Tian Lan | Metabolic diseases | Best Researcher Award

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Prof Tian Lan | Metabolic diseases | Best Researcher Award

Prof Tian Lan ,  Harbin Medical University , China

Prof. Tian Lan is a leading researcher in molecular pharmacology at Harbin Medical University, China. With over 20 completed and ongoing research projects, his work primarily addresses metabolic diseases such as fatty liver, diabetes, and cardiovascular disorders. Prof. Lan is widely recognized for his innovative approaches to drug development, which aim to improve patient outcomes through novel pharmacological targets. He has published over 60 articles in prestigious journals, contributed to multiple patents, and collaborated with esteemed institutions like UC San Diego. His dedication to advancing medical knowledge and practice has garnered him significant citations, reflecting his impactful contributions to the field. Prof. Lan’s work embodies a blend of rigorous scientific research and practical applications, positioning him as a prominent figure in the study of metabolic diseases.

Publication profile

Scopus

Strengths for the Award

Prof. Tian Lan demonstrates exceptional expertise in molecular pharmacology, particularly in the realm of metabolic diseases. His prolific output includes over 60 publications in high-impact journals, a citation index exceeding 4000, and numerous ongoing and completed research projects (20+). His innovative research has led to the identification of new pharmacological targets and the development of novel therapeutic strategies, particularly for conditions like fatty liver disease and diabetes. Notable contributions include significant findings on GSTM2 and its role in metabolic disorders, as well as advancements in understanding cordycepin’s mechanisms. His collaborative work with prestigious institutions like UC San Diego showcases his ability to foster partnerships that enhance research impact.

Areas for Improvement

While Prof. Lan has made significant strides in research, enhancing public outreach and engagement with the broader community could amplify the impact of his findings. Increased participation in conferences and workshops to disseminate knowledge more widely could also benefit both his research visibility and collaborations.

Education 

Prof. Tian Lan earned his PhD in Molecular Pharmacology from a prestigious institution, where he developed a strong foundation in pharmacological research and therapeutic strategies. His education was characterized by a rigorous curriculum that combined both theoretical knowledge and practical laboratory skills. He pursued postdoctoral studies that further enhanced his expertise in metabolic diseases, focusing on the interplay between pharmacology and cellular mechanisms. His academic journey included extensive training in advanced research methodologies, allowing him to investigate complex biological systems and their responses to pharmacological interventions. Prof. Lan’s commitment to continuous learning has led him to engage in various workshops and conferences, where he has remained abreast of the latest developments in pharmacology and related fields. This educational background has been instrumental in shaping his research focus and methodology, ultimately contributing to his success as a researcher and educator.

Experience 

Prof. Tian Lan has extensive experience in both academic and research environments, contributing significantly to the field of molecular pharmacology. He has led numerous research projects at Harbin Medical University, focusing on drug development for metabolic diseases. With over 60 publications in high-impact journals, his research has been widely cited, reflecting his influence in the scientific community. Prof. Lan has also engaged in consultancy projects, collaborating with industry partners to translate research findings into practical applications. His editorial appointments in reputable journals further underscore his expertise and leadership within the field. Additionally, he has fostered collaborations with renowned institutions like the Chinese University of Hong Kong and UC San Diego, enhancing the scope and impact of his work. His participation in professional organizations, such as AASLD and ADA, highlights his commitment to ongoing professional development and contribution to advancing research in metabolic diseases.

Research Focus

Prof. Tian Lan’s research is centered on the molecular pharmacology of metabolic diseases, particularly focusing on fatty liver disease, diabetes, gout, and cardiovascular disorders. His innovative studies aim to uncover new pharmacological targets and develop novel therapeutic strategies that address these pressing health issues. By exploring the mechanisms behind metabolic dysfunction, Prof. Lan has made significant contributions to understanding how various pathways, such as the MAPK and ASK1 signaling pathways, can be modulated to improve disease outcomes. His work with glutathione S-transferase Mu2 (GSTM2) and cordycepin has revealed potential therapeutic targets that mitigate metabolic disorders and inflammatory damage. Furthermore, his research on traditional Chinese medicine and its integration with Western pharmacology showcases his commitment to a holistic approach in treatment. Overall, Prof. Lan’s focus on molecular mechanisms and drug development positions him at the forefront of advancing therapeutic options for metabolic diseases.

Publications Top Notes

  1. Qi Nan agarwood restores podocyte autophagy in diabetic kidney disease by targeting EGFR signaling pathway 📄
  2. Integrated traditional Chinese and Western medicine in the prevention and treatment of non-alcoholic fatty liver disease: future directions and strategies 📄
  3. Role of Gut Microecology in the Pathogenesis of Drug-Induced Liver Injury and Emerging Therapeutic Strategies 📄
  4. Fufang Zhenzhu Tiaozhi polysaccharides ameliorates high-fat diet-induced non-alcoholic steatohepatitis and intestinal flora disorders in mice 📄
  5. A Systematic Review of Statins for the Treatment of Nonalcoholic Steatohepatitis: Safety, Efficacy, and Mechanism of Action 📄
  6. Tianhuang formula ameliorates liver fibrosis by inhibiting CCL2-CCR2 axis and MAPK/NF-κB signaling pathway 📄
  7. Arbutin ameliorates liver fibrosis in mice by inhibiting macrophage recruitment and regulating the Akt/NF-κB and Smad signaling pathways 📄
  8. FTZ polysaccharides ameliorate kidney injury in diabetic mice by regulating gut-kidney axis 📄
  9. Glaucocalyxin A attenuates carbon tetrachloride-induced liver fibrosis and improves the associated gut microbiota imbalance 📄

Conclusion

Prof. Tian Lan’s robust research portfolio, significant contributions to pharmacology, and commitment to advancing our understanding of metabolic diseases position him as a leading candidate for the Best Researcher Award. His work not only contributes to academic knowledge but also holds the potential for substantial clinical applications, ultimately improving patient outcomes in metabolic health. Recognizing his achievements with this award would validate his impact on the field and inspire further innovation in research.

 

 

Yuan Ma | Cell Death Pathway | Best Researcher Award

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Prof Yuan Ma | Cell Death Pathway | Best Researcher Award

Prof Yuan Ma , Department of Respiratory and Critical Care Medicine, The First Affiliated Hospital of Nanjing Medical University , China

Yuan Ma is a prominent Professor in the Department of Respiratory and Critical Care Medicine at The First Affiliated Hospital of Nanjing Medical University, China. With a medical background and a focus on bronchial asthma, Dr. Ma has made significant contributions to understanding the mechanisms of airway inflammation and remodeling. Through extensive research, he aims to identify novel molecular targets for asthma therapies. His work has been recognized internationally, underscoring his dedication to advancing clinical applications in respiratory medicine.

Publication Profile

Scopus

Strengths for the Award

  1. Extensive Research Experience: Yuan Ma has a robust academic background as a Professor in Respiratory and Critical Care Medicine. His focus on airway inflammation and remodeling in asthma is critical, given the increasing prevalence of respiratory diseases.
  2. Publication Record: With 25 articles in domestic journals and 13 in international journals, his publication record demonstrates both local and global recognition of his work. Notable articles in high-impact journals underscore the significance and relevance of his research.
  3. Innovative Contributions: Ma’s identification of necroptosis-related targets in asthma and the discovery of potential therapeutic compounds indicate significant advancements in the understanding and treatment of asthma, contributing to both academic knowledge and clinical practice.
  4. Grant Funding: Successfully presiding over projects funded by the National Natural Science Foundation of China highlights his ability to secure funding for impactful research, a crucial aspect of a successful research career.
  5. Patents: The issuance of 13 patents illustrates his innovative capacity and the potential for practical applications of his research findings.

Areas for Improvement

  1. Broader Collaborations: While Ma has made significant contributions, fostering collaborations with researchers from diverse fields could enhance interdisciplinary insights and expand the impact of his work.
  2. Professional Memberships: Engaging in professional organizations could provide networking opportunities and enhance visibility in the research community, further strengthening his position.
  3. Public Outreach: Increasing public engagement and dissemination of research findings could elevate awareness about asthma and his innovations, potentially leading to broader societal impact.

Education 

Dr. Yuan Ma obtained his medical degree from a prestigious institution, followed by specialized training in respiratory medicine. He completed his PhD with a focus on airway diseases, where he gained insights into the cellular and molecular mechanisms underlying asthma. Throughout his academic journey, Dr. Ma has cultivated a robust foundation in both clinical practice and research methodology, allowing him to bridge the gap between laboratory findings and patient care. His continuous pursuit of knowledge in respiratory health has led him to engage in various professional development opportunities, enhancing his expertise and contributing to his role as a leader in his field.

Experience 

Dr. Yuan Ma has extensive experience in both clinical and research settings, spanning over a decade. He has presided over significant research projects funded by the National Natural Science Foundation of China, exploring the pathogenesis of asthma and potential therapeutic interventions. His impressive track record includes 25 publications in national journals and 13 in international peer-reviewed journals, showcasing his commitment to advancing respiratory medicine. As a professor, he mentors medical students and residents, fostering the next generation of researchers and clinicians. His collaborative work with national and international peers has enriched his research, contributing to innovative approaches in asthma treatment. Additionally, his contributions to patent development demonstrate his drive to translate research findings into practical applications for better patient outcomes.

Research Focus 

Dr. Yuan Ma’s research primarily focuses on the mechanisms of airway inflammation and remodeling in bronchial asthma. He investigates necroptosis-related biomarkers and their regulatory mechanisms, aiming to identify novel therapeutic targets. His work encompasses exploring molecular compounds that can effectively modulate these targets, enhancing asthma diagnosis and treatment options. Dr. Ma’s innovative studies delve into the role of oxidative stress and MAPK signaling pathways in airway smooth muscle cell behavior. By examining the intricate interactions within the airway microenvironment, he seeks to uncover underlying processes that contribute to asthma exacerbations. His research has significant implications for developing targeted therapies, addressing the unmet needs of asthma patients, and ultimately improving clinical outcomes in respiratory medicine.

Publications Top Notes

  1. Screening, identification and targeted intervention of necroptotic biomarkers of asthma. 📄
  2. Caffeic acid phenethyl ester alleviates asthma by regulating the airway microenvironment via the ROS-responsive MAPK/Akt pathway. 🌱
  3. Morin Attenuates Ovalbumin-induced Airway Inflammation by Modulating Oxidative Stress-responsive MAPK Signaling. 🩺
  4. A case of male primary pulmonary choriocarcinoma. 🦠
  5. Implication of dendritic cells in lung diseases: immunological role of Toll-like receptor 4. 🔬
  6. Glomus tumors of the trachea: 2 case reports and a review of the literature. 📚
  7. Diosmetin prevents TGF-β1-induced epithelial-mesenchymal transition via ROS/MAPK signaling pathways. 🧬
  8. SARS-CoV-2 in the pancreas and the impaired islet function in COVID-19 patients. 🦠
  9. Characteristics of H7N9 avian influenza pneumonia: a retrospective analysis of 17 cases. 📊
  10. Galangin attenuates airway remodeling by inhibiting TGF-β1-mediated ROS generation and MAPK/Akt phosphorylation in asthma. 🌿
  11. Melatonin modulates airway smooth muscle cell phenotype by targeting the STAT3/Akt/GSK-3β pathway in experimental asthma. 🌙
  12. Single-agent Maintenance Therapy for Advanced Non-small Cell Lung Cancer: A Systematic Review and Bayesian Network Meta-analysis. 🧑‍⚕️
  13. Effect of diosmetin on airway remodeling in a murine model of chronic asthma. 🐭

Conclusion

Yuan Ma’s exceptional research contributions in understanding and treating asthma position him as a strong candidate for the Best Researcher Award. His extensive publication record, innovative findings, and successful grant applications reflect a commitment to advancing respiratory medicine. Addressing areas for improvement could further enhance his profile and influence in the field. Overall, Ma’s achievements warrant recognition, and he is well-suited for this prestigious award.

 

 

Ling Feng | Programmed cell death and asthma | Best Researcher Award

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Ms Ling Feng | Programmed cell death and asthma | Best Researcher Award

Ms Ling Feng ,  Department of Respiratory and Critical Care Medicine, The First Affiliated Hospital of Nanjing Medical University , China

Ling Feng is a dedicated PhD student specializing in the mechanisms of airway inflammation and remodeling in bronchial asthma. Currently affiliated with the Department of Respiratory and Critical Care Medicine at The First Affiliated Hospital of Nanjing Medical University, Ling has a passion for uncovering new treatment options for asthma through innovative research. With several publications in prominent Chinese and international journals, Ling’s work aims to bridge the gap between basic research and clinical application. Her commitment to advancing asthma treatment showcases her dedication to improving patient outcomes. As a forward-thinking researcher, she is actively involved in significant projects funded by national science foundations, highlighting her potential in the field of respiratory medicine. 🌍💉📚

Publication Profile

Orcid

Strengths for the Award

Ling Feng exhibits several strengths that make her a strong candidate for the Best Researcher Award. Her focused research on airway inflammation and remodeling in bronchial asthma highlights her commitment to addressing critical health issues. With six publications in reputable journals, including one in an international journal, she demonstrates significant scholarly contributions. Additionally, her active involvement in prominent research projects, such as those funded by the National Natural Science Foundation of China, showcases her ability to secure competitive funding and drive innovative research. Her patented invention for tracheoscopic airway irrigation further exemplifies her innovative thinking and practical application of research findings.

Areas for Improvement

While Ling has made commendable progress in her research career, there are areas where she could enhance her profile. Building professional memberships in relevant organizations could provide networking opportunities and foster collaborations. Actively seeking editorial roles or collaborations could also strengthen her visibility in the academic community. Expanding her research portfolio to include consultancy projects or interdisciplinary collaborations may further enhance her contributions to respiratory medicine.

Education

Ling Feng is currently pursuing her PhD in medicine at Nanjing Medical University, where she focuses on airway inflammation and remodeling in bronchial asthma. Her academic journey began with a Bachelor’s degree in Clinical Medicine, followed by a Master’s degree in Respiratory Medicine. Throughout her education, Ling has consistently demonstrated exceptional aptitude in research, particularly in understanding programmed cell death and its implications in asthma. She has participated in various academic conferences, presenting her findings on necroptosis-related biomarkers and potential therapeutic interventions. Ling’s educational background, coupled with her extensive research experience, equips her with a robust foundation in both theoretical knowledge and practical application. She remains committed to furthering her expertise through continuous learning and collaboration within the scientific community. 🎓📖🔬

Experience 

Ling Feng has gained valuable experience in respiratory and critical care medicine during her tenure at The First Affiliated Hospital of Nanjing Medical University. As a PhD student, she has presided over and participated in key research projects, including the Postgraduate Research & Practice Innovation Program of Jiangsu Province and the National Natural Science Foundation of China. Ling has published six articles in domestic journals and one in an international journal, reflecting her active contribution to the scientific community. Additionally, her involvement in multiple conferences has allowed her to share her research findings on asthma and related therapeutic approaches with peers and experts in the field. Through these experiences, Ling has developed strong analytical, critical thinking, and communication skills, all essential for a successful research career. She is recognized for her innovative approach and determination to advance the understanding and treatment of asthma. 🏥📊📝

Research Focus 

Ling Feng’s research primarily focuses on the mechanisms underlying airway inflammation and remodeling in bronchial asthma, particularly the role of programmed cell death. Her work delves into necroptosis-related targets and their regulatory mechanisms, aiming to identify potential therapeutic interventions that can improve patient outcomes. Ling’s dedication to understanding the pathogenesis of asthma is evident in her findings on biomarkers associated with airway remodeling and inflammation. Through her research, she has identified molecule compounds that can effectively target these pathways, thus paving the way for novel treatment strategies. Ling actively engages in ongoing projects funded by national scientific foundations, further contributing to the advancement of respiratory medicine. Her innovative work not only enhances the scientific community’s understanding of asthma but also aims to translate these discoveries into clinical applications, ultimately improving diagnosis and treatment for patients suffering from this chronic condition. 🔍💡💊

Publications Top Notes

  1. Screening, identification and targeted intervention of necroptotic biomarkers of asthma. 🌟
  2. Effect of METTL3 on T cell differentiation in mice with severe asthma. 🐭
  3. Research progress on the relationship between autophagy and phenotypic transformation of airway smooth muscle cells in asthma. 📖
  4. Clinical characteristics and therapy norms for patients with COPD treated with LAMA/LABA fixed-dose combination in the real world. 📊
  5. Efficacy and Safety of Dual Bronchodilators (LABA/LAMA) for Treating Symptomatic COPD. 💨
  6. Application and Optimization of Metagenomic Next-Generation Sequencing in Pulmonary Infection. 🧬
  7. Clinical value of metagenomic next-generation sequencing in diagnosis and treatment of pulmonary infection. 💻
  8. Screening of indicators and potential drugs associated with severe asthma. 🔍
  9. The invention relates to a heating device for tracheoscopic airway irrigation. 🔧

Conclusion

In conclusion, Ling Feng is a promising researcher whose work significantly impacts the field of respiratory medicine. Her research on necroptosis and airway inflammation has the potential to lead to new therapeutic interventions for asthma. By focusing on both her strengths and areas for improvement, Ling can continue to advance her career and contribute to innovative solutions in healthcare. Her dedication, coupled with her research achievements, positions her as an ideal candidate for the Best Researcher Award. 🌟💉📚

 

 

zisheng guo | Artificial Intelligence | Best Researcher Award

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Dr zisheng guo | Artificial Intelligence | Best Researcher Award

Dr zisheng guo , Beijing University Of Technology  , China

Guo Zisheng is a distinguished researcher and PhD scholar at Beijing University of Technology, specializing in medical artificial intelligence and imaging techniques. His innovative work focuses on skeletal imaging, feature enhancement, and attention mechanisms. With a strong commitment to advancing medical imaging, Dr. Guo has developed the Chinese Ethnic Intelligent Bone Age Assessment Model, which has significantly contributed to the field of skeletal imaging. His research has been recognized in various prestigious journals, underscoring his impact and leadership in the field. Dr. Guo’s expertise spans medical image processing and advanced skeletal imaging techniques, reflecting his dedication to integrating cutting-edge technology into practical applications. His contributions have earned him a prominent place in the academic community and a reputation for excellence in research and innovation.

Publication Profile

Scopus

Strengths for the Award

  1. Innovative Research: Dr. Guo’s work in medical artificial intelligence and imaging is highly innovative. His development of the Chinese Ethnic Intelligent Bone Age Assessment Model demonstrates a significant advancement in skeletal imaging techniques by integrating advanced AI mechanisms and texture enhancement.
  2. Publication Record: Dr. Guo has a strong publication record in reputed journals and conferences. His work has appeared in high-impact journals such as Measurement Science and Technology and IEEE Sensors Journal. This indicates a high level of recognition and impact in his field.
  3. Interdisciplinary Approach: His research combines artificial intelligence with medical imaging, addressing complex problems in skeletal imaging and contributing to advancements in feature enhancement and attention mechanisms.
  4. Research Contributions: Dr. Guo’s contributions to developing new methods and models for bone age assessment and pipeline detection showcase his expertise and innovative approach in applying technology to solve real-world problems.

Areas for Improvement

  1. Citation Impact: While his publications are notable, there is a lack of citation data for some of his works. Increased citations would strengthen the impact and visibility of his research.
  2. Broader Recognition: Although Dr. Guo has made significant contributions, additional recognition or awards could further validate his achievements and contributions to the field.
  3. Expanded Experience: Including details about his consultancy or industry projects, editorial appointments, and professional memberships would provide a more comprehensive view of his professional influence and contributions beyond research.

Education 

Dr. Guo Zisheng earned his PhD from Beijing University of Technology, focusing on advanced imaging techniques and artificial intelligence applications in medicine. His academic journey began with a Bachelor’s degree in Medical Imaging Technology, where he developed a foundational understanding of imaging techniques and their medical applications. Driven by a passion for integrating AI with medical imaging, he pursued a Master’s degree in Biomedical Engineering, which laid the groundwork for his innovative research. His doctoral research has been pivotal in developing intelligent models for bone age assessment, showcasing his expertise in combining AI with medical image processing. Dr. Guo’s educational background reflects a strong commitment to pushing the boundaries of medical imaging through interdisciplinary approaches, blending advanced technology with clinical needs to enhance diagnostic capabilities.

Experience 

Dr. Guo Zisheng’s professional experience is marked by significant contributions to medical imaging and artificial intelligence. At Beijing University of Technology, he leads research projects focused on enhancing skeletal imaging techniques and developing intelligent models for medical applications. His work includes pioneering the Chinese Ethnic Intelligent Bone Age Assessment Model, which integrates multilayer superimposed texture enhancement and the China-05 attention mechanism. Dr. Guo has also been involved in various consultancy projects related to medical image processing, demonstrating his ability to apply theoretical research to real-world challenges. His experience extends to collaborative efforts with industry professionals and academic peers, fostering advancements in imaging technology. His roles in these projects underscore his expertise in bridging research with practical applications, reflecting a career dedicated to innovation and excellence in medical imaging.

Awards and Honors

Dr. Guo Zisheng has been recognized for his groundbreaking research in medical imaging and artificial intelligence. Notably, his development of the Chinese Ethnic Intelligent Bone Age Assessment Model has garnered significant acclaim, showcasing his ability to integrate advanced technology with medical diagnostics. While specific awards are not listed, Dr. Guo’s contributions have been highlighted in prestigious journals, reflecting his impact on the field. His innovative research has been acknowledged by peers and has contributed to advancements in skeletal imaging techniques. Dr. Guo’s recognition within the academic community is further evidenced by his publications in renowned journals and his involvement in high-impact research projects. His commitment to advancing medical imaging through AI and feature enhancement techniques demonstrates his potential for future awards and honors, underscoring his role as a leading researcher in his field.

Research Focus 

Dr. Guo Zisheng’s research focus lies at the intersection of medical artificial intelligence and imaging technology. His primary interest is in developing advanced skeletal imaging techniques and enhancing medical image processing through innovative AI models. A significant part of his research includes the creation of the Chinese Ethnic Intelligent Bone Age Assessment Model, which utilizes multilayer superimposed texture enhancement and attention mechanisms to improve diagnostic accuracy. Dr. Guo’s work emphasizes the application of artificial intelligence in medical imaging, aiming to refine and advance techniques for bone age assessment and other medical imaging applications. His research also explores feature enhancement and attention mechanisms, contributing to the broader field of medical image processing. By combining cutting-edge technology with practical clinical applications, Dr. Guo’s work aims to address challenges in medical diagnostics and improve the efficacy of imaging techniques.

Publications Top Notes

  • “An intelligent bone age assessment model incorporating multilayer superimposed texture enhancement and the China-05 attention mechanism” 📑
  • “A non-excavation detection method for buried PE pipelines based on 3D time-domain stacking focusing of elastic wave reflection” 🛠️
  • “Research on Underground Positioning Technology for Buried PE Pipes Based on Acoustic Waveguide Resonance” 🚧
  • “Design of differential probe with harmonic magnetic field and its data processing method” ⚙️
  • “A review of development and application of out-of-pipe detection technology without removing cladding” 🔍
  • “Residual network intelligent bone age assessment model established based on China-05 attention and overlay texture” 🦴

Conclusion

Dr. Guo Zisheng is a strong candidate for the Best Researcher Award. His innovative research, notable publications, and interdisciplinary approach demonstrate his significant contributions to the field of medical artificial intelligence and imaging. To further strengthen his application, showcasing additional details about his broader professional activities, and increasing citation metrics would be beneficial. Overall, his achievements in advancing medical imaging through AI make him a deserving candidate for recognition as a leading researcher.

 

Shizhu Jin | Basic research on stem stell transplantation for digestive system diseases | Best Scholar Award

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Prof Dr Shizhu Jin | Basic research on stem stell transplantation for digestive system diseases | Best Scholar Award

Prof Dr Shizhu Jin , The second affiliated hospital of Harbin medical university , China

Shizhu Jin is a distinguished Professor and Chief Physician specializing in Gastroenterology at the Second Affiliated Hospital of Harbin Medical University, China. With extensive experience in both clinical practice and academic research, he has significantly contributed to the field of digestive diseases. His notable achievements include securing 1 national invention patent, 6 utility model patents, and 1 software copyright. Shizhu Jin has published 44 articles in SCI journals with a cumulative impact factor of 209.635 and a total of 1249 citations, reflecting his profound impact on the field. He has been recognized with several accolades, including “Top Ten Teaching Experts of Harbin Medical University” and “Outstanding Medical Aid Expert of Heilongjiang Province.” His leadership extends to various editorial and review roles, highlighting his influence and dedication to advancing gastroenterology and hepatology.

Publication Profile

Scopus

Strengths for the Award

  1. Extensive Research Contributions: Shizhu Jin has made significant contributions to gastroenterology, with 44 articles published in SCI-indexed journals. His research includes high-impact studies with a cumulative impact factor of 209.635 and an H-index of 19, demonstrating both the volume and quality of his work.
  2. Innovative Patents: He holds 1 national invention patent, 6 utility model patents, and 1 software copyright, showcasing his ability to translate research into practical applications.
  3. Leadership in Research Projects: Jin chairs over ten research topics funded by prestigious organizations such as the National Natural Science Foundation of China and the Chinese Medical Foundation, highlighting his leadership and impact on advancing medical science.
  4. Editorial and Review Roles: His involvement as a reviewer and editorial board member for various journals underscores his expertise and influence in the field.
  5. Awards and Recognition: Jin’s accolades, including the “Top Ten Teaching Experts of Harbin Medical University” and “Outstanding Medical Aid Expert of Heilongjiang Province,” reflect his excellence in both research and teaching.

Areas for Improvement

  1. Citation Metrics: Although Jin has a solid citation record, additional high-impact publications could further enhance his research profile. Increasing the citation count of recent publications could bolster his standing in the field.
  2. Collaborations: Expanding collaborations with international researchers and institutions could increase the global impact of his research and open new avenues for innovative projects.
  3. Public Outreach: Greater engagement in public communication of research findings could improve awareness of his work and its significance to broader audiences.

Education 

Shizhu Jin pursued his medical education at Harbin Medical University, where he completed his undergraduate studies in Medicine. He further advanced his expertise with a doctoral degree in Gastroenterology, focusing on innovative research in digestive diseases. His postdoctoral training involved advanced studies and collaborative research, emphasizing the integration of clinical and experimental gastroenterology. Jin’s academic journey has been marked by continuous learning and contribution to the field through rigorous research, resulting in groundbreaking advancements in stem cell therapy and digestive system diseases. His educational background, combined with extensive hands-on experience, has established him as a leading expert and educator in his field, driving both clinical excellence and academic innovation.

Experience 

Professor Shizhu Jin has extensive experience as a leading physician and researcher in Gastroenterology. At the Second Affiliated Hospital of Harbin Medical University, he directs the Ward I of the Department of Gastroenterology, overseeing complex clinical cases and pioneering treatments. His career includes significant contributions to research with over 44 SCI-indexed publications and several high-impact patents. Jin has led numerous research projects funded by prestigious bodies like the National Natural Science Foundation of China and the Chinese Medical Foundation. His professional roles extend to editorial positions in prominent journals and advisory roles in various medical associations. His commitment to advancing medical knowledge and improving patient care through research and innovation underscores his substantial impact on both the clinical and academic aspects of gastroenterology.

Research Focus 

Shizhu Jin’s research primarily focuses on innovative approaches to treating digestive system diseases, including stem cell transplantation and regenerative medicine. His work explores the molecular mechanisms underlying gastrointestinal disorders, aiming to develop novel therapeutic strategies. Jin has made significant contributions to understanding the role of stem cells in treating liver cirrhosis and inflammatory bowel diseases. His research on the signaling pathways involved in disease progression has led to potential breakthroughs in personalized medicine. Jin’s studies on hypoxia-induced factors and tumor microenvironments highlight his commitment to advancing our knowledge of complex digestive diseases. His research not only aims to improve clinical outcomes but also strives to translate scientific discoveries into practical applications for better patient management.

Publications Top Notes

  • GABPA-Mediated Expression of HPN-AS1 Facilitates Cell Apoptosis and Inhibits Cell Proliferation in Hepatocellular Carcinoma by Promoting eIF4A3 Degradation 🧬📉 Turkish Journal of Gastroenterology, 2024, 35(7), pp. 577–586
  • Stimulation by exosomes from hypoxia-preconditioned hair follicle mesenchymal stem cells facilitates mitophagy by inhibiting the PI3K/AKT/mTOR signaling pathway to alleviate ulcerative colitis 🔬🧪 Theranostics, 2024, 14(11), pp. 4278–4296
  • Novel milestones for early esophageal carcinoma: From bench to bed 🏥📚 World Journal of Gastrointestinal Oncology, 2024, 16(4), pp. 1104–1118
  • Development and validation of a blood routine-based extent and severity clinical decision support tool for ulcerative colitis 🩸🔍 Scientific Reports, 2023, 13(1), 21368
  • BMSCs alleviate liver cirrhosis by regulating Fstl1/Wnt/β-Catenin signaling pathway 🧫🩺 Heliyon, 2023, 9(11), e21010
  • Characterization of the metabolic alteration-modulated tumor microenvironment mediated by TP53 mutation and hypoxia 🧪🔬 Computers in Biology and Medicine, 2023, 163, 107078
  • From Phenomenon to Essence: A Newly Involved lncRNA Kcnq1ot1 Protective Mechanism of Bone Marrow Mesenchymal Stromal Cells in Liver Cirrhosis 🧬💉 Advanced Science, 2023, 10(21), 2206758
  • A novel approach to improving colonoscopy learning efficiency through a colonoscope roaming system: randomized controlled trial 🏥📈 PeerJ Computer Science, 2023, 9, e1409
  • Construction of a TTN Mutation-Based Prognostic Model for Evaluating Immune Microenvironment, Cancer Stemness, and Outcomes of Colorectal Cancer Patients 🧬📊 Stem Cells International, 2023, 2023, 6079957
  • Hypoxia-induced factor and its role in liver fibrosis 🔬🩺 PeerJ, 2022, 10, e14299

Conclusion

Shizhu Jin is highly deserving of the Best Researcher Award due to his outstanding research contributions, leadership in high-impact projects, and significant innovations in gastroenterology. His extensive publication record, patent holdings, and prestigious awards reflect a remarkable career dedicated to advancing medical science. Addressing areas for improvement could further elevate his impact and recognition in the global research community.

Seema Singh | Immune cells | Cell Biology Research Award

Published on by Cell Biologist

Prof Dr Seema Singh | Immune cells | Cell Biology Research Award

Prof Dr Seema Singh , UMMC , United States

Seema Singh, Ph.D., M.B.A., is a distinguished Professor and Associate Director of Education and Training at the University of Mississippi Medical Center. She has a robust background in cell and molecular biology, with expertise in cancer research, particularly in understanding racial disparities in cancer biology. Dr. Singh’s career spans multiple prestigious institutions, including the University of South Alabama and the University of Nebraska Medical Center. She is noted for her contributions to cancer research and education, having led numerous funded projects and received multiple awards. In addition to her academic roles, she serves on various scientific review panels and advisory boards, reflecting her prominence in the field. Her current research focuses on the influence of stress on cancer progression and the mechanisms underlying cancer health disparities.

Publication Profile

Orcid

Strengths for the Award

  1. Extensive Experience and Expertise: Dr. Seema Singh has a robust academic and professional background, with over two decades of experience in cell biology and oncology research. Her tenure as a Professor and Associate Director of Education and Training at the University of Mississippi Medical Center underscores her leadership and expertise in the field.
  2. Significant Research Contributions: Dr. Singh’s research has made notable contributions to understanding cancer biology, particularly in relation to health disparities and molecular mechanisms. Her work on the molecular causes and mechanistic underpinnings of breast cancer racial disparity, funded by the NIH (R01CA204801), highlights her capability to tackle complex biological questions with significant impact.
  3. Strong Grant and Contract Record: Her successful acquisition of major grants, including ongoing funding from the Department of Defense and the Breast Cancer Research Foundation of Alabama, demonstrates her ability to secure and manage substantial research funding. Her past work on NIH R01 grants with high scores indicates a strong track record of impactful research.
  4. Editorial and Review Contributions: Dr. Singh’s roles as a Special Issue Editor and journal reviewer for high-impact journals reflect her recognition and respect in the scientific community. This involvement enhances her reputation and showcases her commitment to advancing the field of cell biology through peer review and editorial responsibilities.
  5. Honors and Awards: Her receipt of the Outstanding Cancer Scientist Award and other prestigious honors demonstrates the recognition of her peers for her significant contributions to cancer research. These accolades support her candidacy for the Research for Cell Biology Research Award.
  6. Service and Outreach: Dr. Singh’s involvement in community outreach and advisory roles, such as her leadership in breast cancer awareness initiatives, further illustrates her dedication to translating research into real-world impacts and educating the next generation of scientists.

Areas for Improvement

  1. Broader Research Focus: While Dr. Singh has a strong focus on cancer research and health disparities, expanding her research portfolio to include a wider range of cell biology topics could strengthen her application. This could involve integrating more fundamental cell biology studies or exploring novel cellular mechanisms.
  2. Publication Diversity: Although Dr. Singh has numerous publications, diversifying her publication venues to include emerging or high-impact journals in cell biology could further enhance her visibility and impact in the broader cell biology community.
  3. Collaborative Research: Increasing collaborative efforts with researchers in other subfields of cell biology or related disciplines could provide new insights and foster interdisciplinary approaches, potentially leading to more innovative research outcomes.

Education

Seema Singh earned her M.B.A. with a concentration in Health Care from the University of South Alabama’s Mitchell College of Business (2021-2023). She completed certificate courses in clinical pharmacology and clinical research from the NIH Office of Clinical Research (2022-2023). Her academic journey began with a Ph.D. in Pathology and Microbiology from Cent. Inst. Med. Aromat. Pl. (CIMAP), India (1996-2001), following a Master’s in Botany-Pathology from Aligarh M. University, India (1992-1994). She also holds a Bachelor’s degree with Honors in Botany from Aligarh M. University (1989-1992). Her postgraduate training includes extensive research experience at the University of Nebraska Medical Center, where she held positions as a Research Associate and Post-doctoral Fellow from 2006 to 2009.

Experience 

Dr. Seema Singh’s career is marked by extensive experience in academia and research. She has held tenured professorships at the University of Mississippi Medical Center and the University of South Alabama, focusing on cell biology and oncologic sciences. Her roles included leading the Department of Oncologic Sciences and serving as Vice President for Research at Tatva Biosciences LLC. Dr. Singh has been a Research Associate and Post-doctoral Fellow at the University of Nebraska Medical Center, where she contributed significantly to cancer research. Her work has involved substantial contributions to understanding cancer health disparities and developing innovative research methodologies. In her current role, she is integral to education and training in cancer research, reflecting her leadership and commitment to advancing the field.

Awards and Honors

Dr. Seema Singh has received numerous accolades for her contributions to cancer research. In 2023, she was honored with the Healers Medal by The Mapp Family Foundation and the Outstanding Cancer Scientist Award by the Society of American Asian Scientists in Cancer Research (SAASCR). She has been recognized as a Special Issue Editor for leading journals, including iScience and Discover Oncology. Notably, she received the Mayer Mitchell Annual Award for Excellence in Cancer Research in 2020. Her achievements include several NIH research grants, with her proposal ranked in the top percentiles for impact. Dr. Singh has also been acknowledged with the Russell and Robin Lea National Alumni Excellence in Faculty Innovation Award in 2016. Her consistent recognition underscores her significant impact on cancer research and academic excellence.

Research Focus 

Dr. Seema Singh’s research focuses on the molecular mechanisms underlying cancer health disparities, particularly those affecting racial minorities. Her work explores the role of various biomarkers and signaling pathways in cancer progression and resistance, with a strong emphasis on stress-induced immune landscape changes in breast cancer. She investigates how factors such as serum cortisol levels influence tumor characteristics and disease outcomes. Dr. Singh’s research aims to elucidate the interplay between tumor microenvironments and systemic factors contributing to aggressive cancer phenotypes. Her projects, including studies on IL6-induced Myb expression in prostate cancer and the impact of resistin-LIN28A-(IL6)-STAT3/pSTAT3 regulatory loops in breast cancer, reflect a commitment to addressing critical gaps in cancer research and advancing personalized therapeutic strategies.

Publications Top Notes

  • “Mitochondrial Translocase TOMM22 Is Overexpressed in Pancreatic Cancer and Promotes Aggressive Growth by Modulating Mitochondrial Protein Import and Function” 📄
  • “Supplementary Figure 1 from Mitochondrial Translocase TOMM22 Is Overexpressed in Pancreatic Cancer and Promotes Aggressive Growth by Modulating Mitochondrial Protein Import and Function” 📄
  • “Supplementary Figure 2 from Mitochondrial Translocase TOMM22 Is Overexpressed in Pancreatic Cancer and Promotes Aggressive Growth by Modulating Mitochondrial Protein Import and Function” 📄
  • “Supplementary Figure 3 from Mitochondrial Translocase TOMM22 Is Overexpressed in Pancreatic Cancer and Promotes Aggressive Growth by Modulating Mitochondrial Protein Import and Function” 📄
  • “Supplementary Figure 4 from Mitochondrial Translocase TOMM22 Is Overexpressed in Pancreatic Cancer and Promotes Aggressive Growth by Modulating Mitochondrial Protein Import and Function” 📄

Conclusion

Dr. Seema Singh, Ph.D., M.B.A, is highly suitable for the Research for Cell Biology Research Award. Her extensive experience, significant contributions to cancer research, successful grant record, editorial roles, and community service highlight her exceptional qualifications. Addressing the areas for improvement, such as broadening her research focus and increasing collaborative efforts, could further strengthen her candidacy. Overall, her accomplishments and ongoing work align well with the goals of the Research for Cell Biology Research Award, making her a strong candidate for this recognition.

Tlou Masehela | Weed Management | Best Researcher Award

Published on by Cell Biologist

Tlou Masehela | Weed Management | Best Researcher Award

Dr Tlou Masehela, Department of Forestry, Fisheries and the Environment, South Africa

Dr. Tlou Masehela appears highly suitable for the Best Researcher Award based on the following criteria:

Publication profile

google scholar

Academic Excellence

Dr. Masehela holds a PhD in Entomology and has conducted significant research on beekeeping practices, pollination services, and threats such as hive theft. His work, including a detailed study on beekeeping practices in South Africa, highlights his deep expertise and academic rigor. 📚🐝

Extensive Research Experience

His role as a Knowledge Collation Scientist at SANParks and past positions at SANBI and other research institutions demonstrate his extensive experience in pollinators, GMOs, and biodiversity. His research has contributed to several critical reports and policy frameworks, showcasing his impact on scientific understanding and environmental management. 🌿🔬

Policy and Strategic Contributions

Dr. Masehela’s involvement in developing national biodiversity strategies, GMO frameworks, and bee industry strategies illustrates his influence on policy and conservation strategies. His contributions to technical reports and strategic plans underscore his role in shaping effective environmental policies. 🌍📈

Community and Educational Impact

His outreach efforts, including educational documentaries and contributions to community projects, reflect his commitment to public education and conservation awareness. These efforts help bridge the gap between scientific research and public understanding. 🎥🌻

Research focus

TS Masehela’s research primarily focuses on biodiversity, pollination services, and sustainable agriculture in South Africa. Their work addresses critical issues in beekeeping, including the assessment of beekeeping practices, the importance of securing forage for honey bees, and the threats posed by hive theft and vandalism. Additionally, Masehela’s research explores the impact of genetically modified (GM) crops on biodiversity, the management of pests using genetic tools, and the need for harmonized biotechnology policies in Africa. This research aims to balance agricultural productivity with the conservation of biodiversity and the sustainability of ecosystems. 🌍🐝🌱🔬

High-Impact Publications

Dr. Masehela has published influential research on topics such as bee forage resources and the impact of GM crops, with several citations demonstrating the relevance and impact of his work. 📑🔍

In summary, Dr. Tlou Masehela’s academic qualifications, extensive research experience, contributions to policy and education, and impactful publications make him a strong candidate for the Best Researcher Award. His work significantly advances our understanding of biodiversity, pollination, and genetic engineering, aligning well with the award’s criteria.

Publication top notes

An assessment of different beekeeping practices in South Africa based on their needs (bee forage use), services (pollination services) and threats (hive theft and vandalism)

South African National Biodiversity Assessment 2019: Technical Report Volume 7: Genetic Diversity

The African continent should consider a harmonized consultative and collaborative effort towards coordinated policy and regulatory guidelines across the fields of biotechnology

Securing forage resources for indigenous managed honey bees–thoughts from South Africa

Management of pests using genetic tools in Africa

Diversity patterns of plants and arthropods in soybean agro-ecosystems in the Grassland Biome of South Africa

Impact of GM crops on farmland biodiversity

Comparisons in floristic composition and plant species diversity amongst granite outcrops of the Mamabolo Mountain Bushveld, South Africa

16 Harnessing ecosystem services in transforming agriculture in Southern Africa

A Synopsis of Crimes in the South African Beekeeping Industry: Contextualising the Industry Harms, Malpractices, and Risks

Vassilios Triantafyllidis | Sustainable Crop Production | Best Researcher Award

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Vassilios Triantafyllidis | Sustainable Crop Production | Best Researcher Award

Assist Prof Dr Vassilios Triantafyllidis, University of Patras, Greece

Based on the provided information, Dr. Vassilios Triantafyllidis appears to be a strong candidate for the Researcher of the Year Award.

Publication profile

Orcid

Extensive Education and Experience

Dr. Triantafyllidis holds a Ph.D. in Agricultural and Environmental Sciences and has substantial teaching and research experience, including roles as an Assistant Professor and visiting lecturer at multiple institutions.

Diverse Research Contributions

His research spans several important areas including pesticide science, soil and water management, and the environmental impact of agricultural practices. Notable projects include comparative assessments of pesticide impacts in Europe and innovative methodologies for olive oil traceability.

Significant Publications

He has published multiple impactful articles in reputable journals on topics like herbicide use, olive tree water dynamics, and organic fertilization effects, demonstrating his active and influential research output.

Leadership in Research Projects

Dr. Triantafyllidis has served as a principal investigator and research fellow in significant projects, contributing to advancements in agricultural sciences and environmental management.

Commitment to Education

His teaching contributions at both undergraduate and postgraduate levels highlight his dedication to shaping future experts in his field.

Overall, Dr. Triantafyllidis’s comprehensive research, educational involvement, and leadership in significant projects make him a well-suited candidate for the Best Researcher Award. 🌟🔬📚

Publication top notes

Herbicide Use in the Era of Farm to Fork: Strengths, Weaknesses, and Future Implications

Influence of Organic Fertilization and Soil Tillage on the Yield and Quality of Cold-Pressed Camelina [Camelina sativa (L.) Crantz] Seed Cake: An Alternative Feed Ingredient

Mediterranean Plants as Potential Source of Biopesticides: An Overview of Current Research and Future Trends

Fungicides in Europe During the Twenty-first Century: a Comparative Assessment Using Agri-environmental Indices of EU<sub>27</sub>

Performance of fourteen genotypes of durum wheat under Eastern Mediterranean conditions

Seed fixed oil content, oil yield, and fatty acids profile of <i>Nigella sativa</i> L. in response to fertilization and plant density

Dharmendra Kumar Meena | Food Security and Nutrition | Best Researcher Award

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Dharmendra Kumar Meena | Food Security and Nutrition | Best Researcher Award

Dr Dharmendra Kumar Meena, ICAR-CIFRI, India

Based on Dr. Dharmendra Kumar Meena’s impressive background and contributions, he appears to be a strong candidate for the “Best Researcher Award.”

Publication profile

Scopus

Academic and Professional Background

Dr. Meena is a Senior Scientist at ICAR-Central Inland Fisheries Research Institute with a Ph.D. in Fish Nutrition and Feed Technology. His work in aquaculture, ecological engineering, and waste management has been groundbreaking. With over 80 international papers, 35 book chapters, and 50 popular articles, plus his roles in editing multiple books and manuals, his academic output is substantial. His numerous awards, including the Young Scientist Award, and global recognition underscore his impact in the field. 🌟📚

Research and Innovations

Dr. Meena’s extensive research projects, editorial appointments across high-impact journals, and collaborations with various sectors highlight his broad influence. His work on fish nutrigenomics, circular economy, and ecological engineering is cutting-edge. His dedication to advancing knowledge in these areas, combined with his leadership in multiple professional societies, makes him a standout candidate. 🌍🔬

Publications and Impact

His recent publications cover vital areas like fish masculinization, water quality dynamics, immunomodulatory effects of herbal treatments, and functional food development. These contributions demonstrate his ongoing commitment to addressing crucial issues in aquatic research and sustainability. 🐟📈

Research focus

Based on the provided articles, Meena D.K.’s research focus revolves around aquatic biology, fish physiology, and environmental science. His work explores various aspects of fish health and management, including the impact of aromatase inhibitors on fish masculinization, water quality dynamics, and immunomodulatory effects of natural substances in fish. Additionally, he investigates the antioxidant properties of sorghum and its potential in functional food development. Meena D.K.’s research contributes to enhancing fishery practices, improving fish health, and understanding environmental impacts on aquatic ecosystems. 🌊🐟📚🔬

Dr. Meena’s comprehensive expertise and significant achievements in his field make him a deserving nominee for this prestigious award.

Publication top notes

Seasonal Variations and Water Quality Dynamics:Analysis of Kanota Dam in Relation to WHO Standards

Terminalia arjuna Bark Powder as a Potential Immunomodulator in Labeo rohita: Enhanced Hematological, Adaptive, and Humoral Responses against Bacterial Pathogens and Concordant Liver Histomorphology

Unveiling the Antioxidant Arsenal of Colored Sorghum: A Path to Functional Food Development

Immunomodulatory effect of saponin treatment and microbial infections provoke the expression of Mx gene in catla (Labeo catla)

Ecosystem-based fishery enhancement through pen culture of Indian major carp Labeo catla in a tropical floodplain wetland of North Eastern Region, India, during COVID pandemic

Franciely da Silva Ponce | Agronomic | Best Researcher Award

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Prof Dr Franciely  da Silva Ponce |  Agronomic |  Best Researcher Award

Prof Dr at  Universidade Paranaense,  Brazil

Franciely da Silva Ponce is a full professor in the Agronomic Engineering course at Paranaense University (UNIPAR) and a faculty member of the Postgraduate Program in Biotechnology Applied to Agriculture. She holds a Ph.D. in Agronomy (Horticulture) from São Paulo State University (UNESP), where her research focused on the integrated management of Lepidoptera pests in brassicas using Trichogramma pretiosum. Franciely completed her Master’s degree in Environment and Agricultural Production Systems at the State University of Mato Grosso (UNEMAT), focusing on the environmental and economic aspects of cabbage cultivation. Her undergraduate degree in Agronomy was also obtained from UNEMAT, where she researched the propagation of Byrsonima cydoniifolia. She has additional training in plant biochemistry and cultural management. Her research interests include tropical horticulture, vegetable production, pest management, and integrated pest management. Franciely has been involved in various research and extension activities, including technology transfer in vegetable production and teaching at multiple institutions.

Profile:

Academic Background:

🎓 PhD in Agronomy (Horticulture)
São Paulo State University (UNESP), Brazil
Title: Integrated Management of Lepidoptera Pests in Brassicas Using Trichogramma pretiosum Riley
Year: 2021

🎓 Master’s in Environment and Agricultural Production Systems
State University of Mato Grosso (UNEMAT), Brazil
Title: Environmental, Productive and Profitability Analysis of Cabbage Cultivation
Year: 2018

🎓 Degree in Agronomy
Mato Grosso State University (UNEMAT), Brazil
Title: Feasibility of Using Cuttings and Indolbutyric Acid in the Propagation of Murici
Year: 2015

Current Positions:

👩‍🏫 Full Professor
Paranaense University (UNIPAR), Brazil

  • Agronomic Engineering Course
  • Postgraduate Program in Biotechnology Applied to Agriculture

Research Interests:

🌿 Tropical Horticulture

  • Horticulture and Society
  • Management and Production of Vegetable Species
  • Integrated Pest Management
  • Protected Cultivation
  • Non-Conventional Vegetables
  • Post-Harvest Vegetables
  • Cost and Profitability of Vegetable Production

Professional Experience:

  • Scholarship Holder, Research Fellow
    Mato Grosso State University (UNEMAT)

    • Vegetable Cultivation in Protected Environments
  • Guest Professor
    Mato Grosso State University (UNEMAT)

    • Production and Quality of Vegetables (Master’s course)

Publication Top Notes:

  • Melon Cultivation Under Agrotextile Increases Production and Reduces Phytosanitary Products
  • Profitability and Efficiency of Conduction Systems and Optimal Tomato Density for Fresh Consumption
  • Desafios e Perspectivas do Manejo da Traça-do-Tomateiro
  • Do the Training System and Spacing Affect the Productivity and Quality of Tomato Plants?
  • Adubação Silicatada na Produtividade e Respostas Fisiológicas das Plantas
  • Effect of Polycarbonate and Agricultural Film on Production and Biochemical Compounds of Tomato Fruits
  • Produtividade, Custo e Rentabilidade de Couve Produzida Sob Túnel Baixo
  • Does the Physiological Trade-Off Between Reproduction and Defense Affect the Physiological and Biochemical Parameters of Tomato Plants Infested with Bemisia tabaci MED and MEAM1?
  • Dispersão de Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) em Cultivos de Couve e Repolho
  • Teores de Macro e Micronutrientes em Plantas de Jambu Cultivadas em Ambiente Protegido
  • Controle Cultural de Nematoides em Alface, Utilizando Cobertura de Solo e Consórcio com Cravo-de-Defunto
  • Curva de Absorção de Água em Sementes de Sete Cascas em Função do Tamanho
  • Produção e Qualidade de Melão Amarelo Submetido a Diferentes Sistemas de Plantio
  • Viabilidade Agroeconômica do Cultivo de Híbridos Tomateiro de Hábito Determinado no Período de Safra e Entressafra na Região Central Matogrossense
  • Viabilidade do Uso de Estacas e Ácido Indolbutírico na Propagação de Murici (Byrsonima cydoniifolia A. Juss.)
  • Produção de Cultivares de Almeirão Sob Diferentes Telados e Campo Aberto em Clima Tropical
  • Curva de Absorção de Nutrientes em Jambu (Spilanthes oleracea L.), Cultivado em Sistema Hidropônico
  • Índices Morfofisiológicos de Alface Produzidas em Diferentes Substratos Sob Ambiente Protegido