Thomas G. Wiedemann | Robotic Implant Surgeryy | Best Researcher Award

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Best Researcher Award

Thomas G. Wiedemann – New York University

Thomas G. Wiedemann
Affiliation New York University
Country United States
Scopus ID 59006342000
Documents 25
Citations 25
h-index 2
Subject Area Robotic Implant Surgery
Event World Top Scientist Awards

The Best Researcher Award recognizes outstanding scholarly contributions in advanced medical technologies, particularly within robotic implant surgery. Thomas G. Wiedemann, affiliated with New York University, has demonstrated consistent research engagement in emerging surgical methodologies and digital dentistry innovations. His work reflects a combination of clinical application and technological advancement within oral healthcare systems. The award highlights measurable contributions in research output, citation metrics, and interdisciplinary collaboration across dental and surgical sciences [1].

Abstract

This article presents an academic overview of Thomas G. Wiedemann’s research achievements within robotic implant surgery and digital dental innovation. His work addresses precision enhancement, artificial intelligence integration, and clinical workflow optimization in implantology. Through peer-reviewed publications and interdisciplinary collaboration, Wiedemann contributes to bridging the gap between surgical accuracy and technological reliability. The recognition under the Best Researcher Award reflects scholarly merit and growing influence in modern prosthodontics [2].

Keywords

Robotic Implant Surgery, Digital Dentistry, Artificial Intelligence, Prosthodontics, Clinical Innovation, Surgical Accuracy, Dental Imaging, Research Impact

Introduction

Recent advancements in robotic-assisted surgery have transformed dental implantology by introducing precision-driven workflows and automation. Researchers such as Thomas G. Wiedemann contribute to expanding these capabilities through evidence-based clinical studies and technological integration. His work emphasizes the importance of aligning surgical accuracy with reproducibility and patient outcomes. These developments reflect broader trends in healthcare innovation supported by artificial intelligence and digital imaging techniques [3].

Research Profile

Thomas G. Wiedemann’s research profile is characterized by consistent contributions in implant dentistry and surgical robotics. With a Scopus-indexed record of publications and citations, his work spans clinical case studies, narrative reviews, and applied sciences research. His affiliation with New York University supports interdisciplinary collaboration and academic dissemination. His scholarly metrics demonstrate early-stage impact within a specialized domain of dental research [1].

Research Contributions

Wiedemann’s contributions include advancements in robot-assisted implant placement, evaluation of surgeon-robot interaction, and integration of AI-based imaging systems. His research explores clinical precision and workflow optimization using digital tools. These contributions enhance surgical predictability and reduce procedural variability. His work aligns with emerging trends in data-driven healthcare and personalized treatment planning [4].

Publications

His publications include narrative reviews, clinical case reports, and experimental research in prosthodontics and implant surgery. Notable works address robotic accuracy, imaging distortion, and AI-driven workflows in dentistry. These studies contribute to academic literature and clinical practice improvements. His research output continues to evolve alongside technological advancements in dental sciences [4].

Research Impact

The research impact of Wiedemann is reflected through citation metrics, collaborative publications, and clinical applicability. His work contributes to improving surgical outcomes and advancing digital dentistry frameworks. Although still developing in citation volume, his research demonstrates potential for long-term academic relevance. The integration of robotics and AI positions his work within a transformative phase of dental innovation [2].

Award Suitability

The Best Researcher Award evaluates originality, research output, and academic contribution within a specialized domain. Wiedemann’s work meets these criteria through interdisciplinary research and clinical innovation. His contributions to robotic implant surgery align with global advancements in healthcare technology. The recognition supports continued research development and academic engagement within the scientific community [3].

Conclusion

Thomas G. Wiedemann’s academic contributions highlight the intersection of robotics, dentistry, and artificial intelligence. His work demonstrates the evolving nature of implant surgery and its reliance on precision technologies. Recognition through the Best Researcher Award underscores his role in advancing dental science. Continued research is expected to further strengthen his academic and clinical impact in the field [4].

References

    1. Elsevier. (n.d.). Scopus author details: Thomas G. Wiedemann, Author ID 59006342000. Scopus.
      https://www.scopus.com/authid/detail.uri?authorId=59006342000
    2. Kim, Y.K., et al. (2026). Geometric Distortion in Dental Imaging. Applied Sciences, 16(10), 4997.
      https://doi.org/10.3390/app16104997
    3. Alnatsheh, S., Espinal, C., Ardila, J., Choi, Y., Talib, H., Wiedemann, T., & Kim, Y.K. (2026).
      Prosthetic-surgical integration and robot-assisted implant placement for maxillary anterior fixed rehabilitation in the predoctoral clinic: A case report. https://doi.org/10.1111/jopr.70146
    4. Wiedemann, T. (2026). Atraumatic implant explantation: identifying when, why, and how to remove failing dental implants.
      https://www.researchgate.net/publication/400829966_Atraumatic_implant_explantation_identifying_when_why_and_how_to_remove_failing_dental_implants

Paul Nahas | Dentistry | Best Researcher Award

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Assoc. Prof. Dr. Paul Nahas | Dentistry | Best Researcher Award

Paul Nahas | Lebanese University | Lebanon

Assoc. Prof. Dr. Paul Nahas is a distinguished academic and researcher in the field of restorative dentistry and dental materials science, recognized for his contributions to clinical innovation, dental education, and applied research. His scholarly work encompasses 13 publications with over 90 citations and an h-index of 6, reflecting a sustained commitment to advancing scientific knowledge and improving clinical outcomes. Dr. Nahas’s research primarily focuses on adhesive dentistry, laser applications in operative dentistry, and the development of novel biomaterials, including his patented biocement derived from natural polysaccharides and proteins for dental use. His inventive approach has earned multiple international awards for innovation and excellence, underscoring his capacity to translate scientific research into practical, high-impact solutions. Beyond research, he has made significant contributions to academic mentorship, directing numerous postgraduate theses and serving on national and international examination juries. His active participation as a reviewer in peer-reviewed journals and as a collaborator with European research institutions further demonstrates his engagement in global academic exchange. Dr. Nahas’s expertise extends to digital dentistry, 3D printing applications, and the integration of laser and CAD/CAM technologies in restorative procedures, reflecting a forward-looking approach to clinical practice and education. His interdisciplinary orientation bridges the gap between scientific research, technology, and patient-centered care. Through his dedication to innovation, teaching, and professional development, Dr. Nahas has contributed to the enhancement of dental education standards and the advancement of restorative and conservative dentistry. His ongoing work continues to influence emerging trends in dental materials research, laser-assisted therapies, and digital workflow integration, reinforcing his role as a leading figure committed to scientific progress and sustainable advancement in the field of modern dentistry.

Profiles: Scopus

Featured Publications

1. P. Nahas, “Microscopic and Crystallographic Analysis of Increased Acid Resistance of Melted Dental Enamel Using 445 nm Diode Laser: An Ex-Vivo Study,” Dentistry Journal, 2025.

Dr. Paul Nahas’s work bridges advanced dental research and clinical innovation by developing novel biomaterials, laser-based treatment techniques, and digital dentistry applications. His contributions enhance patient care, promote sustainable dental practices, and advance global innovation in restorative and conservative dentistry.

Pedro Abreu Sánchez | Dentistry | Best Researcher Award

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Dr. Pedro Abreu Sánchez | Dentistry | Best Researcher Award

Facultativo Especialista en Medicina Nuclear, Servicio de Medicina Nuclear Hospital Universitario Dr. Peset (Valencia), Spain

Pedro Abreu Sánchez is a distinguished specialist in Nuclear Medicine, renowned for his extensive experience in public and private healthcare settings. With over 20 years in the field and a notable academic career, he is recognized for his expertise in radioguided surgery and diagnostic imaging. Dr. Abreu’s commitment to education and research, combined with his roles in various professional committees, highlights his significant contributions to the advancement of nuclear medicine.

Profile

Scopus

Research for Best Researcher Award Evaluation: Pedro Abreu Sánchez

Strengths for the Award

  1. Extensive Experience in Medicine and Nuclear Medicine:
    • Pedro Abreu Sánchez has over 20 years of experience in public healthcare and 9 years in private healthcare, showcasing a strong professional background in nuclear medicine.
  2. Academic Achievements:
    • He holds a Doctor “Cum Laude” in Medicine and Surgery from the Universitat de València, indicating high academic excellence.
    • He also possesses a Diploma de Estudios Avanzados, further solidifying his academic credentials.
  3. Teaching and Mentorship:
    • Pedro is actively involved in teaching as a professor and tutor, contributing to the education of future medical professionals. This role highlights his dedication to knowledge dissemination and mentorship.
  4. Research Involvement:
    • He has served as the principal investigator and adjunct investigator in significant research projects such as Polisabio “IEPET-er” and “Calysap Fénix”.
    • Pedro has contributed to over 80 scientific publications and more than 50 conference communications, demonstrating prolific research output and active engagement in scientific discourse.
  5. Professional Memberships and Roles:
    • His membership in various professional committees and groups, such as SEMNIM and the Fundación FISABIO, indicates his active participation and leadership in the medical and scientific communities.
    • His role in the Comisión Nacional de la especialidad de medicina nuclear of the Ministry of Health, Equality and Social Affairs of Spain underscores his influence and recognition in the field.

Areas for Improvement

  1. Broader International Collaboration:
    • While Pedro has a strong national presence, increased collaboration with international researchers and participation in global projects could enhance his research impact and visibility.
  2. Interdisciplinary Research:
    • Expanding his research to include more interdisciplinary projects could further enrich his work and open new avenues for innovation and application of nuclear medicine.
  3. Grant Acquisition:
    • Proactively seeking and securing more research grants could bolster his research capabilities and allow for larger, more ambitious projects.
  4. Publication in High-Impact Journals:
    • While he has a substantial number of publications, focusing on publishing in higher-impact journals could increase the visibility and influence of his research findings.

Education 🎓

  • Doctorate in Medicine and Surgery (2023)
    • Institution: Universitat de València
    • Thesis Title: “Eficacia y eficiencia de la Cirugía radioguiada en el hiperparatiroidismo primario: revisión de las diferentes técnicas disponibles”
  • Diploma of Advanced Studies (DEA) (2017)
    • Institution: Universitat de València
  • Licentiate in Medicine and Surgery (1997)
    • Institution: Universitat de València

Experience 💼

  • Professor Assistencial Docente (2018-Present)
    • Institution: Universitat de València, Departament de Medicina, Facultat de Medicina y Cirugia
    • Responsibilities: Responsible for and teaching hospital practices in the Clinical Radiology course for 4th-year medical students
  • Facultativo Especialista (2002-Present)
    • Institution: Hospital Universitario Dr. Peset
    • Responsibilities: Diagnosis, treatment, and research using radiopharmaceuticals
  • Facultativo Especialista en Medicina Nuclear (2002-2011)
    • Institution: VIAMEDIC
  • Médico Interno Residente (1998-2002)
    • Institution: Hospital Universitario Doctor Peset

Research Interests 🔬

Dr. Abreu’s research focuses on the efficacy and efficiency of radioguided surgery, particularly in primary hyperparathyroidism, and the application of diagnostic imaging techniques. He is deeply involved in advancing methodologies for radioguided surgeries and exploring the clinical relevance of imaging in various medical conditions.

Awards 🏆

Pedro Abreu Sánchez has been recognized for his contributions to nuclear medicine and radioguided surgery. His accolades include various awards and grants supporting his research and clinical practice, affirming his standing as a leading expert in his field.

Publications Top Notes 📚

  1. Goñi-Gironés, E., Fuertes-Cabero, S., Blanco-Sáiz, I., Díaz-Expósito, R., Vidal-Sicart, S., Abreu Sánchez, P. (2021). Eficacia y eficiencia de la Cirugía radioguiada en el hiperparatiroidismo primario: revisión de las diferentes técnicas disponibles. Revista Española de Medicina Nuclear e Imagen Molecular, 40(1), pp. 57–66. Link
    • Cited by: Salvador García, J., Abreu Sánchez, P., Delgado Cordón, F., Cueto Cañadas, B., Latorre Agraz, I. (2018). Utility of diagnostic imaging in the diagnosis of extra adrenal myelolipoma. Revista Española de Medicina Nuclear e Imagen Molecular, 37(6), pp. 395–396.
  2. Salvador García, J., Abreu Sánchez, P., Delgado Cordón, F., Cueto Cañadas, B., Latorre Agraz, I. (2018). Utility of diagnostic imaging in the diagnosis of extra adrenal myelolipoma. Revista Española de Medicina Nuclear e Imagen Molecular, 37(6), pp. 395–396. Link
    • Cited by: Frontado-Morales, L., Martinez-Sanchis, B., Sanchez-Vaño, R., Abreu Sánchez, P., Reyes-Ojeda, M.D. (2012). Radioguided cervical lymphadenectomy in one case of recurrence of differentiated thyroid microcarcinoma. Revista Española de Medicina Nuclear e Imagen Molecular, 31(2), pp. 106–107.
  3. Frontado-Morales, L., Martinez-Sanchis, B., Sanchez-Vaño, R., Abreu Sánchez, P., Reyes-Ojeda, M.D. (2012). Radioguided cervical lymphadenectomy in one case of recurrence of differentiated thyroid microcarcinoma. Revista Española de Medicina Nuclear e Imagen Molecular, 31(2), pp. 106–107. Link
    • Cited by: Plancha-Mansanet, M.C., Félix-Fontestad, J., Caballero-Calabuig, E., Sopena-Novales, P., Martínez-Sanchís, B. (2010). Effect of transport temperature on the scantibodies total intact parathyroid hormone immunoradiometric assay using the RIAMAT-280. Annals of Clinical Biochemistry, 47(2), pp. 174–176.
  4. Plancha-Mansanet, M.C., Félix-Fontestad, J., Caballero-Calabuig, E., Sopena-Novales, P., Martínez-Sanchís, B. (2010). Effect of transport temperature on the scantibodies total intact parathyroid hormone immunoradiometric assay using the RIAMAT-280. Annals of Clinical Biochemistry, 47(2), pp. 174–176. Link

Conclusion

Pedro Abreu Sánchez is a highly qualified candidate for the Best Researcher Award, given his extensive experience, academic achievements, significant research contributions, and active engagement in teaching and professional communities. His dedication to nuclear medicine, demonstrated through both his clinical work and research, makes him a strong contender for the award. By expanding his international collaborations, engaging in more interdisciplinary research, securing additional grants, and targeting high-impact journals for publication, he can further enhance his impressive profile and research impact.

 

Ning Zhang | Dentistry | Best Researcher Award

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Prof. Ning Zhang | Dentistry | Best Researcher Award

Professor, Department of Orthodontics, School of Stomatology, Capital Medical University, Beijing, China

Dr. Ning Zhang is a distinguished professor in the Department of Orthodontics at Capital Medical University, School of Stomatology, located in Beijing, PR China. With an extensive career in dental research and education, Dr. Zhang has significantly contributed to the field of orthodontics. As the director of the Science and Technology department at the same institution, he oversees various innovative research projects and technological advancements in dentistry. His prolific academic career includes over 100 published papers in reputed journals, reflecting his commitment to advancing dental science.

Profile :

Dr. Ning Zhang ORCID Profile

Education 🎓

Dr. Zhang obtained his PhD from Capital Medical University, School of Dentistry, in 2011. Following his doctoral studies, he completed a postdoctoral fellowship at the University of Maryland School of Dentistry in 2013. This rigorous academic background has provided him with a solid foundation in dental research and clinical practice, enabling him to contribute significantly to the field of orthodontics.

Experience 🏅

Dr. Zhang has held several key positions throughout his career. He currently serves as a professor and the director of the Science and Technology department at Capital Medical University’s School of Stomatology. His role involves leading research initiatives, mentoring students, and contributing to the academic community through his extensive publications. His experience includes over a decade of teaching, research, and clinical practice, making him a respected figure in orthodontics.

Research Interests 🔬

Dr. Zhang’s research interests are primarily focused on antibacterial, protein-repellent, and remineralization dental materials, as well as thermoplastic materials. His work aims to develop advanced dental materials that improve oral health outcomes and patient care. His research is driven by the need for innovative solutions in dental materials to combat common dental problems and enhance the effectiveness of orthodontic treatments.

Awards 🏆

Throughout his career, Dr. Zhang has been recognized for his contributions to dental research and education. His awards and honors reflect his dedication to the field and his impact on advancing dental science. These accolades highlight his role as a leading researcher and educator in orthodontics, acknowledging his efforts to improve dental materials and technologies.

Selected Publications:

  1. Ma, C., Hao, S., Yu, W., Xu, F., & Yang, J. (2024). “Compliant and breathable electrospun epidermal electrode towards artifact-free electrophysiological monitoring.” Chemical Engineering Journal, 490, 151118.
  2. Bian, C., Guo, Y., Zhu, M., Bai, Y., & Zhang, N. (2024). “New generation of orthodontic devices and materials with bioactive capacities to improve enamel demineralization.” Journal of Dentistry, 142, 104844.
  3. Bian, C., Bai, Y., & Zhang, N. (2024). “Adult female skeletal anterior open bite treated by customized lingual orthodontic appliance with miniscrews-assisted in vertical control for perfect orthodontic compensation: A case report with 5-year follow-up.” International Orthodontics, 22(1), 100820.
  4. Zhu, M., Yang, P., Bian, C., Bai, Y., & Zhang, N. (2024). “Convolutional neural network-assisted diagnosis of midpalatal suture maturation stage in cone-beam computed tomography.” Journal of Dentistry, 141, 104808.
  5. Zhao, Z., Sun, Y., Qiao, Q., Bai, Y., & Xu, H. (2023). “Calvaria defect regeneration via human periodontal ligament stem cells and prevascularized scaffolds in athymic rats.” Journal of Dentistry, 138, 104690.