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Dr. Abimbola Aminu – Cardiovascular Sciences – Best Researcher Award

 

University of Manchester | United Kingdom

      Profiles

📍Current Position

She is currently a Medical Writer/Copywriter at MedNet Health in Leeds, United Kingdom. Her role, which she has held since July 2023, involves reviewing and auditing clinical trial protocols for compliance with ICH-GCP guidelines, creating scientific content across various disease areas, and managing client communications. she  also conceptualizes and develops a range of materials including webinar slides, web content, and pitch decks, ensuring all deliverables meet industry standards and client expectations. Her work reflects a high level of dedication to maintaining quality and regulatory compliance in clinical research.

 

📝Publication Achievements 

Journals Published

She has made significant contributions to cardiovascular sciences through her publications. As the first author, her notable works include: Aminu A, et al., 2024. Innovations in cardiac conduction system research: Female frontiers and global disparities. TRIA, 37:100330. Aminu A, et al., 2022. Novel micro-computed tomography contrast agents to visualise the human cardiac conduction system and surrounding structures in hearts from normal, aged, and obese individuals. TRIA, 27:100175. Aminu A, et al., 2021. MiR-486-3p and miR-938 – important inhibitors of pacemaking ion channels and/or markers of immune cells. Appl. Sci., 11:11366. Aminu A, et al., 2021. Further insights into the molecular complexity of the human sinus node – the role of ‘novel’ transcription factors and microRNAs. Prog. Biophys. Mol. Biol., 166:86–104.

🔍Ongoing Research 

Her ongoing research focuses on the anatomical and molecular mapping of the human cardiac conduction system. Her work aims to enhance the understanding of cardiac function and its implications for cardiovascular diseases. She employs advanced techniques such as micro-computed tomography and 3D image reconstruction to explore the complexities of cardiac tissues and their functional roles.

 🔬Research Interests 

Her research interests span several areas within cardiovascular sciences, including: Cardiac Conduction System: Understanding its anatomical and functional aspects. Bioinformatics: Applying computational methods to analyze complex biological data. Molecular Biology: Investigating the role of transcription factors and microRNAs in cardiac function. Advanced Imaging Techniques: Utilizing micro-computed tomography and 3D reconstruction to study cardiac structures.

🎓Academic Background 

Her academic journey is distinguished by her comprehensive education in cardiovascular sciences and related fields: PhD in Cardiovascular Sciences, University of Manchester, 2018–2022 Thesis: Anatomical and molecular mapping of the human cardiac conduction system MRes in Cardiovascular Sciences, University of Manchester, 2017–2018 MSc in Chemical Biology and Drug Design, University of Leeds, 2016–2017 BSc in Medicinal and Biological Chemistry, Manchester Metropolitan University, 2013–2016

🏆Scholarships and Awards 

She has received several scholarships and awards throughout her academic career, recognizing her outstanding contributions to cardiovascular research and her academic excellence.

🌐Professional Associations 

She is an Associate Fellow of the Higher Education Academy (AFHEA) and a member of several professional organizations in the field of cardiovascular sciences and medical writing.

 📚Training & Workshops 

She has participated in numerous training sessions and workshops related to clinical research, scientific writing, and regulatory compliance. These have equipped her with advanced skills in managing clinical trials and creating high-quality scientific content.

 🎤Oral Presentations and🗣️Thought Leadership 

She has presented her research at various national and international conferences, showcasing her work on cardiac conduction and molecular research. Her presentations highlight her ability to communicate complex scientific concepts effectively.

 🧑‍🔬Tasks Completed as a Researcher 

During her tenure as a PhD student and researcher, She managed several tasks including: Supervising BSc, MSc, and PhD students ,Overseeing research projects and guiding experimental procedures, Analyzing and communicating complex scientific data, Ensuring adherence to research timelines and standards

 🚀Success Factors 

Her success can be attributed to her strong investigative skills, thorough understanding of regulatory guidelines, and ability to liaise effectively with stakeholders. Her versatility in scientific communication and project management also plays a crucial role in her achievements.

 🧪Publications & Laboratory Experience

Her laboratory experience is highlighted by her use of advanced imaging techniques and bioinformatics in her research. Her publications reflect her in-depth knowledge and innovative approach to studying the cardiac conduction system, contributing valuable insights to the field.

 📚Publications

Innovations in cardiac conduction system research: Female frontiers and global disparities

   Authors: Aminu, A.J., Luwei, K.C., Dobrzynski, H.

   Journal: Translational Research in Anatomy

 

Morphology of human sinoatrial node and its surrounding right atrial muscle in the global obesity pandemic—does fat matter?

   Authors: Chen, W., Rams, D., Zając, M., Kuniewicz, M., Dobrzynski, H.

   Journal: Frontiers in Medicine

Inflammatory degranulation of the cardiac resident mast cells suppresses the pacemaking and affects activation pattern in the sinoatrial node

   Authors: Kuzmin, V.S., Malykhina, I.A., Pustovit, K.B., Aminu, A.J., Dobrzynski, H.

   Journal: Translational Research in Anatomy

 

Novel micro-computed tomography contrast agents to visualise the human cardiac conduction system and surrounding structures in hearts from normal, aged, and obese individuals: Iodine and graphene oxide – visualising human conduction system in normal, aged, and obese hearts

   Authors: Aminu, A.J., Chen, W., Yin, Z., Dobrzynski, H., Atkinson, A.J.

   Journal: Translational Research in Anatomy

 

Mir-486-3p and mir-938—important inhibitors of pacemaking ion channels and/or markers of immune cells

   Authors: Aminu, A.J., Petkova, M., Chen, W., Atkinson, A.J., Dobrzynski, H.

   Journal: Applied Sciences (Switzerland)

 

Abimbola Aminu | Cardiovascular Sciences | Best Researcher Award

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