Lukas Prantl | Medicine and Dentistry | Best Researcher Award

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Prof. Dr. Lukas Prantl | Medicine and Dentistry | Best Researcher Award

Applied Stem Cell Research Center at Universität Regensburg | Germany

Prof. Dr. Lukas Prantl is an accomplished academic leader and internationally recognized expert in plastic, aesthetic, and reconstructive surgery, currently serving at the University of Regensburg, Germany. His career reflects a strong blend of clinical innovation, academic excellence, and translational research impact. Educated in medicine and advanced surgical sciences across prestigious European institutions, he holds dual doctoral degrees and a master’s in health business administration, which support his interdisciplinary approach to healthcare leadership. Throughout his professional journey, he has established and directed advanced centers dedicated to plastic, hand, and reconstructive surgery, as well as the Applied Stem Cell Research Center, fostering groundbreaking research in regenerative medicine. His scientific interests focus on adipose-derived stem cells, tissue regeneration, microcirculation, and innovative reconstructive techniques that integrate stem cell technology into clinical applications. Among his notable contributions is the development of the Cell Enriched Lipotransfer method, a pioneering advancement that enhances the success rate of fat grafting and tissue restoration. His prolific academic record includes 412 peer-reviewed publications, 7,550 citations from 6,310 documents, and an h-index of 40, reflecting the global impact and recognition of his research. Beyond his scientific achievements, he has held leadership positions in major national and international surgical societies, contributing to the advancement of standards, education, and ethics in surgery. As an editor and reviewer for leading medical journals and funding bodies, his expertise continues to guide the development of innovative research and surgical techniques worldwide. His commitment to academic mentorship and the integration of evidence-based medicine into practice has shaped new generations of clinicians and researchers. Through his exceptional contributions to clinical excellence, scientific discovery, and institutional leadership, Prof. Dr. Lukas Prantl stands as a driving force in shaping the future of regenerative and reconstructive medicine, continually pushing the boundaries of surgical science and patient-centered innovation.

Profile: Scopus | Orcid | Google Scholar

Featured Publications:

  • Chrobot, N., Unbehaun, P., Frank, K., Hartmann, Prantl, L. (2025). Smartphone-based 3D surface imaging: A new frontier in digital breast assessment? Journal of Clinical Medicine.

  • Neuwieser, H., Jami, N. V. S., Meier, Prantl, L. (2025). Interpreting venous and arterial ulcer images through the Grad-CAM lens: Insights and implications in CNN-based wound image classification. Diagnostics.

  • Schimanski, T., Scheel-Platz, Prantl, L. (2025). CELT Fat increases the metabolic activity as well as the SVF-yield significantly when compared to CELT fat, even after cryopreservation with DMSO. Cells.

  • Loucas, R., Loucas, Prantl, L. (2025). Histology and immunohistochemistry of adipose tissue: A scoping review on staining methods and their informative value.

  • Diesch, S., Frank, K., Brebant, Prantl, L. (2025). Subject-reported satisfaction after cell-enriched lipotransfer (CELT) for lip augmentation. Aesthetic Plastic Surgery.

  • Biermann, N., Eibl, D., Mueller, Prantl, L. (2024). Biomarker-guided acute kidney injury risk assessment under liberal versus restrictive fluid therapy–the prospective-randomized MAYDAY-trial.

  • Zocchi, M.Prantl, L. (2024). Potential benefits of adipose-derived SVF and MSCs to regenerate damaged tissues from alloplastic synthetic materials.

  • Kuehlmann, B., Bonham, C. Gurtner,Prantl, L. (2023). MMP9 as a potential biomarker in human implant-induced fibrotic capsules: A systematic analysis and biomarker study.

  • Knoedler, L., Odenthal, J. F., Prantl, Knoedler, S. A. (2023). Artificial Intelligence-Enabled simulation of gluteal augmentation: A helpful tool in preoperative outcome simulation.

  • Diesch, S., Anders, M., Prantl, Brébant, V. (2023). Factors influencing the shape, size, symmetry and scar of the nipple-areola complex after bilateral reduction mammoplasty.

Jiang Haoran | Tissue Engineering | Best Researcher Award

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Dr. Jiang Haoran | Tissue Engineering | Best Researcher Award

Doctoral candidate at Department of Orthopedics and Trauma, Peking University People’s Hospital, China.

Dr. Haoran Jiang 🎓 is a dedicated researcher in the field of tissue engineering 🧬, currently pursuing his doctorate at Peking University 🏛️ and affiliated with the Department of Orthopedics and Trauma at Peking University People’s Hospital 🏥. His groundbreaking research focuses on the therapeutic potential of nano-sustained-release factors for bone scaffolds 🦴, addressing key clinical challenges such as insufficient bioactivity in biomedical implants. Dr. Jiang’s work has been featured in reputed scientific journals 📘 and demonstrates a strong commitment to improving orthopedic treatment outcomes through innovative nanomaterial-based approaches ⚗️🔬.

Professional Profile:

ORCID

Suitability for Best Researcher Award – Dr. Haoran Jiang

Dr. Haoran Jiang is a highly deserving candidate for the Best Researcher Award due to his pioneering research in tissue engineering and nanotechnology. His work on developing nano-sustained-release bone scaffolds has the potential to significantly enhance the effectiveness of orthopedic implants, a field that addresses critical challenges in patient recovery and treatment outcomes. Dr. Jiang’s strong academic foundation, innovative contributions to biomaterials, and demonstrated ability to bridge basic science with clinical applications make him an outstanding researcher.

🎓 Education and Experience

  • 🎓 Doctoral Candidate at Peking University, China

  • 🏥 Researcher at the Department of Orthopedics and Trauma, Peking University People’s Hospital

  • 🔬 Conducting research on nano-sustained-release bone scaffolds for therapeutic applications

  • 📘 Published in Journal of Functional Biomaterials (SCI/Scopus Indexed)

  • 🧪 Involved in industry-relevant project: Mesoporous Nanomaterials for Bone Tissue Engineering

🚀 Professional Development

Dr. Haoran Jiang has demonstrated strong professional growth through his focus on translational biomedical research 🧬 that bridges fundamental science with clinical applications 🏥. His work on nano-sustained-release scaffolds ⚗️ addresses real-world problems in orthopedics, offering innovative strategies to improve the performance of bone implants 🦴. Publishing in reputable journals 📄 and contributing to key projects, he showcases a proactive approach in research development. Dr. Jiang is committed to exploring clinically adaptable solutions that can meet regulatory standards and enhance patient recovery outcomes 💉. His ongoing pursuit of excellence reflects his potential to become a leading voice in tissue engineering 🧠.

🔍 Research Focus Category

Dr. Jiang’s research lies at the intersection of tissue engineering, nanotechnology, and regenerative medicine 🧬🦠. His core focus is on the design and development of bone scaffolds integrated with nano-sustained-release systems for efficient delivery of therapeutic agents 💊. This category of research addresses unmet clinical needs in orthopedic treatments 🦴 by enhancing scaffold bioactivity and healing efficacy. With a particular emphasis on biocompatibility and clinical translation, his work seeks to optimize commonly used biomaterials to overcome current limitations in medical implants 🧪. The research is innovative, application-driven, and aims to bridge the lab-to-clinic gap in healthcare delivery 🏥🔬.

🏅 Awards and Honors

  • 🏅 First-author publication in Journal of Functional Biomaterials (2025)

  • 🧠 Recognized for innovative contributions in tissue engineering and orthopedic nanomedicine

  • 🧾 Listed in ORCID registry for global academic visibility

  • 📘 Publication indexed in SCI and Scopus, validating research excellence

Publication Top Notes

📄 Therapeutic Potential of Nano-Sustained-Release Factors for Bone Scaffolds

Conclusion

Dr. Haoran Jiang’s innovative contributions to tissue engineering and regenerative medicine solidify his candidacy for the Best Researcher Award. His research is not only groundbreaking in the scientific community but is also poised to make a lasting impact on clinical orthopedic treatments, bridging the gap between laboratory research and patient care. His dedication to advancing nanotechnology-based solutions for bone scaffolds places him at the forefront of this rapidly advancing field.