as a leading figure in contemporary HIV and infectious disease research.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Mocroft, A., Ledergerber, B., Katlama, C., Kirk, O., Reiss, P., Monforte, A. A., … (2003). Decline in the AIDS and death rates in the EuroSIDA study: An observational study. The Lancet, 362(9377), 22–29. Cited by: 1661

2. Smith, C. J., Ryom, L., Weber, R., Morlat, P., Pradier, C., Reiss, P., Kowalska, J. D., … (2014). Trends in underlying causes of death in people with HIV from 1999 to 2011 (D:A:D): A multicohort collaboration. The Lancet, 384(9939), 241–248. Cited by: 1220

3. Knobel, H., Alonso, J., Casado, J. L., Collazos, J., González, J., Ruiz, I., … (2002). Validation of a simplified medication adherence questionnaire in a large cohort of HIV-infected patients: The GEEMA Study. AIDS, 16(4), 605–613.
Cited by: 729

Raeesa Manjoo-Docrat | Infectious Diseases | Young Researcher Award

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Dr. Raeesa Manjoo-Docrat | Infectious Diseases | Young Researcher Award 

Lecturer | Univeristy of the Witwatersrand | South Africa

Dr. Raeesa Manjoo-Docrat is a developing scholar affiliated with the University of the Witwatersrand, Johannesburg, whose work contributes to the advancement of quantitative epidemiology and public health modelling in South Africa. Her research focuses on the development and application of spatial, age-stratified epidemiological models aimed at understanding disease transmission dynamics within heterogeneous populations. With four peer-reviewed publications and 27 citations, she has established a growing academic footprint supported by an h-index of 2, reflecting the early but significant influence of her work. Her recent open-access article in Heliyon (2025), which applies spatial modelling frameworks to the South African COVID-19 pandemic, exemplifies her commitment to integrating mathematical rigor with real-world public health challenges. Manjoo-Docrat has collaborated with multidisciplinary teams comprising epidemiologists, mathematicians, and public health scientists, enabling her to contribute to robust analytical frameworks and high-quality scientific outputs. These collaborations also highlight her ability to operate effectively within diverse research environments and to engage in evidence-based problem solving that supports both academic and policy-relevant outcomes. Her research sits at the intersection of infectious disease dynamics, health systems planning, and data-driven decision support, positioning her work within a globally relevant domain of applied epidemiology. Beyond academic metrics, her contributions have societal impact by informing approaches to epidemic preparedne  ss, guiding interventions for vulnerable demographic groups, and enhancing understanding of spatial disparities in health outcomes. Through her continued scholarship, Manjoo-Docrat aims to strengthen the integration of mathematical modelling into national and regional public health strategies, ensuring that data-informed insights contribute to improved health resilience and equitable disease control.

Profiles: Scopus | ORCID

Featured Publications

1. Manjoo-Docrat, R., Abdelatif, N., Holloway, J., Dudeni-Tlhone, N., Dresselhaus, C., Mbayise, E., … Makhanya, S. (2025). Spatial age-stratified epidemiological model with applications to South African COVID-19 pandemic. Heliyon, 11(11), e43171. https://doi.org/10.1016/j.heliyon.2025.e43171

2. Dresselhaus, C., Fabris-Rotelli, I., Manjoo-Docrat, R., Brettenny, W., Holloway, J., Thiede, R., Debba, P., & Dudeni-Tlhone, N. (2023). A spatial model with vaccinations for COVID-19 in South Africa. Spatial Statistics, 58, Article 100792. Cited by 2.

3. Manjoo-Docrat, R. (2022). A spatio-stochastic model for the spread of infectious diseases. Journal of Theoretical Biology, 533, 110943.  Cited by 16.

4. Fabris-Rotelli, I., Holloway, J., Kimmie, Z., Archibald, S., Debba, P., Manjoo-Docrat, R., … Potgieter, A. (2022). A Spatial SEIR Model for COVID-19 in South Africa. Journal of Data Science, Statistics, and Visualisation, 2(7), 14–45.  Cited by 5.

Qingfeng Zhang | Echocardiography | Best Researcher Award

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Dr. Qingfeng Zhang | Echocardiography | Best Researcher Award 

Doctor | University of Electronic Science and Technology of China | China

Dr. Qingfeng Zhang is a dedicated researcher at the University of Electronic Science and Technology of China, contributing significantly to the rapidly advancing fields of millimeter-wave engineering, silicon-based phased arrays, and next-generation integrated circuit technologies. With a body of 38 publications and over 100 citations, his work reflects both technical depth and sustained scholarly influence. His research focuses on high-frequency system design, advanced CMOS on-chip antennas, and innovative 3D packaging architectures, emphasizing improved circuit modeling, miniaturization, and performance optimization for emerging communication systems. Dr. Zhang’s studies on silicon-based millimeter-wave integrated phased arrays and device-to-system modeling address foundational engineering challenges that are critical to the development of 5G, 6G, and high-speed sensing technologies. His contributions to improved equivalent circuit models, high-gain compact D-band antennas, and enhanced interconnection structures demonstrate his commitment to bridging theoretical modeling with practical device implementation. Collaborating with more than 80 international and domestic co-authors, he is actively engaged in multidisciplinary research that advances semiconductor reliability, packaging innovation, and electromagnetic design. His work not only supports the academic community but also carries significant societal impact by informing the development of faster, more efficient, and more reliable wireless systems that underpin modern communication infrastructures. With an h-index of 6 and growing recognition within the engineering research community, Dr. Zhang continues to build a strong scholarly profile centered on technological innovation, collaborative inquiry, and practical solutions to next-generation communication challenges.

Profiles: Scopus

Featured Publications

1. Zhang, Q., Liu, H., Yu, Y., Wu, Y., Zhao, C., Zhang, J., & Kang, K. (2025). Developments and challenges of silicon-based millimeter-wave integrated phased arrays: System, circuit, and device modeling. Science China Information Sciences, 68, Article 1914015.

2. Li, Y., Zhang, Q., Tang, H., Yang, Y., & Kang, K. (2025, May). A D-band CMOS on-chip antenna with high gain and miniaturization. In Proceedings of the 2025 IEEE MTT-S International Wireless Symposium (IWS) (conference paper).

3. Liu, Y., Wang, H., et al. (2025, May). Improved equivalent circuit model of BGA and RDL combined interconnection for 3D packaging. In Proceedings of the 2025 IEEE MTT-S International Wireless Symposium (IWS). Cited by: 1)

Dr. Qingfeng Zhang’s work in silicon-based millimeter-wave integrated phased arrays and advanced 3D packaging technologies is advancing the next generation of high-frequency communication, sensing, and semiconductor innovation. His contributions strengthen the scientific foundation for faster, more efficient, and scalable wireless systems, supporting progress in global connectivity, smart industries, and emerging 6G technologies.

Pankaj Roy | Disease Mapping | Best Researcher Award

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Dr. Pankaj Roy | Disease Mapping | Best Researcher Award 

Assistant Professor | Central University of Karnataka | India

Dr. Pankaj Roy is a geographer and fluvial geomorphologist whose research spans fluvial processes, riverbank erosion, hydrology, remote sensing, GIS applications, and climate-related environmental change, with a particular focus on the Indo-Bhutan and North-East Indian river systems. With more than twenty publications and over one hundred citations, his scholarship demonstrates both depth and continuity in understanding river dynamics, flood frequency, catchment delineation, and geomorphic hazards. His early work on flood magnitude, geomorphic consequences, and socio-environmental risks in Assam laid the foundation for his later contributions to geospatial modelling and riverbank erosion assessment. Dr. Roy’s research also extends into interdisciplinary domains, including applications of GIS and spatial analysis in Indian health research, which has received notable visibility. He has collaborated extensively with scholars such as Dr. Sarath Chandran, Rintu Sarkar, and Prof. Sunil De, contributing to nationally relevant studies published in journals such as BMC Health Services Research, Asian Journal of Spatial Science, and European Academic Research. His outputs include analytical papers, systematic reviews, case-study-based assessments, and contributions to edited volumes on hydrology and regional development. Through his work, Dr. Roy demonstrates a strong command of spatial technologies for understanding river behaviour, mapping geomorphic changes, and informing sustainable water-resource planning. His contributions also include insights into forest-cover transitions in the North-East, earthquake intensity patterns, and the role of geospatial tools in bridging physical and human geography. Collectively, his research offers valuable inputs for disaster management, climate resilience, and regional planning, addressing both academic and societal needs.

Profiles: Google Scholar | ORCID

Featured Publications

1. Chandran, A., & Roy, P. (2024). Applications of geographical information system and spatial analysis in Indian health research: A systematic review. BMC Health Services Research, 24(1), 1448.
Cited by: 29

2. Roy, P. (2015). Work participation and income generation from sericulture: A case study of Alomtola Village of Kaliachak-II Block in Malda District, West Bengal. Social and Economic Geography, 1(1), 31–36.
Cited by: 20

3. Roy, P. (2014). Primary Health Centres and patients satisfaction level in Haripad Community Development Block of Kerala, India. International Journal of Current Research, 6(12), 11118–11122.
Cited by: 14

4. Roy, P. (2020). An assessment of the forest cover change in the North Eastern States of India, 1993–2003. In Dynamics of Socio–Economic Development of North Eastern Region of India (pp. 3–12).
Cited by: 2

5. Roy, P. (2020). Geological mapping of Puthimari River Basin in Indo-Bhutan Region using geo-spatial tools. In Hydrology: Application of Remote Sensing and GIS (pp. 140–153).
Cited by: 2

Dr. Pankaj Roy’s work advances fluvial geomorphology, hydrology, and geospatial science to address critical challenges in river dynamics, flood hazards, and environmental change in the Eastern Himalaya and Northeast India. His research integrates GIS, remote sensing, and spatial analysis to generate actionable insights for sustainable watershed management and disaster resilience. Through applied, data-driven solutions, he aims to bridge scientific understanding with community-focused environmental planning and policy.

Hyungjin Eoh | Tuberculosis | Best Researcher Award

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Prof. Hyungjin Eoh | Tuberculosis | Best Researcher Award 

University of Southern California | United States

Prof. Hyungjin Eoh is a prominent researcher at the Keck School of Medicine of the University of Southern California, recognized for his influential work in biomedical and translational research. With 53 scientific publications and over 2,200 citations from 1,847 documents, his scholarship reflects both depth and sustained global impact. Prof. Eoh’s research focuses on understanding complex disease mechanisms, advancing molecular therapeutics, and improving clinical outcomes through rigorous experimental inquiry. His work frequently bridges basic science and applied medicine, contributing to fields such as infectious diseases, immunology, cellular pathology, and biomedical innovation. Throughout his career, he has collaborated extensively—engaging with more than 440 co-authors across diverse institutions, disciplines, and countries—demonstrating his role as both a scientific leader and a connector within the global research community. These collaborations have strengthened the translational relevance of his findings and facilitated multidisciplinary approaches to pressing health challenges. Prof. Eoh’s contributions have also been supported by multiple research grants, highlighting both the competitive quality of his scientific vision and its alignment with international health priorities. His work not only advances academic understanding but also holds significant societal value by informing diagnostics, guiding therapeutic development, and shaping public health strategies. As a scholar with an h-index of 24, Prof. Eoh has established a record of producing consistently valuable research that influences peers and drives ongoing innovation. His career embodies scientific rigor, collaborative excellence, and a commitment to improving human health through evidence-based discovery, making him a respected figure within the biomedical research landscape.

Profiles: Scopus | Google Scholar | ORCID

Featured Publications

1. Eoh, H., & Rhee, K. Y. (2013). Multifunctional essentiality of succinate metabolism in adaptation to hypoxia in Mycobacterium tuberculosis. Proceedings of the National Academy of Sciences, 110(16), 6554–6559.
Cited by: 330

2. Seo, G. J., Kim, C., Shin, W. J., Sklan, E. H., Eoh, H., & Jung, J. U. (2018). TRIM56-mediated monoubiquitination of cGAS for cytosolic DNA sensing. Nature Communications, 9(1), 613.
Cited by: 216

3. Bahk, Y. Y., Kim, S. A., Kim, J. S., Euh, H. J., Bai, G. H., Cho, S. N., & Kim, Y. S. (2004). Antigens secreted from Mycobacterium tuberculosis: Identification by proteomics approach and test for diagnostic marker. Proteomics, 4(11), 3299–3307.
Cited by: 202

4. Eoh, H., & Rhee, K. Y. (2014). Methylcitrate cycle defines the bactericidal essentiality of isocitrate lyase for survival of Mycobacterium tuberculosis on fatty acids. Proceedings of the National Academy of Sciences, 111(13), 4976–4981.
Cited by: 199

5. Saini, V., Cumming, B. M., Guidry, L., Lamprecht, D. A., Adamson, J. H., Reddy, V. P., … & Eoh, H. (2016). Ergothioneine maintains redox and bioenergetic homeostasis essential for drug susceptibility and virulence of Mycobacterium tuberculosis. Cell Reports, 14(3), 572–585.
Cited by: 165

Shiping Zhu | Medicine | Best Innovation Award

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Dr. Shiping Zhu | Medicine | Best Innovation Award 

Associate Chief Physician | The First Affiliated Hospital of Jinan University | China

Dr. Shiping Zhu is a highly accomplished materials scientist and polymer engineer whose influential research has significantly advanced the fields of smart materials, ionogels, elastomers, and membrane technologies. Affiliated with The Chinese University of Hong Kong, Shenzhen, he has built an extensive academic record, authoring more than 450 peer-reviewed publications and accumulating over 20,000 citations, reflecting his global impact and sustained scholarly contribution. His work consistently bridges fundamental chemistry with practical engineering, focusing on high-performance polymers, CO₂ capture materials, mechanoresponsive elastomers, and advanced adhesive systems. Recent publications highlight breakthroughs in armored polymer-fluid gels, fracture-resistant stretchable materials, high-loading MOF monoliths for gas separation, and ultra-strong ionogel adhesives—showcasing his leadership in designing materials with exceptional mechanical, environmental, and functional performance. Prof. Zhu’s research group actively collaborates with multidisciplinary teams worldwide, contributing to approximately 400 co-authored studies and driving innovations across chemical engineering, materials science, environmental technology, and energy applications. With an h-index of 76, his scholarly influence spans both theoretical and applied domains, shaping industrial practices in polymer manufacturing, smart adhesive development, impact-resistant materials, and sustainable separation technologies. His work on CO₂ capture frameworks and advanced reactor engineering supports global efforts toward carbon neutrality, while his innovations in adaptable and energy-dissipating elastomers have relevance in robotics, wearable electronics, and safety engineering. Prof. Zhu is also recognized for pioneering structural methodologies in ionogel design, mechanochromic materials, and touch-responsive polymer networks that enable next-generation sensing, damping, and protective systems. Through his sustained research excellence, extensive collaborations, and high-impact publications, Prof. Shiping Zhu continues to advance the scientific foundations and practical applications of modern polymer science, contributing meaningfully to technological progress and societal benefit.

Profiles: Scopus | Google Scholar | ORCID

Featured Publications

1. Qian, Y., Qiu, X., & Zhu, S. (2015). Lignin: A nature-inspired sun blocker for broad-spectrum sunscreens. Green Chemistry, 17(1), 320–324. Cited by: 541

2. Zhu, H., Yang, X., Cranston, E., & Zhu, S. (2016). Flexible and porous nanocellulose aerogels with high loadings of metal-organic framework particles for separations applications. Green Chemistry, —. Cited by: 474

3. Feng, W., Zhu, S., Ishihara, K., & Brash, J. L. (2005). Adsorption of fibrinogen and lysozyme on silicon grafted with poly(2-methacryloyloxyethyl phosphorylcholine) via surface-initiated atom transfer radical polymerization. Langmuir, 21(13), 5980–5987. Cited by: 447

4. Pan, H., Li, Y., Wu, Y., Liu, P., Ong, B. S., Zhu, S., & Xu, G. (2007). Low-temperature, solution-processed, high-mobility polymer semiconductors for thin-film transistors. Journal of the American Chemical Society, 129(14), 4112–4113. Cited by: 441

5. Feng, W., Brash, J. L., & Zhu, S. (2006). Non-biofouling materials prepared by atom transfer radical polymerization grafting of 2-methacryloyloxyethyl phosphorylcholine: Separate effects of graft density and chain length. Biomaterials, 27(6), 847–855. Cited by: 400

Dr. Shiping Zhu’s pioneering contributions to advanced polymers, ionogels, and functional materials are transforming next-generation manufacturing, environmental sustainability, and high-performance industrial applications. His work bridges fundamental polymer science with real-world impact, enabling safer, smarter, and more resilient materials for global technological advancement.

Qingju Zhang | Vaccines | Best Researcher Award

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Prof. Qingju Zhang | Vaccines | Best Researcher Award 

Researcher | Jiangxi Normal University | China

Prof. Qingju Zhang is a distinguished researcher at Jiangxi Normal University, China, recognized for her significant contributions to synthetic carbohydrate chemistry, glycoscience, and vaccine-related glycoconjugate development. With a portfolio of 44 peer-reviewed publications and over 870 citations across 632 citing documents, she has established a strong scholarly footprint marked by methodological innovation, collaborative strength, and impactful research outputs. Her work focuses on the chemical synthesis, structural modification, and functional exploration of complex oligosaccharides, especially those relevant to pathogenic bacteria such as Acinetobacter baumannii and Bordetella hinzii. Recent publications highlight her leadership in advancing direct glycosylation methods, visible-light-mediated stereoselective transformations, and halogen/hydrogen-bond-assisted activation strategies, reflecting her expertise in contemporary reaction design and mechanistic insight. Her research on carbohydrate-based vaccines exemplifies a translational vision aimed at developing effective immunogens targeting antibiotic-resistant bacterial pathogens. With an h-index of 16 and a network of over 110 international and interdisciplinary co-authors, she collaborates widely across chemistry, microbiology, and biomedical science communities, underscoring her role as a key contributor to global glycoscience research. In addition to pioneering synthetic methodologies, her work advances fundamental understanding of bacterial O-antigen structures and supports the design of next-generation vaccine candidates with potential societal benefits in infectious disease control. Through consistent scholarly productivity, rigorous experimental approaches, and high-impact publications in leading journals such as ACS Catalysis, Organic Letters, and JACS Au, Prof. Zhang continues to enrich the field of carbohydrate chemistry while fostering scientific collaborations that bridge basic research and biomedical application.

Profiles: Scopus | ORCID

Featured Publications

1. Wang, L., Chen, M., Zou, J., Wu, S., Guo, K., Liu, D., Liu, C., Wang, Z., Hansen, T., & Zhang, Q. (2025, August 15). Direct glycosylation of N,N-dimethyl amino sugars via halogen/hydrogen-bonding interactions. ACS Catalysis, 15, 14115–14126. 
Cited by: 1

2. Wang, L., Li, X., Duan, L., Liu, D., Qi, J., & Zhang, Q. (2025, June). Fragments synthesis of Acinetobacter baumannii ATCC 17961 O-Antigen. Synlett.

3. Zhang, Y., Liu, C., & Zhang, Q. (2025, May 23). Recent advances of carbohydrate-based vaccines against Acinetobacter baumannii. European Journal of Organic Chemistry.

4. Zhang, L., Zheng, Z., Zhang, Y., Wu, X., Tu, Y., Liu, C., Wang, Z., Wang, L., Yang, Y., & Zhang, Q. (2025, April 28). Chemical synthesis and antigenic evaluation of oligosaccharides of Bordetella hinzii O-Antigen containing unique amidated 2,3-diacetamido-2,3-dideoxy-alduronic acids. JACS Au, 5, 1903–1913. 
Cited by: 4

5. Wang, Z., Poveda, A., Zhang, Q., Unione, L., Overkleeft, H. S., van der Marel, G. A., & Codée, J. D. C. (2023, June 28). Total synthesis and structural studies of zwitterionic Bacteroides fragilis polysaccharide A1 fragments. Journal of the American Chemical Society. 
Cited by: 15

Fangfang Tao | Chikungunya Virus | Best Researcher Award

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Prof. Dr. Fangfang Tao | Chikungunya Virus | Best Researcher Award 

Zhejiang Chinese Medical University | China

Prof. Dr. Fangfang Tao is a dedicated researcher at Zhejiang Chinese Medical University whose work spans integrative medicine, public health, and translational biomedical science. With a portfolio of 35 peer-reviewed publications and over 380 citations, Dr. Tao has established a growing scholarly presence supported by an h-index of 11, reflecting consistent influence and research quality. Her contributions often integrate traditional Chinese medical principles with modern clinical and epidemiological approaches, advancing evidence-based understanding of disease mechanisms, therapeutic strategies, and patient-centered health outcomes. Dr. Tao’s collaborative record is extensive, with partnerships involving more than 100 co-authors across national and international institutions, demonstrating her commitment to interdisciplinary inquiry and global scientific engagement. Her work contributes meaningfully to emerging health challenges by prioritizing rigorous methodology, culturally relevant medical insights, and innovative therapeutic frameworks. Through her research, Dr. Tao aims to bridge traditional medical knowledge with contemporary biomedical science to enhance clinical practice, inform health policy, and promote accessible, effective care. Her scholarly achievements underscore not only a strong trajectory in academic research but also a broader societal impact, as her studies support improved diagnostic approaches, better-targeted interventions, and enhanced patient well-being across diverse populations.

Profiles: Scopus | Google Scholar

Featured Publications

1. Niu, N., Zhang, J., Zhang, N., Mercado-Uribe, I., Tao, F., Han, Z., Pathak, S., … (2016). Linking genomic reorganization to tumor initiation via the giant cell cycle. Oncogenesis, 5(12), e281.
Cited by: 169

2. Tao, F., Tian, X., Ruan, S., Shen, M., & Zhang, Z. (2018). miR‐211 sponges lncRNA MALAT1 to suppress tumor growth and progression through inhibiting PHF19 in ovarian carcinoma. The FASEB Journal, 32(11), 6330–6343.
Cited by: 92

3. Tao, F., Tian, X., Lu, M., & Zhang, Z. (2018). A novel lncRNA, Lnc-OC1, promotes ovarian cancer cell proliferation and migration by sponging miR-34a and miR-34c. Journal of Genetics and Genomics, 45(3), 137–145.
Cited by: 59

4. Tian, X., Tao, F., Zhang, B., Dong, J. T., & Zhang, Z. (2018). The miR‐203/SNAI2 axis regulates prostate tumor growth, migration, angiogenesis and stemness potentially by modulating GSK‐3β/β-catenin signal pathway. IUBMB Life, 70(3), 224–236.
Cited by: 42

5. Jiang, X., Cui, X., Xu, H., Liu, W., Tao, F., Shao, T., Pan, X., & Zheng, B. (2019). Whole genome sequencing of extended-spectrum beta-lactamase (ESBL)-producing Escherichia coli isolated from a wastewater treatment plant in China. Frontiers in Microbiology, 10, 1797.
Cited by: 34

LI Ruixiang | Epidemiology | Editorial Board Member

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Mrs. LI Ruixiang | Epidemiology | Editorial Board Member

Professor | Affiliated Hospital of Shandong Second Medical University | China

Mrs. Li Ruixiang is an emerging researcher whose work advances maternal–child health, neonatal nutrition, and early-life growth assessment through rigorous quantitative and engineering-informed methodologies. Her scholarship includes key contributions to understanding threshold effects of third-trimester maternal vitamin A status on neonatal ponderal index, published in Food Science & Nutrition, and the development of computer-assisted methods for evaluating early physical linear growth among small-for-gestational-age infants, featured in the Journal of Healthcare Engineering. These studies demonstrate her ability to integrate biomedical knowledge with advanced analytical approaches, generating evidence that supports more precise assessment of neonatal growth patterns and micronutrient-related developmental outcomes. Mrs. Li’s collaborative work with multidisciplinary teams—comprising nutritionists, paediatric clinicians, biomedical engineers, and public health experts—reflects her commitment to methodological innovation and translational research. Although still in the early stages of her academic career, she has contributed to a growing body of literature that strengthens global understanding of neonatal anthropometry, maternal nutrition, and data-driven modelling in child health. Her findings help inform clinical decision-making, contribute to improved detection of growth abnormalities, and support public health policies aimed at reducing early-life vulnerabilities. Through her focused research agenda and evidence-based analyses, Mrs. Li Ruixiang continues to build a research profile with meaningful societal relevance and potential for long-term impact on maternal and neonatal wellbeing.

Profiles: ORCID

Featured Publications

1. Ji, J., Cui, L., Ni, J., & Li, R. (2025). Threshold Effects of Third-Trimester Maternal Vitamin A on Neonatal Ponderal Index: A Segmented Regression Analysis of 442 Mother–Infant Pairs. Food Science & Nutrition.

2. Li, R., Yin, M., Cui, L., Zheng, R., & Malik Alazzam. (2021). Early Physical Linear Growth of Small-for-Gestational-Age Infants Based on Computer Analysis Method. Journal of Healthcare Engineering. Citations: 4

Through innovative analytical methods and population-level studies, the nominee illuminates critical nutritional thresholds that influence infant development. Their work strengthens scientific understanding and guides public health strategies that enhance early-life health across diverse communities.

Ashenafi Gebremarian | Public Health | Editorial Board Member

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Assoc. Prof. Dr. Ashenafi Gebremarian | Public Health | Editorial Board Member

Huazhong Agricultural University | China

Assoc. Prof. Dr. Ashenafi Gebremariam is an emerging scholar and academic professional at Huazhong Agricultural University, Wuhan, China, recognized for his early yet growing contributions to agricultural and veterinary sciences. His Scopus-indexed research portfolio includes two peer-reviewed publications supported by two citations, reflecting the initial stages of academic impact and the steady visibility of his work in global scholarly circles. With an h-index of 1, he demonstrates a developing research trajectory that is expanding through specialized studies in animal health, agricultural biotechnology, and related life-science disciplines. Dr. Gebremariam’s collaboration with at least eight co-authors signals his active engagement in multidisciplinary research environments and underscores his commitment to knowledge exchange, methodological rigor, and international scientific cooperation. His academic affiliation with a leading agricultural institution places him at the forefront of research aimed at enhancing food security, livestock productivity, and sustainable agricultural systems. Although his publication record is still in its formative phase, his contributions reflect a clear dedication to generating evidence-based insights that address societal needs, support innovation, and strengthen global agricultural resilience. As his research continues to evolve, Assoc. Prof. Dr. Gebremariam is positioned to expand his scholarly influence through high-quality publications, impactful collaborations, and continued advancement in the fields of veterinary and agricultural sciences.

Profiles: Scopus | ORCID

Featured Publications

1.Shi, Y., Peng, G., Gebremariam, A. A., Iqbal, M. M., Baghaei Daemi, H., Khan, M. A., Ullah, R., & Wang, D. (2024). Analytical insights, modulation and compositional dynamics of the feline gut microbiota: a review. Animal Diseases, Article 00140. Cited by: 2.

2. Fentie, T., Teshome, Y., Ayele, B., Molla, W., Fenta, N., Nigatu, S., Assefa, A., & Leta, S. (2018). Sero-epidemiological study of peste des petits ruminants in small ruminants in Amhara region, Ethiopia. Comparative Clinical Pathology, 27(4), 1029–1036. https://doi.org/10.1007/s00580-018-2697-2 — Cited by: 15.

3. Fentie, T., Fenta, N., Leta, S., Molla, W., Ayele, B., Teshome, Y., Nigatu, S., & Assefa, A. (2017). Sero-prevalence, risk factors and distribution of sheep and goat pox in Amhara Region, Ethiopia. BMC Veterinary Research, 13, Article 385. https://doi.org/10.1186/s12917-017-1312-0 — Citation count not reliably available from publicly accessible sources at this time

Assoc. Prof. Dr. Ashenafi Gebremariam advances veterinary and agricultural science through research that strengthens animal health, productivity, and sustainable livestock systems. His work contributes to improved disease understanding and supports innovations that enhance food security and the resilience of global animal agriculture.