Mrs. Elzbieta Raus-Jarząbek | Biomedical Engineering | Research Excellence Award

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Mrs. Elzbieta Raus-Jarząbek | Biomedical Engineering | Research Excellence Award

Mrs. Elzbieta Raus-Jarząbek | AGH University of Krakow | Poland

Mrs. Elżbieta Raus-Jarząbek is a highly accomplished Software and Electronic Engineer and emerging biomedical researcher, with 5 scientific documents, 4 citations by 4 documents, and an h-index of 1, reflecting her growing academic impact alongside a strong engineering career. She combines expertise in electronics, telecommunications, biomedical signal processing, machine learning, and computer science. Her professional background includes significant experience at Motorola Solutions, where she worked in Unix and Windows virtualization, software deployment, installation package creation for Linux and Windows platforms, and automated testing, including web-based systems, while troubleshooting complex multi-environment infrastructures. She later contributed to Noble Systems Corporation in Kraków as a Software Engineer, developing cross-platform telecommunication software and SIP-based VoIP desktop applications using network programming techniques. Alongside industry roles, she gained broad hands-on experience through consulting and freelance work, designing sensor-based electronic interfaces and creating systems for data acquisition, processing, and interpretation. Currently, as a PhD candidate at AGH University of Science and Technology, she focuses on designing and validating wearable ECG devices and developing advanced ECG signal-processing and HRV-based cardiovascular risk prediction approaches using nonlinear analysis and machine learning. Her multidisciplinary expertise bridges electronics, software, and biomedical science, demonstrating a strong commitment to technological innovation and impactful healthcare research.

Profile: Scopus

Featured Publication

Raus-Jarząbek, E. (2025). A practical guide to ECG device performance testing according to international standards. Electronics (Open access).

 

Dr. Luis Rico | Biomedical Engineering | Best Researcher Award

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Dr. Luis Rico | Biomedical Engineering | Best Researcher Award

Dr. Luis Rico | Hospital Aleman de Buenos Aires | Argentina

Dr. Luis Rico is a dedicated and research-driven professional in the field of urology, with notable expertise in endourology, uro-oncology, and laparoscopic surgery. His academic and clinical contributions are reflected through a strong research profile, comprising 34 scientific publications, 244 citations across 213 documents, and an h-index of 9, underscoring his growing influence in the global urological community. His scholarly work integrates advanced minimally invasive surgical techniques with innovative therapeutic approaches aimed at improving patient care and procedural efficiency. Dr. Rico actively participates in international academic collaborations, serving as faculty and invited speaker at leading urology congresses and symposia, where he shares insights on cutting-edge endourological technologies, ureteral access, percutaneous interventions, and upper tract urothelial carcinoma management. His consistent research impact, clinical excellence, and commitment to professional development reflect his role as a forward-thinking contributor to modern urological science and surgical innovation.

Profile: Scopus | Orcid

Featured Publications

Rico, L., Blas, L., Álvarez Jaramillo, J., Filgueira, G., Soldano, J., & Contreras, P. (2025, October 10). Magneto Ho:YAG laser versus Thulium Fiber Laser for laser lithotripsy during flexible ureteroscopy with a flexible and navigable ureteral access sheath. International Urology and Nephrology.

Rico, L., Blas, L., Banda Ramos, L., Maqueda, M., Pizzarello, J., & Contreras, P. (2025, August 2). Thulium Fiber Laser versus Vapor Tunnel HO:YAG laser in retrograde intrarenal surgery: Which one has better laser ablation performance? World Journal of Urology.

Rico, L., Diaz-Zorita, V., Blas, L., Banda Ramos, L., Sabeh, P., & Contreras, P. (2025, April 9). Is the ablation stone efficacy and efficiency better with a flexible and navigable suction ureteric access sheath? World Journal of Urology.

Rico, L., Blas, L., Pizzarello, J., Banda-Ramos, L., & Contreras, P. (2024, December 10). Mini-endoscopic combined intrarenal surgery (mini-ECIRS) for complex urolithiasis. World Journal of Urology.

Rico, L., Maqueda, M., Blas, L., & Contreras, P. (2024, November). Anterograde placement of drug-coated balloon for ureteroileal anastomosis stricture. BMJ Case Reports.

Rico, L., Blas, L., Banda Ramos, L., Pizzarello, J., Ameri, C., & Contreras, P. (2024, November 19). Optimal stone density for ablation lithotripsy with vapor tunnel Ho:YAG pulse modality. International Urology and Nephrology.

 

Prof. Dr. Galina Malykhina | Biomedical Engineering | Best Researcher Award

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Prof. Dr. Galina Malykhina | Biomedical Engineering | Best Researcher Award

Prof. Dr. Galina Malykhina | Peter the Great Saint Petersburg Polytechnic University | Russia

Prof. Dr. Galina Malykhina is a distinguished scientist and educator affiliated with the Peter the Great St. Petersburg Polytechnic University, serving at the Institute of Informatics and Cybersecurity, Graduate School of Computer Technology and Information Systems. She earned her foundational and advanced degrees from the St. Petersburg Polytechnic Institute, completing her PhD in Technical Cybernetics and later defending her DSc thesis in Information, Measurement, and Control Systems. Over her prolific career, Galina Malykhina has made significant contributions to the development of technical diagnostics systems, measurement technologies for two-phase and multiphase flows in the oil industry, and intelligent medical measurement systems utilizing artificial neural networks. Her expertise extends to advanced control mechanisms for thermal power plants and industrial automation processes. As an academic, she has delivered comprehensive lectures on Information Technology, Computer Networks, and Machine Vision, shaping generations of engineers and researchers. Her research output includes 38 documents with 89 citations from 73 documents and an h-index of 5. Her scholarly influence is reflected through numerous publications indexed in Google Scholar, DBLP, Semantic Scholar, and ORCID. Galina Malykhina’s research continues to bridge cybernetics, intelligent systems, and applied informatics, reinforcing her reputation as a leading figure in Russian and international computer science and control engineering.

Profile: Scopus | Google Scholar | Orcid

Featured Publications

Malykhina, G. F., & Guseva, A. I. (2017). Early fire prevention in the plant. Industrial Engineering, Applications and Manufacturing (ICIEAM).

Tarkhov, D. A., & Malykhina, G. F. (2019). Neural network modelling methods for creating digital twins of real objects. Journal of Physics: Conference Series, 1236(1), 012056.

Malykhina, G. F., & Tarkhov, D. A. (2018). Digital twin technology as a basis of the industry in future. European Proceedings of Social and Behavioural Sciences, 51.

Lazovskaya, T., Malykhina, G., & Tarkhov, D. (2021). Physics-based neural network methods for solving parameterized singular perturbation problem. Computation, 9(9), 97.

Dashkina, A., Khalyapina, L., Kobicheva, A., Lazovskaya, T., Malykhina, G., & others. (2020). Neural network modeling as a method for creating digital twins: From industry 4.0 to industry 4.1. Proceedings of the 2nd International Scientific Conference on Innovations in …

Vasilyev, A. N., Tarkhov, D. A., & Malykhina, G. F. (2018). Methods of creating digital twins based on neural network modeling. Sovremennye Informatsionnye Tekhnologii i IT-Obrazovanie, 14(3), 521–532.*

Mr. Emmanuel Onah | Biomedical Engineering | Best Researcher Award

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Mr. Emmanuel Onah | Biomedical Engineering | Best Researcher Award

Mr. Emmanuel Onah | Southern Illinois University | United States

Mr. Emmanuel Onah is a highly accomplished biomedical scientist and pharmaceutical researcher currently pursuing a Ph.D. in Biomedical Sciences with a concentration in Medicinal Chemistry at Southern Illinois University System. He holds a B. Pharm degree from the University of Nigeria, Nsukka, graduating with distinctions. His research expertise spans computational drug discovery, molecular modeling, pharmacognosy, and medicinal chemistry, with a strong focus on applying machine learning and in silico techniques to address biomedical challenges. Notably, he developed an innovative system to predict HIV-1 protease cleavage sites using hybrid machine learning classifiers, significantly accelerating the identification of novel protease inhibitors. He has also constructed predictive models for thyroid cancer recurrence and collaborated with leading medicinal chemists on molecular docking, pharmacophore modeling, and virtual screening of synthetic and natural compounds. His internship at the National Institute for Pharmaceutical Research and Development involved evaluating pharmaceutical formulations, assessing antimicrobial activity of plant extracts, and exploring hematinic properties of medicinal plants. As an undergraduate, he conducted in silico docking of FDA-approved drugs against antipsoriatic targets and synthesized pharmaceutical dyes characterized via UV-Vis spectroscopy. With 18 publications cited 192 times and an h-index of 7, Mr. Onah demonstrates a strong commitment to advancing medicinal chemistry and translational biomedical research.

Profile: Scopus | Orcid

Featured Publications

Onah, E., Ibezim, A., Osigwe, S. C., Okoroafor, P. U., Ukoha, O. P., de Siqueira-Neto, J. L., Ntie-Kang, F., & Ramanathan, K. (2024). Potential dual inhibitors of hexokinases and mitochondrial complex I discovered through machine learning approach. Scientific African.

Onah, E., Eze, U. J., Abdulraheem, A. S., Ezigbo, U. G., & Amorha, K. C. (2024, September 26). Optimizing unsupervised feature engineering and predictive models for thyroid cancer recurrence prediction [Preprint]. Crossref.

Ibezim, A., Onah, E., Osigwe, S. C., Okoroafor, P. U., Ukoha, O. P., de Siqueira-Neto, J. L., Ntie-Kang, F., & Ramanathan, K. (2023). Potential dual inhibitors of hexokinases and mitochondrial complex I discovered through machine learning approach [SSRN].

Onah, E., Uzor, P. F., Ugwoke, I. C., Eze, J. U., Ugwuanyi, S. T., Chukwudi, I. R., & Ibezim, A. (2022). Prediction of HIV-1 protease cleavage site from octapeptide sequence information using selected classifiers and hybrid descriptors. BMC Bioinformatics.

Onah, E., Uzor, P. F., Ugwoke, I. C., Eze, J. U., Ugwuanyi, S. T., Chukwudi, I. R., & Ibezim, A. (2022). Prediction of HIV-1 protease cleavage site from octapeptide sequence information using selected classifiers and hybrid descriptors [Preprint]. Research Square.

Ibezim, A., Onah, E., Dim, E. N., & Ntie-Kang, F. (2021). A computational multi-targeting approach for drug repositioning for psoriasis treatment. BMC Complementary Medicine and Therapies.