Mr. Malu Daniel | Biotechnology | Research Excellence Award

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Mr. Malu Daniel | Biotechnology | Research Excellence Award

Mr. Malu Daniel, University of Calabar, Calabar, Nigeria, Nigeria

MR. DANIEL GATIE MALU is a dynamic researcher with a B.Sc. in Genetics and Biotechnology from the University of Calabar, Nigeria. His expertise lies in drug design, discovery, and molecular docking, where he utilizes computational techniques such as density functional theory (DFT) to address complex scientific challenges. His passion for drug delivery systems, particularly for genetic disorders like Cystic Fibrosis and cancers, fuels his ongoing research. Throughout his academic journey, Daniel has developed strong problem-solving skills, a collaborative mindset, and a commitment to scientific integrity. He is currently involved in a research program at the University of Calabar, where he is utilizing advanced computational tools to contribute to biosensor development, biomarkers, and drug modeling. He aims to further his knowledge through a Master’s degree, focusing on theoretical and computational modeling, with a drive to innovate in pharmaceutical and chemical research.

Professional Profile

Orcid

Summary of Suitability for the Award

MR. DANIEL GATIE MALU’s academic achievements, research experience, and dedication to utilizing advanced computational methods for drug design and bio-simulation, he is a strong candidate for the ‘Research for Excellence Award.’ His contributions to multidisciplinary research and his commitment to addressing critical global health issues through innovative scientific solutions make him well-suited for this recognition. His work has the potential for significant scientific impact, aligning well with the award’s criteria for research excellence.

🎓Education 

Daniel Gatie Malu holds a B.Sc. in Genetics and Biotechnology from the University of Calabar, Nigeria, graduating in 2024. His undergraduate thesis, titled “Molecular Modeling of the Spectroscopic Structural and Bioactive Potential of Azadirachta indica against Plasmodium falciparum”, highlights his deep interest in molecular modeling and drug discovery. Daniel explored phytochemical analysis, including GCMS, HPLC, FT-IR, and UV-Vis analysis, to investigate the bioactive potential of plant compounds. His academic focus was on theoretical and experimental approaches to understanding drug interactions with biological systems, utilizing modern computational techniques. The thesis also involved evaluating stability, reactivity, and binding potential of compounds, laying a strong foundation for his future research endeavors. This academic background equipped him with a solid understanding of computational biology, molecular chemistry, and bioinformatics, and he seeks to apply this knowledge to cutting-edge research in drug design and theoretical modeling.

 💼 Experience 

MR. DANIEL GATIE MALU has a diverse research background, starting with his industrial training at Biggmade Scientific Research Academy in 2023. There, he conducted serological tests and explored bioinformatics, focusing on drug-protein interactions. He also performed DNA extraction and plant tissue culture. Since November 2023, he has been part of the Computational and Bio-Simulation Research Group at the University of Calabar, where he is immersed in full-time research. Daniel leverages advanced computational tools such as Gaussian 16, AutoDock Vina, and PyMOL to conduct molecular docking and density functional theory (DFT) studies. His interdisciplinary research spans biosensors, biomarkers, and drug delivery systems. He has also contributed to academic publications and collaborated with peers across various scientific disciplines. Daniel’s mentorship of students and his role in academic projects demonstrate his commitment to fostering intellectual growth within his community.

🏅Awards and Honors 

Daniel Gatie Malu has earned recognition for his academic excellence and contributions to scientific research. In 2024, he became a student member of the Royal Society of Chemistry, which highlights his growing prominence in the field. His work has been instrumental in several key publications and research projects, earning him respect among his peers and mentors. His interdisciplinary research, particularly in molecular docking, density functional theory (DFT), and computational modeling, has been acknowledged within the scientific community. Throughout his academic career, Daniel has demonstrated a strong commitment to advancing knowledge in the fields of biotechnology and drug design, earning him multiple awards for his research contributions at the university level. His passion for innovative solutions in drug delivery and biosensor development has also positioned him as an emerging leader in computational biology and pharmaceutical research.

🌍 Research Focus 

Daniel Gatie Malu’s research focus lies at the intersection of computational chemistry, molecular biology, and drug discovery. He employs density functional theory (DFT) and molecular docking techniques to investigate drug-target interactions, specifically for diseases like Cystic Fibrosis, Huntington’s Disease, and various cancers (BRCA1/BRCA2). Daniel is particularly interested in the design of advanced drug delivery systems such as nanoparticles and liposomes for controlled release and targeted therapies. He also explores high-throughput screening (HTS) to identify active compounds from chemical libraries, focusing on improving the pharmacokinetic and safety profiles of potential drug candidates. Additionally, Daniel investigates the absorption, distribution, metabolism, excretion, and toxicity (ADMET) properties of these compounds. His interdisciplinary research extends to biosensors and biomarkers, leveraging computational methods for innovative applications in both pharmaceuticals and environmental sciences.

📖 Publications Top Notes

How does the long G·G* Watson-Crick DNA base mispair comprising keto and enol tautomers of the guanine tautomerise? The results of a QM/QTAIM investigation.

 

MANSOUREH BARADARAN | Medicine and Dentistry | Best Researcher Award

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Dr MANSOUREH BARADARAN | Medicine and Dentistry | Best Researcher Award

Dr.mansoureh baradaran, North Khorasan University of Medical Sciences, Iran 

Dr. Mansoureh Baradaran is a board-certified radiologist in Iran, with extensive experience in diagnostic imaging and research collaborations. She holds expertise in conducting systematic reviews and meta-analyses in the radiology field, focusing on neurological, oncological, and radiomics studies. Dr. Baradaran has been involved in collaborative projects with prestigious institutions like UCLA, UCSD, and UAB, working on cutting-edge research in artificial intelligence applications in healthcare. Her clinical skills include professional reporting on a variety of imaging modalities, including whole-body MRI and CT scans, mammography, and ultrasound. Throughout her career, she has authored numerous research papers and book chapters in the field of radiology. Dr. Baradaran is passionate about integrating modern technologies like AI into medical imaging and improving diagnostic accuracy. She is an active member of international radiological societies, contributing to advancements in the global radiology community.

Professional profile

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Evaluation of Mansoureh Baradaran, M.D. for the Research for Best Researcher Award

Mansoureh Baradaran, M.D., presents a remarkable profile in radiology research, with a strong international research background. She has participated in numerous collaborative research projects across prestigious institutions such as UCSD, UCLA, and UAB. Her focus on using artificial intelligence in radiology for predictive analysis, as well as her involvement in high-impact studies on topics like Alzheimer’s disease, COVID-19, and cancer, highlights her expertise in radiomics and systematic reviews. Furthermore, Dr. Baradaran has published extensively, with notable research papers in reputable journals, reflecting her capacity for high-quality scholarly output. Her presentations at international conferences like the Society of Interventional Radiology (SIR) 2023 also emphasize her active engagement with the global research community.

Education :

Dr. Mansoureh Baradaran completed her radiology residency at Mashhad University of Medical Sciences, Razavi Khorasan, Iran, between 2016 and 2020. She graduated with a GPA of 17.80/20 and conducted her thesis on the pathologic results of stereotactic core needle biopsy in patients suspicious for malignancy through microcalcifications in mammography. Prior to this, she earned her Doctor of Medicine (M.D.) degree from Birjand University of Medical Sciences, South Khorasan, Iran, in 2016, with a GPA of 18.50/20. Her medical thesis investigated serum lipid levels in patients with thalassemia major compared to the control group. Dr. Baradaran’s education has been rooted in rigorous clinical and research training, allowing her to develop extensive knowledge in radiology, diagnostic imaging, and related research fields. Her educational background reflects a strong commitment to both clinical excellence and research contributions in medical science.

Experience :

Dr. Mansoureh Baradaran currently practices as a radiologist at Dr. Mohajerzadeh Private Radiology Clinic in Bojnurd, Iran, and the Avan Advanced Private Medical Center in Mashhad, Iran. She specializes in performing and interpreting imaging modalities, including ultrasounds, MRI, CT scans, and mammography. Between 2020 and 2024, she worked at North Khorasan University of Medical Science’s hospitals, where she gained extensive experience in diagnostic imaging and reporting across various radiological fields. Dr. Baradaran has also been actively involved in international research collaborations, contributing to studies on artificial intelligence, radiomics, and neurological imaging. These collaborations include working with top institutions like UCLA, UCSD, and UAB on projects such as AI applications in hepatocellular carcinoma recurrence and diagnostic performance of MRI radiomics for Alzheimer’s disease. Her hands-on clinical work is complemented by her commitment to advancing radiological research and diagnostics.

Awards and Honors :

Dr. Mansoureh Baradaran has earned several prestigious accolades throughout her medical and academic career. She secured a double-digit rank in Iran’s highly competitive entrance exam for medical specialties in May 2016, a testament to her academic prowess. Additionally, she achieved national recognition with a high rank in Iran’s basic medical science exam in September 2011. Her exceptional academic performance during her radiology residency, with a GPA of 17.80/20, further highlights her commitment to excellence in her field. Dr. Baradaran’s achievements are not limited to exams; she has co-authored numerous research papers and book chapters, contributing significantly to medical science. Her work in artificial intelligence applications in radiology and diagnostic imaging has been recognized at international conferences such as the Society of Interventional Radiology (SIR) 2023. These awards and honors reflect her dedication to both clinical practice and innovative medical research.

Research Focus :

Dr. Mansoureh Baradaran’s research is focused on diagnostic radiology, radiomics, and the integration of artificial intelligence (AI) in medical imaging. She has contributed to numerous systematic reviews and meta-analyses in areas such as Alzheimer’s disease, lung cancer, and neurological complications related to COVID-19. A significant portion of her research involves the use of radiomics for predictive modeling in diseases like non-small cell lung cancer and hepatocellular carcinoma. Her work aims to enhance diagnostic accuracy through the application of advanced imaging techniques and AI-driven technologies. Dr. Baradaran is particularly interested in how AI can improve the early detection of disease recurrence and optimize treatment outcomes. Additionally, her research on olfactory dysfunction related to COVID-19 has provided valuable insights into the long-term effects of the virus on neuroimaging. Her contributions to radiology extend beyond clinical applications, delving into the future of AI in healthcare diagnostics.

Publications Top Notes:

  1. Diagnostic performance of MRI radiomics for classification of Alzheimer’s disease, mild cognitive impairment, and normal subjects 🧠📊
  2. Prognostic value of CT scan-based radiomics in intracerebral hemorrhage patients 🩸📈
  3. Brain MRI findings in neurologically symptomatic COVID-19 patients 🦠🧠
  4. Legg-Calve-Perthes Disease: A comprehensive review of diagnosis, management, and current treatment options 🦴👩‍⚕️
  5. Diagnostic performance of radiomics in prediction of Ki-67 index status in non-small cell lung cancer 🫁📉
  6. Olfactory dysfunction in the COVID-19 era: An umbrella review focused on neuroimaging 👃🦠
  7. Pathologic results of stereotactic core needle biopsy in patients suspicious to microcalcification on mammography 🔬🩺
  8. Cystic teratoma of the oral cavity 👶👄
  9. Spontaneous rupture of accessory spleen 16 years after splenectomy 🩸🧬
  10. Spontaneous rupture of splenic artery aneurysm in a pregnant woman 🩸🤰