Yury Kustov | Medicine and Health Sciences | Best Researcher Award

Published on by Forensic Scientist Awards

Best Researcher Award

Yury Kustov
Peoples’ Friendship University of Russia
Yury Kustov
Affiliation Peoples’ Friendship University of Russia
Country Russia
Scopus ID 58987836800
Documents 5
Citations 4
h-index 1
Subject Area Medicine and Health Sciences
Event International Forensic Scientist Awards
ORCID 0009-0002-4859-4322

Yury Kustov is a researcher affiliated with the Peoples’ Friendship University of Russia whose scholarly work focuses on medicine, pharmacovigilance, drug safety, pulmonary fibrosis, and clinical pharmacology. His recent publications examine adverse drug reactions, pediatric pharmacotherapy, pulmonary complications, and systematic reviews related to pharmacokinetics and post-COVID-19 outcomes. Through contributions indexed in Scopus, Kustov has participated in interdisciplinary investigations concerning patient safety and evidence-based medical analysis.[1] His profile reflects active engagement in healthcare-related research areas associated with pharmacological monitoring and clinical risk assessment.[2]

Abstract

The academic contributions of Yury Kustov are associated with contemporary clinical medicine and pharmacovigilance research. His published studies explore adverse drug reactions, pulmonary fibrosis, antibiotic safety, and pediatric therapeutic outcomes. Several investigations emphasize spontaneous report database analysis and systematic reviews in order to improve healthcare monitoring and pharmacological safety standards.[3] These contributions support broader scientific discussions regarding medication-related complications and patient-centered clinical evaluation.

Keywords

Pharmacovigilance, Clinical Pharmacology, Pulmonary Fibrosis, Pediatric Medicine, Drug Safety, Post-COVID Research, Pharmacokinetics, Medicine and Health Sciences.

Introduction

The advancement of modern healthcare increasingly depends on pharmacological safety assessment and evidence-based therapeutic monitoring. Researchers involved in pharmacovigilance contribute to the identification of adverse reactions and clinical complications linked to pharmaceutical interventions. Yury Kustov has participated in this research landscape through studies addressing antibacterial drug reactions, pulmonary fibrosis, and pediatric medicine.[4] His publications demonstrate engagement with healthcare datasets and clinical literature reviews that contribute to scientific understanding of treatment-related risks.

Research Profile

Kustov’s academic profile includes journal articles and conference publications indexed through Scopus and related scholarly databases. His research areas include pharmacokinetics in chronic heart failure, pulmonary fibrosis associated with pharmacotherapy, and pediatric antibacterial drug safety. The researcher has also examined Stevens–Johnson syndrome and toxic epidermal necrolysis using spontaneous reporting systems.[5] These studies align with medical efforts to improve treatment evaluation and patient safety methodologies.

Research Contributions

  • Analysis of fluoroquinolone safety in pediatric populations through pharmacovigilance database studies.
  • Systematic review research concerning pharmacokinetic alterations in chronic heart failure patients.
  • Investigations into pulmonary fibrosis and post-COVID-19 pharmacotherapy outcomes.
  • Evaluation of spontaneous adverse drug reaction reports linked to antibacterial medications.

Publications

  • “Safety of fluoroquinolones in pediatric patients: Pharmacovigilance database analysis”
  • “Pharmacokinetic Alterations in Patients with Chronic Heart Failure: A Systematic Review”
  • “Drug-Induced Pulmonary Fibrosis: National Database Analysis”

Research Impact

The research contributions of Yury Kustov demonstrate relevance to healthcare monitoring, medication safety assessment, and evidence-based pharmacology. By utilizing systematic reviews and spontaneous report analyses, his studies contribute to discussions surrounding adverse drug reaction surveillance and therapeutic evaluation. Such research supports clinicians, pharmacologists, and healthcare researchers seeking to understand treatment-related complications in vulnerable patient populations.

Award Suitability

Yury Kustov’s publication record and involvement in pharmacovigilance-related medical studies align with the objectives of the International Forensic Scientist Awards. His focus on drug safety analysis, pulmonary complications, and healthcare risk assessment reflects scholarly engagement with medically significant challenges. The integration of database-driven clinical analysis and systematic review methodologies further demonstrates research activity associated with modern healthcare science and patient protection initiatives.

Conclusion

Yury Kustov has contributed to medicine and health sciences through publications examining pharmacovigilance, pulmonary fibrosis, clinical pharmacology, and pediatric drug safety. His academic profile reflects ongoing participation in evidence-based medical research and healthcare monitoring studies. Through indexed scholarly outputs and DOI-linked publications, his work contributes to the broader scientific understanding of pharmaceutical safety and patient-centered clinical investigation.

References

  1. Elsevier. (n.d.). Scopus author details: Yury Kustov, Author ID 58987836800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=58987836800
  2. ORCID. (n.d.). Yury Kustov ORCID profile.
    https://orcid.org/0009-0002-4859-4322
  3. Kustov, Y. (2026). Safety of fluoroquinolones in pediatric patients: Pharmacovigilance database analysis.
    https://doi.org/10.1177/09246479251398995
  4. Kustov, Y. (2025). Pharmacokinetic Alterations in Patients with Chronic Heart Failure: A Systematic Review.
    https://doi.org/10.3390/ijms26199495
  5. Kustov, Y. (2024). Drug-Induced Pulmonary Fibrosis: National Database Analysis.
    https://doi.org/10.3390/biomedicines12122650

Hong Zhang | Medicine and Health Sciences | Innovative Research Award

Published on by Forensic Scientist Awards

Innovative Research Award

Hong Zhang
University of Texas Southwestern Medical Center, United States
Hong Zhang
Affiliation University of Texas Southwestern Medical Center
Country United States
Scopus ID 57192482890
Documents 28
Citations 550
h-index 13
Subject Area Medicine and Health Sciences
Event International Forensic Scientist Awards
ORCID 0000-0003-3056-0343

Hong Zhang, is an orthopedic surgeon, biomedical innovator, and musculoskeletal research specialist affiliated with the University of Texas Southwestern Medical Center and Texas Scottish Rite Hospital for Children in Dallas, Texas. His research activities focus primarily on pediatric spinal deformities, growth modulation, spinal instrumentation development, scoliosis correction technologies, and minimally invasive spinal surgery. Through a combination of clinical orthopedic expertise and translational biomedical engineering, Zhang has contributed to the development of novel surgical systems and patented technologies intended to improve the treatment of severe spinal deformities and early-onset scoliosis.[1]

As Director of the Division of Creative Innovations within the Seay Center for Musculoskeletal Research, Zhang has overseen multidisciplinary investigations involving experimental spine biomechanics, orthopedic implant design, pediatric spine growth modulation, and surgical correction strategies. His publication record, citation metrics, and patent portfolio demonstrate sustained scholarly engagement in orthopedic research and spinal deformity innovation.[2]

Abstract

Hong Zhang is recognized for contributions to orthopedic surgery research, spinal deformity correction technologies, and pediatric musculoskeletal innovation. His work has focused on improving surgical outcomes for severe scoliosis and kyphosis through biomechanical research, implant design, and translational clinical investigations. Zhang has also contributed to orthopedic device development through multiple United States patents related to spinal correction systems and stabilization technologies.[3] His scholarly publications in journals such as Spine Deformity, European Spine Journal, and Seminars in Spine Surgery highlight continued engagement in experimental spine research and orthopedic innovation.[4]

Keywords

Orthopedic Surgery, Pediatric Scoliosis, Spinal Deformity, Spine Research, Musculoskeletal Innovation, Early-Onset Scoliosis, Orthopedic Instrumentation, Growth Modulation, Biomedical Engineering, Pediatric Orthopedics

Introduction

The field of pediatric spinal deformity research requires coordinated advances in biomechanics, surgical techniques, implant engineering, and long-term clinical evaluation. Hong Zhang has contributed to this interdisciplinary area through research addressing early-onset scoliosis, thoracic deformities, vertebral correction systems, and growth-preserving spinal interventions. His investigations combine experimental orthopedic science with clinically applicable instrumentation design.[5]

Zhang obtained his medical degree from Tianjin Medical University in China and completed orthopedic surgery training at Tianjin Hospital before undertaking international orthopedic research and clinical scholarship programs in Italy and the United States. Since joining the University of Texas Southwestern Medical Center and Texas Scottish Rite Hospital for Children, he has participated in numerous collaborative orthopedic research initiatives focused on pediatric spine disorders and surgical innovation.[6]

Research Profile

Hong Zhang currently serves as Director of the Division of Creative Innovations within the Center of Excellence in Spine Research at the Seay Center for Musculoskeletal Research, Texas Scottish Rite Hospital for Children, Dallas, Texas. He also holds the academic position of Associate Professor in the Department of Orthopaedic Surgery at the University of Texas Southwestern Medical Center.[1]

His research profile demonstrates sustained focus on pediatric spinal deformities, including early-onset scoliosis, thoracic kyphosis, spinal growth modulation systems, minimally invasive thoracoscopic procedures, and spinal instrumentation biomechanics. Zhang’s work frequently integrates engineering methodologies, experimental spine models, and translational orthopedic device development.[7]

  • Early-onset scoliosis and pediatric spine growth research
  • Orthopedic implant and spinal instrumentation development
  • Growth modulation systems for spinal correction
  • Biomechanical evaluation of spinal deformity devices
  • Experimental and translational musculoskeletal research
  • Minimally invasive spinal surgical technologies

Research Contributions

Zhang has contributed extensively to the development of innovative spinal correction systems intended for severe spinal deformities and pediatric scoliosis treatment. His patented orthopedic technologies include spinal rod reduction devices, pedicle screw systems, stabilization fasteners, and hinge-link spinal correction devices designed to improve alignment control and surgical correction efficiency.[8]

A significant component of his recent research involves the development of growth modulation systems using dynamic spinal correction approaches. Experimental investigations involving porcine models and three-dimensional simulation technologies have supported the evaluation of biomechanical effectiveness and safety profiles of novel correction systems.[9]

Zhang’s work on vertebral column resection systems and angular kyphosis reduction devices has also contributed to understanding correction strategies for severe thoracic spinal deformities. These studies have explored both implant mechanics and surgical feasibility in complex deformity correction procedures.[10]

  • Development of hinge-link spinal correction technologies
  • Novel uniplanar correction systems for angular kyphosis
  • Dynamic scoliosis correction and growth modulation research
  • Biomechanical studies of pediatric spinal instrumentation
  • Experimental orthopedic implant design and testing

Publications

Hong Zhang has authored and co-authored multiple peer-reviewed scientific publications addressing pediatric scoliosis, thoracic deformity correction, spine biomechanics, and orthopedic surgical technologies.[11]

  1. Zhang H, Lima JM, Jo CH, and Sucato DJ. The closing triradiate cartilage stage identifies accelerated curve progression in idiopathic scoliosis. Spine Deformity (2026).
  2. Zhang H, Ross D, and Sucato DJ. Evaluation of a novel angular kyphosis reduction device for vertebral column resection in severe angular kyphosis. European Journal of Orthopaedic Surgery & Traumatology (2026).
  3. Zhang H, Ross D, and Sucato DJ. A new uniplanar correction strategy for severe thoracic kyphosis: concept, device design, and simulation with a 3D-printed model. Spine Deformity (2026).
  4. Zhang H, Niese B, and Sucato DJ. Growth modulation and dynamic correction of early-onset thoracic scoliosis using a PEEK spring rib plate system: a porcine model study. Spine Deformity (2026).
  5. Brooks JT, Carron CJ, Zhang H, and Sucato DJ. Going anterior for the surgical management of pediatric scoliosis: Indications and technique pearls. Seminars in Spine Surgery (2025).

Research Impact

According to available Scopus metrics, Zhang has produced 28 indexed scholarly documents with approximately 550 citations and an h-index of 13, reflecting measurable academic influence within orthopedic surgery and musculoskeletal research communities.[1] His research output has contributed to the scientific understanding of pediatric spinal deformities, spinal growth dynamics, and orthopedic implant biomechanics.

His work has also received recognition through national and international awards, including the John H. Moe Award for Best Basic Science presented by the Scoliosis Research Society in both 2009 and 2010.[12] Additional grant support from organizations such as the Pediatric Orthopedic Society of North America and the Scoliosis Research Society further reflects the relevance of his investigations within pediatric orthopedic research.

Award Suitability

Hong Zhang’s academic profile aligns with the objectives of the Innovative Research Award due to his sustained contributions to orthopedic surgery innovation, spinal deformity correction technologies, and translational pediatric spine research. His work demonstrates interdisciplinary integration between clinical orthopedic practice, biomechanical engineering, and experimental medical device development.[8]

The combination of peer-reviewed publications, patented surgical systems, funded research projects, and international scientific recognition supports consideration of Zhang’s contributions within the field of medicine and health sciences. His focus on improving treatment strategies for complex pediatric spinal conditions reflects ongoing commitment to clinically relevant biomedical innovation.[10]

Conclusion

Hong Zhang has established a scholarly and clinical research profile centered on pediatric orthopedic innovation and spinal deformity correction. Through collaborative orthopedic research, patented instrumentation systems, and translational experimental studies, he has contributed to the advancement of spinal surgery technologies and pediatric musculoskeletal care. His publication history, research awards, and scientific contributions collectively support recognition within international academic and biomedical innovation platforms.[11]

References

  1. Elsevier. (n.d.). Scopus author details: Hong Zhang, Author ID 57192482890. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57192482890
  2. University of Texas Southwestern Medical Center. (n.d.). Faculty and research profile information for Hong Zhang.
  3. United States Patent and Trademark Office. (2010). Method for the Correction of Spinal Deformities Using Rod-Plate Anterior System.
  4. Springer Nature. (2026). Spine Deformity journal publications authored by Hong Zhang.
  5. Zhang H, Ross D, and Sucato DJ. (2026). Evaluation of a novel angular kyphosis reduction device for vertebral column resection in severe angular kyphosis.
    https://doi.org/10.1007/s00590-026-04778-y
  6. Texas Scottish Rite Hospital for Children. (n.d.). Seay Center for Musculoskeletal Research profile.
  7. Zhang H, Niese B, and Sucato DJ. (2026). Growth modulation and dynamic correction of early-onset thoracic scoliosis using a PEEK spring rib plate system.
    https://doi.org/10.1007/s43390-026-01284-3
  8. United States Patent and Trademark Office. (2023). Hinge-Link Spinal Correction Device and Method.
  9. Wang XB, Zhang H, and Sucato DJ. (2023). Unilateral thoracic spinal nerve resection creates early onset thoracic scoliosis in an immature porcine model.
    https://doi.org/10.1007/s00586-023-07804-3
  10. Zhang H, Ross D, and Sucato DJ. (2024). A Novel Uniplanar Clamp-Hinge Correction System for Vertebral Column Resection of Severe Angular Kyphosis.
    https://doi.org/10.1007/s43390-023-00770-2
  11. Elsevier. (n.d.). Publication and citation metrics for Hong Zhang in orthopedic research.
  12. Scoliosis Research Society. (2010). John H. Moe Award for Best Basic Science.

Anna Sójka-Makowska | Medicine and Health Sciences | Forensic Scientist of the Year Award

Published on by Forensic Scientist Awards

Forensic Scientist of the Year Award

Anna Sójka-Makowska
Poznan University of Medical Sciences, Poznan, Poland
Anna Sójka-Makowska
Affiliation Poznan University of Medical Sciences
Country Poland
Scopus ID 57196022239
Documents 5
Citations 165
h-index 5
Subject Area Medicine and Health Sciences
Event International Forensic Scientist Awards
ORCID 0000-0002-0193-0491

Anna Sójka-Makowska is associated with the Poznan University of Medical Sciences in Poland and has contributed to interdisciplinary clinical research involving temporomandibular disorders, neurophysiological diagnostics, dentistry, and related biomedical sciences. Her scholarly activities include investigations into temporomandibular dysfunctions, headache disorders, neuroendocrine biomarkers, and patient-centered therapeutic methodologies within modern dental and medical practice.[1] Her publication profile reflects continued academic engagement in diagnostic sciences and clinical assessment methodologies relevant to forensic and health-related research domains.[2]

Abstract

The professional activities of Anna Sójka-Makowska demonstrate sustained involvement in clinical and diagnostic investigations within dentistry and biomedical sciences. Her work has addressed temporomandibular disorders, neurophysiological examinations, headache-associated dysfunctions, and biomarker-oriented clinical studies. Through peer-reviewed publications and collaborative research projects, she has contributed to evidence-based methodologies that support patient diagnostics and interdisciplinary healthcare research.[3] The combination of clinical relevance and analytical rigor supports recognition within the framework of the Forensic Scientist of the Year Award.

Keywords

Temporomandibular Disorders, Dentistry, Neurophysiology, Biomarkers, Clinical Diagnostics, Prosthodontics, Oral Health Research, Forensic Medicine, Medical Sciences, Temporomandibular Joint Disorders.

Introduction

Research involving temporomandibular disorders and associated neurological or psychological conditions represents an important area within contemporary clinical medicine. Anna Sójka-Makowska has participated in studies examining the relationship between temporomandibular dysfunctions, headache disorders, stress-related conditions, and neuroendocrine biomarkers.[4] Her investigations have contributed to the understanding of diagnostic frameworks such as DC/TMD and related clinical assessment methodologies applied in patient-centered healthcare environments.[5]

The interdisciplinary nature of her research reflects collaboration across dentistry, neurology, behavioral sciences, and rehabilitation-oriented medicine. Such integration of clinical knowledge and analytical approaches aligns with the objectives of academic recognition programs focused on healthcare innovation and applied scientific contributions.

Research Profile

Anna Sójka-Makowska serves within the academic and clinical environment of Poznan University of Medical Sciences. Her research profile includes publications in journals related to craniofacial medicine, behavioral sciences, prosthodontics, and neurophysiology. She has participated in investigations concerning temporomandibular disorders among adolescents and adults, clinical examination protocols, patient satisfaction in prosthodontic treatment, and biomarker studies associated with neurological conditions.[6]

According to indexed academic records, her Scopus profile reports measurable citation activity and scholarly visibility within medical and dental sciences.[1] Her work demonstrates consistent involvement in clinically applicable research supported by peer-reviewed dissemination and interdisciplinary cooperation.

Research Contributions

A significant component of Anna Sójka-Makowska’s contributions involves the study of temporomandibular disorders and their relationship with neurological, psychological, and physiological indicators. Her studies have explored stress manifestations, anxiety, and psychosocial influences associated with temporomandibular dysfunctions in clinical populations.[7]

Recent investigations have focused on biomarkers including Nesfatin-1 and Ghrelin/GOAT in adolescent headache and epilepsy-related studies. These projects contribute to ongoing scientific discussions concerning neuroendocrine regulation, pain mechanisms, and diagnostic biomarkers relevant to neurological and craniofacial disorders.[8]

  • Clinical investigations into temporomandibular disorders and patient diagnostics.
  • Research on neuroendocrine biomarkers associated with headache and epilepsy conditions.
  • Comparative studies involving DC/TMD and RDC/TMD diagnostic methodologies.
  • Interdisciplinary collaboration linking dentistry, neurology, and behavioral sciences.
  • Peer-reviewed dissemination in clinical and biomedical journals.

Publications

Selected scholarly publications associated with Anna Sójka-Makowska include peer-reviewed articles, literature reviews, conference papers, and clinical studies relevant to dentistry and medical sciences.[9]

  • Is there a relationship between psychological factors and TMD? — Brain and Behavior (2019). DOI:
  • Temporomandibular disorders in adolescents with headache — Advances in Clinical and Experimental Medicine (2018). DOI:
  • Relations between the results of complex clinical and neurophysiological examinations in patients with temporomandibular disorders symptoms — CRANIO (2017). DOI:
  • Comparison of Diagnostic Criteria for Temporomandibular Disorders (DC/TMD) and RDC/TMD — IRONS Journal (2016).
  • Nesfatin-1 and Ghrelin/GOAT as Potential Biomarkers in Adolescent Headache with Temporomandibular Disorders — Journal of Medical Science (2025).

Research Impact

The academic impact of Anna Sójka-Makowska’s work is reflected through citation activity, collaborative publications, and participation in clinically oriented biomedical research. Her studies have addressed practical diagnostic challenges within dentistry and craniofacial medicine while also contributing to broader discussions involving pain disorders, neurophysiology, and behavioral health.[10]

Research concerning temporomandibular disorders and neuroendocrine biomarkers carries importance for both diagnostic sciences and patient management frameworks. The integration of clinical examinations with evidence-based analysis supports scientific advancement within healthcare disciplines and contributes to ongoing improvements in interdisciplinary diagnostic methodologies.

Award Suitability

Anna Sójka-Makowska demonstrates professional and academic characteristics relevant to the objectives of the Forensic Scientist of the Year Award. Her involvement in diagnostic research, clinical methodologies, and biomarker-based investigations illustrates a commitment to scientific rigor and interdisciplinary healthcare research.[11]

The combination of indexed publications, citation visibility, collaborative investigations, and contributions to patient-oriented diagnostics supports consideration for scholarly recognition. Her research profile reflects continued engagement with scientifically relevant issues that intersect clinical medicine, dentistry, neurophysiology, and evidence-based diagnostic practice.

Conclusion

Anna Sójka-Makowska has established a research portfolio centered on temporomandibular disorders, clinical diagnostics, neurophysiological assessment, and interdisciplinary medical investigations. Her scholarly contributions within dentistry and health sciences demonstrate consistency in research activity and participation in clinically applicable scientific studies.[12] Through publications, collaborative projects, and analytical clinical research, she represents a suitable candidate for recognition within international scientific award frameworks.

References

  1. Elsevier. (n.d.). Scopus author details: Anna Sójka-Makowska, Author ID 57196022239. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57196022239
  2. ORCID. (n.d.). Anna Sójka-Makowska ORCID Profile.
    https://orcid.org/0000-0002-0193-0491
  3. Sójka, A., et al. (2017). Relations between the results of complex clinical and neurophysiological examinations in patients with temporomandibular disorders symptoms. CRANIO.
    https://www.tandfonline.com/doi/full/10.1080/08869634.2017.1290907
  4. Sójka, A., et al. (2018). Temporomandibular disorders in adolescents with headache. Advances in Clinical and Experimental Medicine.
    https://www.researchgate.net/publication/323644581_Temporomandibular_disorders_in_adolescents_with_headache
  5. Sójka, A., Pilarski, J., & Hędzelek, W. (2021). Description of the methodology for clinical examination of patients with temporomandibular disorders according to DC/TMD classification. Dental Forum.
  6. ResearchGate. (n.d.). Anna Sójka publication and research overview.
  7. Sójka, A., et al. (2019). Is there a relationship between psychological factors and TMD? Brain and Behavior.
  8. Sójka, A., et al. (2025). Nesfatin-1 and Ghrelin/GOAT as Potential Biomarkers in Adolescent Headache with Temporomandibular Disorders. Journal of Medical Science.
  9. Sójka, A., et al. (2016). Comparison of Diagnostic Criteria for Temporomandibular Disorders (DC/TMD) and RDC/TMD in Evaluation of Temporomandibular Disorders. IRONS Journal.
  10. Poznan University of Medical Sciences. (n.d.). Department and Clinic of Prosthodontics research activities.
  11. International Forensic Scientist Awards. (n.d.). Award recognition and academic excellence framework.
  12. Sójka, A., et al. (2026). Comparison of the effectiveness of psycho-behavioral-relaxation and occlusal splint therapy in the treatment of myalgia. Dental and Medical Problems.

Yasaman Salari | Medicine and Health Sciences | Research Excellence Award

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Dr. Yasaman Salari | Medicine and Health Sciences | Research Excellence Award

University Hospitals Sussex | United Kingdom

Dr. Yasaman Salari is an emerging clinical researcher with a strong focus on ophthalmology, surgical outcomes, and translational medical research. Her scholarly contributions include first-author publications in peer-reviewed journals, notably addressing advanced glaucoma management and breast cancer surgical outcomes. She has presented research at international conferences and contributed to multidisciplinary studies spanning ophthalmology, neurology, and women’s health. Her ongoing research integrates innovative imaging technologies, simulation-based surgical training, and diagnostic advancements. Dr. Yasaman Salari demonstrates expertise in both quantitative and qualitative methodologies, contributing to evidence-based clinical practice and advancing patient-centered innovations in ophthalmic and surgical research.

                            Citation Metrics (Scopus)

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View Scopus Profile  View ORCID Profile

Featured Publications

Rama Ayash | Medicine and Health Sciences | Best Researcher Award

Published on by Forensic Scientist Awards

Dr. Rama Ayash | Medicine and Health Sciences | Best Researcher Award

Damascus University | Syria

Dr. Rama Ayash is a medical advisor, senior lecturer, and scientific researcher specializing in clinical biochemistry, diabetes research, and molecular mechanisms of β-cell apoptosis. Her primary research focuses on the pathophysiological role of cytokines and death receptors in glucose dysregulation and prediabetes, with particular emphasis on the therapeutic effects of DPP4 inhibitors such as sitagliptin. Her recent publications include groundbreaking studies in Scientific Reports, BMC Endocrine Disorders, and the European Journal of Pharmacology, exploring inflammatory cytokine modulation, apoptotic biomarkers (FAS, TNFR1, TRAIL-R2), and their relationship to β-cell dysfunction. Dr. Rama Ayash’s research contributions advance understanding of early diabetic mechanisms, aiding in the development of targeted therapeutic strategies to preserve pancreatic function. She has also supervised diverse clinical and molecular research projects in cardiovascular pharmacology, endocrine biomarkers, and celiac disease diagnostics, demonstrating her interdisciplinary expertise. Her work integrates clinical biochemistry, molecular diagnostics, and translational medicine, contributing to the growing field of preventive and precision diabetology. Dr. Rama Ayash has been an active conference speaker and scientific presenter, sharing insights on cardio-renal pharmacology, metabolic pathways, and biomarker discovery. Her continuing research endeavors aim to bridge laboratory findings with clinical outcomes to enhance diagnostic accuracy and therapeutic efficacy in metabolic diseases.

Profiles: Google Scholar | ORCID

Featured Publications

• Ayash, R., Kabalan, Y., & Chamaa, S. (2025). Exploring the predictive potentials of IL-1β and TNFR1 in atherogenic risk in prediabetes. Scientific Reports, 15(1), 37369. https://doi.org/10.1038/s41598-025-37369

• Ayash, R., Kabalan, Y., & Chamaa, S. (2025). Association of soluble apoptotic biomarkers (FAS, TNFR1 and TRAIL-R2) with β-cell dysfunction in early glucose dysregulation. BMC Endocrine Disorders, 25(1), 218. https://doi.org/10.1186/s12902-025-0218

• Ayash, R., Kabalan, Y., & Chamaa, S. (2025). Sitagliptin reduces cytokine-induced β-cell apoptosis in prediabetes: A six-month interventional study. European Journal of Pharmacology, 177708. https://doi.org/10.1016/j.ejphar.2025.177708

Yan Bai | Medicine and Health Sciences | Best Researcher Award

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Dr. Yan Bai | Medicine and Health Sciences | Best Researcher Award

Yunnan University | China

Dr. Yan Bai is a highly accomplished postdoctoral researcher at the State Key Laboratory of Conservation and Utilization of Bio-resources in Yunnan and the Center for Life Sciences, School of Life Sciences, Yunnan University, Kunming, China. She earned her PhD in Cell Biology from Yunnan University, MSc in Pharmacology from the Chinese PLA Medical Academy, and BSc in Pharmacy from Dali University, establishing a strong interdisciplinary foundation spanning pharmacology, microbiology, and cellular biology. Prior to her current role, she conducted research at the Chinese PLA General Hospital, focusing on combination therapies against multidrug-resistant bacteria. Her research primarily investigates mitochondrial homeostasis, tumor biology, and the molecular mechanisms underlying mitochondrial genetic diseases, with particular attention to mitochondria-associated condensates (MATOs) as regulators of protein translation and mitochondrial integrity. Dr. Yan Bai has led and contributed to several major research projects, including grants from the National Natural Science Foundation of China, the National Basic Research Program, and Yunnan Province Science and Technology initiatives. Her work has resulted in high-impact publications in journals such as Nature Aging (2025), Sci China Life Sci (2025), EMBO J (2024), and Biophys Rep (2024). According to Scopus, she has authored 10 publications, cited 177 times across 169 documents, with an h-index of 6, demonstrating both productivity and influence in her field. Through her interdisciplinary collaborations, innovative experimental approaches, and groundbreaking findings on mitochondrial regulation and aging, Dr. Yan Bai has made significant contributions to biomedical science, advancing understanding of mitochondrial biology, disease mechanisms, and translational biomedical applications.

Profile: Scopus

Featured Publications

Bai, Y., Ma, T., Zhao, S., Li, S., Wang, X., Li, J., Sun, W., Yang, Y., Liu, F., Shan, Q., Qin, Z., Liu, N., Zhang, J., Tian, F., Duan, M., Chen, S., Lai, F., Chen, Q., Wu, X., & Yang, C. (2025). Mitochondria-associated condensates maintain mitochondrial homeostasis and promote lifespan. Nature Aging.

Hao, Q., Bai, Y., Guan, R., Dong, R., Bai, W., Hamdy, H., Wang, L., Meng, M., Sun, Y., Shen, J., & Sun, J. (2025). VPS35/Retromer-dependent MT1-MMP regulation confers melanoma metastasis. Science China Life Sciences, 68(7), 1996–2009.

Hao, Q., Dong, R., Bai, W., Chang, D., Yao, X., Zhang, Y., Xu, H., Li, H., Kui, X., Wang, F., Wang, Y., Wang, C., Lei, Y., Chen, Y., Shen, J., Sang, L., Bai, Y., & Sun, J. (2024). Screening for metastasis-related genes in mouse melanoma cells through sequential tail vein injection. Biophysical Reports, 10(1), 15–21.

Liu, F., Li, T., Gong, H., Tian, F., Bai, Y., Wang, H., Yang, C., Li, Y., Guo, F., Liu, S., & Chen, Q. (2024). Structural insights into the molecular effects of the anthelmintics monepantel and betaine on the Caenorhabditis elegans acetylcholine receptor ACR-23. EMBO Journal, 43(17), 3787–3806.

Wang, T., Zhou, X., Bai, Y., Zhang, L., Li, L., & Wu, C. (2018). Antiepileptic effect of uridine may be caused by regulating dopamine release and receptor expression in corpus striatum. Brain Research, 1688, 47–53.

Bai, Y., Liu, B., Wang, T., Cai, Y., Liang, B., Wang, R., Liu, Y., & Wang, J. (2015). In vitro activities of combinations of rifampin with other antimicrobials against multidrug-resistant Acinetobacter baumannii. Antimicrobial Agents and Chemotherapy, 59(3), 1466–1471.

Liu, B., Bai, Y., Liu, Y., Di, X., Zhang, X., Wang, R., & Wang, J. (2015). In vitro activity of tigecycline in combination with cefoperazone-sulbactam against multidrug-resistant Acinetobacter baumannii. Journal of Chemotherapy, 27(5), 271–276.

Arman Soltani Moghadam | Medicine | Best Researcher Award

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Dr. Arman Soltani Moghadam | Medicine | Best Researcher Award

Tehran Herat Center | Iran

Dr. Arman Soltani Moghadam is a dedicated medical doctor and cardiovascular researcher based in Tehran, Iran. With a strong foundation in clinical medicine and an exceptional academic record, he has significantly contributed to cardiology through both clinical practice and extensive research collaborations internationally. Known for his precision in diagnostics and passion for scientific inquiry, he serves as a General Practitioner while actively engaging in cutting-edge cardiovascular research with institutions such as Tehran University of Medical Sciences and the University of Arizona.

Professional profile👤

Google Scholar

ORCID

Scopus

Strengths for the Awards✨

Dr. Arman Soltani Moghadam demonstrates a rare blend of clinical expertise, academic excellence, and prolific research productivity at a remarkably early career stage. With dual appointments in top-tier institutions such as Tehran Heart Center and the University of Arizona, he brings international collaboration into practice. His extensive publication record, including meta-analyses in high-impact journals like Journal of the American Heart Association, Clinical Cardiology, and Frontiers in Immunology, underlines his commitment to evidence-based cardiology. His editorial contributions to BMJ and Artificial Organs, as well as multiple conference abstracts presented at AHA and ACC, show active involvement in shaping the scientific dialogue.

Moreover, his ability to work across disciplines—ranging from echocardiography and interventional cardiology to artificial intelligence in medicine—shows a visionary mindset. His numerous certifications from Oxford, Johns Hopkins, and Coursera on clinical trials, machine learning, and statistical methods further reinforce his scientific rigour. Notably, his early leadership as a corresponding author and multiple first-author meta-analyses reflect originality and independence in research.

🎓 Education

Dr. Moghadam earned his Doctor of Medicine (M.D.) diploma from Islamic Azad University, Tehran Medical Sciences Branch (2014–2021), graduating with a commendable GPA of 3.65/4.0. Prior to that, he completed his Diploma in Natural Science at the National Organization for the Development of Exceptional Talents (NODET), where he achieved a perfect GPA of 4.0/4.0. His strong academic foundation reflects his commitment to lifelong learning and excellence in science.

💼 Experience

Currently, Dr. Moghadam works as a General Practitioner at Amiralam Hospital in Tehran, while concurrently contributing as a Research Assistant in the Department of Cardiology at Tehran University of Medical Sciences. He previously served at Chamran Hospital and completed his internship at Islamic Azad University. Additionally, he collaborates remotely with the University of Arizona as a cardiovascular research assistant, showcasing his global engagement in healthcare research.

🔬 Research Interests On Medicine

Dr. Moghadam’s research is rooted in cardiology, with focused interests in interventional cardiology, structural heart disease, electrophysiology, and echocardiography. His studies aim to bridge clinical observations with evidence-based medicine, frequently employing meta-analytical techniques and advanced statistical tools. He is passionate about improving cardiovascular outcomes through innovation and collaboration.

🏆 Awards and Honors

🏅 Ranked 1st in the Clinical Knowledge Exam among his peers, Dr. Moghadam also secured 2nd position based on GPA in his MD program. He is a recognized member of the Iranian Society of Atherosclerosis (IR SA) and actively participates in national and international scientific communities. His commitment to education is evident from his extensive teaching and mentoring experiences.

📄 Publications

  • Immunogenicity of COVID-19 vaccines in patients with diabetes mellitus: A systematic review
    Authors: AB Boroumand, M Forouhi, F Karimi, AS Moghadam, LG Naeini, …
    Year: 2022
    Cited by: 58

  • Human diseases Research and textbook 1: Heart, Diabetes, Bacterial, ADHD, skin
    Authors: AT Mohammadi, S Karami, A Jahandideh, S Sarejloo, S Vaseghi, …
    Year: 2022
    Cited by: 29

  • The effects of gut microbiome manipulation on glycemic indices in patients with non-alcoholic fatty liver disease: a comprehensive umbrella review
    Authors: A Vakilpour, E Amini-Salehi, A Soltani Moghadam, MH Keivanlou, …
    Year: 2024
    Cited by: 21

  • Emerging Technologies in Medicine: Artificial Intelligence, Robotics, and Medical Automation
    Authors: M Rezaei, S Saei, SJ Khouzani, ME Rostami, M Rahmannia, …
    Year: 2023
    Cited by: 21

  • In Patients with Cardiogenic Shock, Extracorporeal Membrane Oxygenation Is Associated with Very High All-Cause Inpatient Mortality Rate
    Authors: MR Movahed, A Soltani Moghadam, M Hashemzadeh
    Year: 2024
    Cited by: 1

  • Gender-based Disparity in Performing Aortic Valve Surgery in the United State Before Availability of Percutaneous Valve Implantation
    Authors: MR Movahed, AS Moghadam, M Hashemzadeh, M Hashemzadeh
    Year: 2024
    Cited by: 1

  • Revisiting echocardiographic features of prosthetic heart valves: the necessity of correct differentiation of mono-leaflet vs. bileaflet mechanical heart valves in a case report
    Authors: SHAASM Farnoosh Larti’t, Babak Geraiely’t
    Year: 2024
    Cited by: 1

  • Intravascular Lithotripsy Versus Rotational Atherectomy in the Management of Calcific Coronary Lesions: A Systematic Review and Meta‐Analysis
    Authors: AS Moghadam, N Kakavand, FO Shirmard, A Poopak, N Anaraki, …
    Year: 2025
    Cited by: Not available

  • Short‐Term, Mid‐Term, and Long‐Term Outcomes of Transcatheter Aortic Valve Replacement With Balloon‐Expandable Versus Self‐Expanding Valves: A Meta‐Analysis of Randomized Trials
    Authors: K Tavakoli, NSH Mohammadi, P Bahiraie, S Saeidi, F Shaker, …
    Year: 2025
    Cited by: Not available

  • Time Trend Analysis of Clinical Outcomes for Drug-Coated Balloon versus Drug-Eluting Stent among Patients with Coronary In-Stent Restenosis: A Meta-Analysis of Randomized Trials
    Authors: A Soltani Moghadam, S Kazemian, S Shojaei, Saman Soltani Moghadam, …
    Year: 2024
    Cited by: Not available

✅ Conclusion

Dr. Arman Soltani Moghadam exemplifies the fusion of clinical acumen and research innovation. With a diverse portfolio of international collaborations, high-impact publications, and a continuous pursuit of academic and clinical excellence, he stands as a strong nominee for any global medical or research award. His contributions not only enhance cardiovascular knowledge but also inspire the next generation of physician-scientists.

Zhengfeng Jia | Medicine | Excellence in Research

Published on by Forensic Scientist Awards

Prof. Dr. Zhengfeng Jia | Medicine | Excellence in Research

Fourth medical PLA general hospital | China

Dr. Zhengfeng Jia is a researcher in orthopedic biomechanics, focusing on distal humerus fractures, musculoskeletal dynamics, and finite element analysis. Affiliated with the Chinese PLA General Hospital and the National Clinical Research Center for Orthopedics, his work bridges computational modeling and clinical applications to optimize fracture fixation and rehabilitation strategies.

Professional profile👤

Scopus

Strengths for the Awards✨

  1. Innovative Methodology

    • The study integrates musculoskeletal dynamics (AnyBody software) with finite element analysis (Abaqus) to simulate real-world biomechanical conditions, overcoming the limitations of traditional static models.

    • The AnyBody-Abaqus coupling technique provides dynamic loading conditions, capturing muscle forces and joint reactions during elbow flexion/extension, which is rare in orthopedic biomechanics research.

  2. Clinical Relevance

    • Addresses a critical gap in distal humerus fracture management by quantifying “safe activity windows” for postoperative rehabilitation (e.g., ≤80° flexion for parallel plates, ≤30° for vertical plates).

    • Findings directly inform surgical decisions (e.g., plate configuration) and rehabilitation protocols to reduce complications like non-union.

  3. Rigorous Validation

    • Validates muscle forces using electromyography (EMG) literature and mesh convergence studies to ensure computational accuracy (<5% error).

    • Anatomical accuracy is confirmed via statistical shape modeling (SSM) and iterative closest point (ICP) algorithms (<1.2 mm error).

  4. High-Impact Results

    • Demonstrates that parallel plates outperform vertical plates in maintaining interfragmentary motion (IFM) within the healing threshold (0.06–0.20 mm).

    • Identifies stress migration paths in the humerus, correlating with anatomical weak zones (e.g., lateral condyle).

  5. Interdisciplinary Approach

    • Combines orthopedic surgery, biomechanics, and computational modeling, aligning with the trend of “smart orthopedics.”

Education 🎓

  • PhD Candidate in Orthopedics, Graduate School of Medical School of Chinese PLA Hospital, Beijing (Current).

  • Research training in musculoskeletal dynamics, 3D modeling, and finite element analysis (FEA).

Experience 💼

  • Researcher at the Fourth Medical Center of Chinese PLA General Hospital, Beijing.

  • Specializes in digital orthopedic technologies, including AnyBody-Abaqus joint modeling and biomechanical simulations.

  • Collaborates on studies quantifying “safe activity windows” for postoperative rehabilitation.

Research Interests On Medicine 🔍

  • Biomechanics of distal humerus fractures.

  • Musculoskeletal dynamics and finite element analysis (FEA).

  • Optimization of internal fixation plates and rehabilitation protocols.

  • AI applications in orthopedic decision-making.

Awards & Nominations 🏆

  • National Clinical Research Center for Orthopedics Grant (2024) for data-driven ulnar prostheses research.

  • Ethical approval recipient (2024KY005-KS001) for studies on fracture healing biomechanics.

Publications 📚

  1. Jia, Z., Xu, C., Gao, W., et al. (2025). Evaluation of internal fixation stability of distal humerus C-type fractures based on musculoskeletal dynamics: Finite element analysis under dynamic loadingJournal of Orthopaedic Surgery and Research, *20*(475).

  2. Contributed to meta-analyses on continuous passive motion post-arthroplasty (J Orthop Surg Res, 2024).

Conclusion 🌟

Zhengfeng Jia’s multidisciplinary research quantifies biomechanical thresholds for fracture healing, emphasizing parallel plate configurations and 30–80° flexion safety windows. His integration of AnyBody-Abaqus modeling advances personalized rehabilitation strategies, with future aims to validate findings in clinical trials and AI-driven orthopedic solutions.

Rongrong Yang | Medicine | Best Researcher Award

Published on by Forensic Scientist Awards

Prof. Rongrong Yang | Medicine | Best Researcher Award

Zhongnan Hospital of Wuhan University | China

Prof. Yang Rongrong, M.D., serves as a Chief Physician, Associate Professor, and Master’s Supervisor, with an esteemed career in infectious disease prevention, particularly in HIV/AIDS occupational exposure management. With numerous national and provincial research leadership roles and active involvement in academic and peer review, she stands out as a leading voice in public health research and medical education in China.

Professional profile👤

Scopus

Strengths for the Awards✨

  • Distinguished Research Leadership:
    Dr. Yang has led multiple competitive and prestigious research projects, including funding from the National Natural Science Foundation of China, Hubei Provincial bodies, and Wuhan University. This reflects a high level of trust in her scientific capabilities and leadership.

  • High-impact Publications:
    With 52 professional papers, 29 of which are SCI-indexed, and a cumulative impact factor of 206.586, Dr. Yang demonstrates significant scholarly contribution in the field of infectious diseases. This publication record shows consistency, quality, and depth.

  • Expert Recognition and Peer Review Contributions:
    Her role as a peer reviewer for numerous high-impact SCI journals (e.g., iScience, Frontiers, PLOS ONE) and as a thesis review expert for the Ministry of Education highlights her academic reputation and recognition by the broader scientific community.

  • Public Health Relevance:
    Her focus on HIV/AIDS prevention and occupational exposure is of critical importance to public health. Her work bridges clinical medicine and public health, offering real-world impact.

  • Mentorship and Academic Service:
    As a Master’s supervisor and associate professor, Dr. Yang contributes significantly to academic training and capacity building in medical sciences.

🎓 Education

Dr. Yang holds a Doctor of Medicine degree and has advanced through the academic ranks, distinguished by her role as a Degree Thesis Review Expert for the Academic Degree Center of the Ministry of Education, reflecting her academic rigor and dedication to mentoring postgraduate students.

🧑‍🔬 Experience

Dr. Yang is a Medical Science Research Project Review Expert for Wuhan City, and actively serves as a peer reviewer for high-impact SCI journals including iScience, PLOS ONE, Frontiers in Public Health, and Risk Management and Healthcare Policy. Her influence in clinical medicine is matched by her engagement in policy and program-level evaluations across provincial and national platforms.

🔬 Research Interests On Medicine

Her primary research focus is the prevention and treatment of infectious diseases, with an emphasis on HIV/AIDS and occupational exposure. She contributes significantly to public health strategies through translational research, applying scientific findings to real-world clinical and preventative practices.

🏆 Awards & Recognitions

Dr. Yang has led several high-profile research projects:

  • National Natural Science Foundation of China (Grant No. 82003511)

  • Youth Talent Project, Hubei Provincial Health and Family Planning Commission (WJ2015Q0192)

  • Key Project, Hubei Provincial Center for Disease Control and Prevention

  • Independent Research Grant, Wuhan University
    These recognitions underscore her role as a Principal Investigator and emerging leader in public health innovation.

📚 Publications

Dr. Yang has authored 52 professional papers, with 29 SCI-indexed works contributing to a total impact factor of 206.586. Below are some of her notable publications with citation data:

  1. Yang, R. et al. (2023). “Evaluation of occupational exposure control in HIV-prone environments.” Frontiers in Public Health. LinkCited by 12 articles

  2. Yang, R. et al. (2022). “Innovative HIV prevention strategies for healthcare workers.” PLOS ONE. LinkCited by 20 articles

  3. Yang, R. et al. (2021). “Case report on pediatric HIV exposure.” Frontiers in Pediatrics. LinkCited by 7 articles

  4. Yang, R. et al. (2020). “Public health surveillance and HIV: A real-time case study.” JMIR Public Health and Surveillance. LinkCited by 15 articles

  5. Yang, R. et al. (2019). “Risk analysis of healthcare settings in HIV/AIDS exposure.” Risk Management and Healthcare Policy. LinkCited by 18 articles

🔚 Conclusion

With a distinguished portfolio of clinical practice, academic service, and research leadership, Dr. Yang Rongrong has made a significant impact in infectious disease control and occupational health safety. Her contribution to medical science is not only academic but also societal, shaping public health policies and clinical standards in China and beyond.

Zhongzhen Su | Medicine | Best Researcher Award

Published on by Forensic Scientist Awards

Dr. Zhongzhen Su | Medicine | Best Researcher Award

The Fifth Affiliated Hospital of Sun Yat-sen University |China

Dr. Zhongzhen Su is a renowned medical professional with over two decades of expertise in abdominal ultrasound diagnosis and liver cancer interventional therapy. Currently serving as the Director of the Ultrasound Medicine Department at the Fifth Affiliated Hospital of Sun Yat-sen University, he has made pivotal contributions in early liver cancer detection and fibrosis assessment. Recognized as a “High-level Talent in Zhuhai” and a “Guangdong Outstanding Young Medical Talent”, Dr. Su has significantly enhanced survival outcomes for cirrhotic patients through innovative imaging techniques.

Professional profile👤

Scopus

Strengths for the Awards✨

  1. Established Academic and Research Record:

    • 48 SCI publications with an H-index of 28 and 1,000+ citations, indicating consistent and influential contributions.

    • Highest publication impact factor of 14.3, demonstrating recognition in high-quality journals.

  2. Innovative Contributions:

    • Two patents (e.g., tumor ultrasound phantom, fibrosis prediction model) and innovative developments in liver cancer diagnostics and ablation.

    • Led 18 completed and 1 ongoing research projects, including National Natural Science Foundation grants.

  3. Clinical and Educational Impact:

    • Pioneered early detection and ultrasound-guided treatment of liver cancer, improving survival rates.

    • Trained over 50 postgraduates, indicating a significant contribution to academic mentorship.

  4. Recognitions and Leadership:

    • Recognized as a “High-level Talent in Zhuhai” and “Guangdong Outstanding Young Medical Talent”.

    • Serves as Director of Ultrasound Medicine and holds leadership roles in national professional associations.

  5. Interdisciplinary and AI Integration:

    • Engaged in AI-based fibrosis assessment and multicenter collaborations, showcasing forward-looking research alignment.

🎓 Education

Dr. Zhongzhen Su earned his Ph.D. in Imaging and Nuclear Medicine from Sun Yat-sen University, one of China’s top medical institutions. His academic foundation combines clinical depth with scientific rigor, forming the bedrock for his ongoing advancements in ultrasound-guided interventions and diagnostic radiology.

👨‍⚕️ Experience

With over 20 years of clinical and academic experience, Dr. Zhongzhen Su has held key roles, including Deputy Dean of the Fifth Affiliated Hospital and now Director of Ultrasound Medicine. His leadership has been instrumental in establishing state-of-the-art interventional ultrasound programs, supervising over 50 postgraduates, and leading multicenter clinical trials focused on liver health.

🔬 Research Interest On Medicine

Dr. Zhongzhen Su primary research interests lie in abdominal ultrasound diagnosis, interventional ultrasound for liver cancer, quantitative assessment of liver fibrosis, and post-ablation evaluation techniques. He is also exploring AI-based models for early-stage fibrosis and cancer detection, which promise transformative impacts in personalized medicine.

🏆 Awards

Dr. Zhongzhen Su is a three-time recipient of the Guangdong Science and Technology Awards 🏅, reflecting his leadership in ultrasound-guided interventional innovation. He has also been honored as a “High-level Talent in Zhuhai” and a “Guangdong Outstanding Young Medical Talent”, distinctions reserved for top-tier professionals in the region’s medical community.

📚 Publications

1. Nomogram Using Bi-modal Imaging for Predicting Low-level HER2 Expression Status in Breast Cancer

  • Authors: Xingyu Liang, Jiamin Chen, Jiawei Tian, Xin Wen

  • Journal: European Journal of Radiology

  • Year: 2025

2. Combination of CT/MRI LI-RADS With Second-Line Contrast-Enhanced Ultrasound Using Sulfur Hexafluoride or Perfluorobutane for Diagnosing Hepatocellular Carcinoma in High-Risk Patients

  • Authors: Yu Li, Sheng Li, Qing Li, Lingling Li, Jianhua Zhou

  • Journal: Korean Journal of Radiology

  • Year: 2025

  • Citations: 0​

3. Doppler Ultrasound Imaging and Shear Wave Elastography for Evaluation of Interstitial Fibrosis/Tubular Atrophy in IgA Nephropathy

  • Authors: Jiaxin Chen, Shuqing Wang, Qunyan Wu, Zhongzhen Su, Yuhong Lin

  • Journal: Abdominal Radiology

  • Year: 2025

4. Tertiary Lymphoid Structure Formation Induced by LIGHT-Engineered and Photosensitive Nanoparticles-Decorated Bacteria Enhances Immune Response Against Colorectal Cancer

  • Authors: Lijun Hu, Li Tan, Shaohui Deng, Honglin Gao, Yujie Jiang, Chen Qiu, Hui Chen, Zecong Xiao, Xintao Shuai, Zhongzhen Su

  • Journal: Biomaterials

  • Year: 2025

  • Citations: 6​

5. Histopathological Diagnosis of Microvascular Invasion in Hepatocellular Carcinoma: Is It Reliable?

  • Authors: Liujun Li, Chaoqun Wu, Feile Ye, Zhou Xuan, Xiaoli Zhang, Jianping Li, Jia Zhou, Zhongzhen Su

  • Journal: World Journal of Gastroenterology

  • Year: 2025

6. Radiomics Diagnosis of Microvascular Invasion in Hepatocellular Carcinoma Using 3D Ultrasound and Whole-Slide Image Fusion

  • Authors: Liujun Li, Shaodong Wang, Jiaxin Chen, Yao Lu, Zhongzhen Su

  • Journal: Small Methods

  • Year: 2025

7. Model Based on Ultrasound and Clinicopathological Characteristics for Early Prediction of Pathological Complete Response to Neoadjuvant Chemotherapy in Breast Cancer

  • Authors: Xin Wen, Jiamin Chen, Jing Zhong, Yuhong Lin, Zhongzhen Su

  • Journal: Quantitative Imaging in Medicine and Surgery

  • Year: 2024

  • Citations: 1​

8. Development and Validation of an Individualized Nomogram for Predicting Patent Foramen Ovale-Associated Stroke: Patent Foramen Ovale Morphology-Based Analysis

  • Authors: Qin Zhang, Mochao Xiao, Wuzhu Lu, Zhongzhen Su, Xiaobo Chen

  • Journal: Echocardiography

  • Year: 2024

🧾 Conclusion

In summary, Dr. Zhongzhen Su stands out as a visionary ultrasound expert and medical educator, having redefined interventional standards in liver cancer therapy and fibrosis evaluation. His trailblazing research, prolific publication record, and dedication to clinical excellence make him an ideal nominee for the Best Researcher Award at the FORENSIC SCIENTIST AWARDS. 🏅🔍